KR101073243B1 - Stator, the generator using stator - Google Patents

Abstract

The present invention can smoothly perform the stator coil winding used in the generator (including the generator as well as the electric motor), and also increase the volume density to maximize the winding amount to maximize the power generation efficiency. The purpose is to provide a stator and a generator using the same.
The present invention is a whole winding shape of the stator coil is made in a ring shape, and the inside and the outside of the coil to be wound in a hemispherical shape to provide a stator with a cross-section wound in a peanut shape, the inner using the stator It is characterized by providing a type and an out type generator.
The present invention can provide a coreless generator capable of minimizing electrical losses and eliminating the demagnetization of permanent magnets and mechanical life due to heat generation without generating cogging torque, and improving the coil winding volume density of the stator. It can be designed to be high so that the diameter of the coil can be increased and the number of windings can be increased to reduce the resistance while maximizing efficiency.
In addition, by using the spacer-pin and wrench bolt in the inner rotor type generator, the permanent magnet supporter can be fixed and assembled to provide a lighter power generator with excellent assembly performance and reduced weight.
In addition, the outer rotor type generator does not use separate upper and lower covers to reduce the number of parts, thereby improving assembly performance and ensuring robustness, and providing a generator with double the sealing property.

Description

Stator, the generator using stator}

The present invention relates to a stator and a generator (including a generator as well as an electric motor) using the stator. More particularly, the stator coil winding used in the generator can be smoothly performed and the volume density can be increased by increasing the volume density. It is to provide a stator and a generator using the same to provide a number of effects, such as maximizing power generation efficiency by maximizing.

Since the stator used in the generator is installed in a limited space, there was a limit in the diameter and the number of windings of the coil wound on the stator, thereby having many problems in improving efficiency.

On the other hand, in the existing generator, since there is a separate cover between the upper cover and the lower cover, the number of parts increases, resulting in problems in assembling, durability, and sealing, and the supporter when fixing the permanent magnet to the shaft. The weight of the product has been increased, and the weight of the product has been impaired.

Therefore, the main object of the present invention is to provide a large diameter of the coil to enable the design of the high volume density of the coil winding, and thereby to provide a stator that can increase the number of turns to reduce the resistance and maximize the efficiency will be.

In another aspect, the present invention is to provide a stator that can improve the electrical loss due to iron loss and cogging torque generated by the use of the core and heat generated thereby shortening the potato and mechanical life of the permanent magnet.

In addition, the present invention is to provide an inner rotor type generator and an outer rotor type high efficiency generator using the stator.

In another aspect, the present invention is to provide a generator capable of designing a high volume density of the coil winding to stack the stator in axial multi-stage, multi-layer.

Accordingly, the present invention provides a stator having the following characteristics and a generator using the same in order to achieve the above problems.

The stator provided in the present invention is formed in a coil-shaped whole coil shape, and has a hemispherical shape wound inside and outside of the coil to be wound, so that the cross-sectional shape is wound in a peanut shape.

In addition, the inner rotor type generator using the stator having the configuration features, the shaft is rotatably installed by the bearing in the upper cover and the lower cover center, the permanent magnet supporter to be assembled up and down stepped formed on the shaft, and A plurality of spacer pins interposed between the upper and lower permanent magnet supporters to secure the shaft and the upper and lower permanent magnet supporters with a plurality of wrench bolts, and the wrench bolts are coupled to each other, and the permanent magnets fixed to face the upper and lower permanent magnet supporters. And a stator fixed between the upper and lower permanent magnets by a stator supporter.

And the outer rotor type generator using the stator having the configuration features are the upper cover and lower cover rotatably installed in the shaft having a hollow portion rotatably with a bearing and fixed by a plurality of wrench bolts, and stepped formed on the shaft The stator is fixed to the upper and lower back plates and the permanent magnets fixed to the upper and lower portions of the upper cover and the lower cover positioned above and below the stator.

The stator of the present invention can provide a coreless generator capable of minimizing electrical losses and eliminating the demagnetization of permanent magnets and mechanical life due to heat generation without generating cogging torque, and coil winding of the stator. By designing high volume density, it is possible to maximize the efficiency while reducing the resistance by increasing the diameter of the coil and increasing the number of windings.

In addition, by using the spacer-pin and wrench bolt in the inner rotor type generator, the permanent magnet supporter can be fixed and assembled to provide a lighter power generator with excellent assembly performance and reduced weight.

In addition, the outer rotor type generator does not use separate upper and lower covers to reduce the number of parts, thereby improving assembly performance and ensuring robustness, and providing a generator with double the sealing property.

1 is a perspective view showing a preferred embodiment of the stator provided by the present invention
Figure 2 is a cross-sectional view showing a preferred embodiment of the stator provided by the present invention
Figure 3 is a cross-sectional view showing a case in which the stator provided by the present invention is applied to the generator of the inner rotor type
Figure 4 is a cross-sectional view showing a case in which the stator provided by the present invention is applied to the generator of the outer rotor type

The stator of the present invention can be used for an electric motor, a generator, etc., so that the coil can be designed to have a high volume density of the coil winding constituting the stator. By constructing a peanut shape, it is possible to use a coil with a larger diameter than the existing one in the same volume.This increases the number of windings, reducing the resistance and maximizing the efficiency of the motor and generator. Characterized to provide.

In another aspect, the present invention is characterized by providing a stator that can improve the electrical loss due to iron loss and cogging torque generated by using the core and heat generated thereby shortening the potato and mechanical life of the permanent magnet.

In addition, the present invention is characterized in that it is possible to provide an inner type and an outer type generator using the stator.

Preferred embodiments of the present invention having the above-described structural features will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a stator 1 in which a preferred embodiment of the present invention is implemented, and FIG. 2 is a cross-sectional configuration thereof.

The stator 1 of the present invention has a hemispherical winding of the inside and the outside of the coil 2, which is wound in a ring shape as a whole, so that the cross-sectional shape is wound into a peanut shape.

In this case, the coil 2 is wound in three coils in three phases, and in the generator of the inner rotor type, the shaft rotates so that the end of the coil 2 is wired outward, and the outer rotor In an outer rotor type generator, the shaft is fixed and the cover casing rotates so that the end of the coil 2 is wired to the center inside the shaft made of hollow pipe.

When the winding of the coil 2 is made, the heat-resistant resin 3 is impregnated so that the setting of the wound coil 2 is made by the resin.

The heat-resistant resin (3) is to use a resin without deformation in the range of -40 ~ 190 ℃, preferably a brand name "SC322", such as one of the acid anhydride-based two-component epoxy impregnating agent can be used.

The case where a small wind power generator is manufactured using such a stator 1 is shown in FIG.

That is, as shown in the cross-sectional configuration of FIG. 3, the inner rotor type generator 10 has a shaft 11 at the center thereof by a bearing 14 between the upper upper cover 12 and the lower lower cover 13. The shaft 11 is rotatably installed, and the shaft 11 has a stepped portion 15 formed thereon, and the upper and lower permanent magnet supporters 16 and 17 are assembled in the vertical direction of the shaft 11 up and down. The shaft 11 is fixed with the wrench bolts 20 through the coupling holes 18 and 19 formed in the vertical direction through the upper and lower permanent magnet supporters 16 and 17 and the step 15.

Space-pin to facilitate assembly of the upper and lower permanent magnet supporters 16 and 17 together with the wrench bolts 20 coupled to the coupling holes 19 formed in the stepped portion 15 of the shaft 11 to reduce the weight. (21) is interposed between the upper and lower permanent magnet supporters (16, 17) to secure with a separate wrench bolt (22).

Of course, the spacer pin 21 is interposed between the upper and lower permanent magnet supporters 16 and 17 without the coupling hole 19 formed on the stepped portion 15 of the shaft 11, and then fixed with a wrench bolt 22. You may.

The permanent magnets 23 and 24 are fixed to the upper and lower permanent magnet supporters 16 and 17 so as to face each other, and the stator 1 of the present invention is installed between the upper and lower permanent magnets 23 and 24.

The stator 1 is fixed by a stator supporter 26 interposed between the upper and lower upper covers 12 and the lower cover 13 and fixed by a wrench bolt 25.

Reference numeral 27 in the figure shows an oil seal provided on the upper cover 12 to seal.

On the other hand, Figure 4 illustrates the case of using the stator 1 of the present invention in the generator (30) of the outer rotor type (outer rotor).

That is, in the outer rotor type generator 30, the upper and lower upper covers in which the shaft 31 is installed by the bearing 34 between the upper upper cover 32 and the lower lower cover 33 at the center thereof serve as a rotor. The 32 and the lower cover 33 are rotatably installed, and the stator 1 of the present invention is fixed to the step 35 formed in the shaft 31.

In addition, the upper and lower back plates 36 and 37 and the permanent magnets 38 and 39 fixed to the upper and lower portions of the upper cover 32 and the lower cover 33 positioned up and down of the stator 1 have a wrench groove dish head. Fixing using the bolt 40, the upper and lower upper cover 32 and the lower cover 33 is to be fixed using a wrench bolt (41).

The coil 2 wound on the stator 1 in the outer type generator 30 has a shaft 31 having a hollow portion 31a and is wired between the hollow portions 31a to be sealed with a resin.

Reference numeral 42 in the figure shows an oil seal installed in the lower cover 33 to seal.

In the above various embodiments, the present invention describes only a generator when one stator 1 is installed, but the stator 1 may be installed in multiple stages and multiple layers in the axial direction to manufacture a more efficient generator. to be.

As the stator 1 of the present invention can be configured as described above can be used in various generators,

The coil 2 is wound so that the entire shape of the stator 1 may be formed in a ring shape, and the inside and the outside of the coil 2 are wound in a hemispherical shape so that the cross-sectional shape is wound in a peanut shape, thereby winding the coil in a limited space. The diameter of (2) can be increased, and the number of turns increases, so that the volume density of the coil (2) winding can be made high.

Therefore, when the stator 1 of the present invention is used, the resistance can be reduced and the efficiency of the generator can be maximized, and the electric loss due to iron loss and cogging torque generated by using the core and the heat generated by this result in permanent magnet potatoes and mechanical life. This shortening can be improved.

In addition, the generator using the stator (1) of the present invention is excellent in assemblability when manufacturing, can be reduced in weight, durability and sealability can be improved.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be.

Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

The present invention can be applied to a variety of generators and motors, and can provide a number of effects, such as improved efficiency, it can be widely used in the industry.

1: stator 2: coil 3: (heat resistant) resin
10: (inner rotor type) generator 11: shaft 12: upper cover 13: lower cover 14: bearing 15: step 16, 17: (upper and lower) permanent magnet supporter 18, 19: coupling hole 20: wrench bolt 21: space-pin 22: wrench bolt 23, 24: permanent magnet 25: wrench bolt 26: stator supporter
30: (out rotor type) generator 31: shaft 31a: hollow part 32: upper cover 33: lower cover 34: bearing 35: step 36,37: (upper and lower) back plate 38, 39: permanent magnet 40: wrench groove plate Bolt 41: Wrench Bolt

Claims (4)

The entire wound shape of the stator coils used in the generator is made in a ring shape,
Stator, characterized in that the cross-sectional shape is wound in a peanut (peanut) shape so that the inside and the outside of the coil to be wound in a hemispherical shape.
A shaft rotatably mounted by a bearing in the upper cover and the lower cover center;
Permanent magnet supporter that is assembled to the upper and lower step formed on the shaft,
A plurality of spacer pins interposed between the upper and lower permanent magnet supporters to couple the wrench bolts to fix the shaft and the upper and lower permanent magnet supporters with a plurality of wrench bolts;
Permanent magnets fixed to the vertical permanent magnet supporter to face each other up and down,
A stator fixed between the upper and lower permanent magnets with a stator supporter;
The stator has a coil of the whole winding shape is made of a ring shape, the generator is characterized in that the cross-sectional shape is wound in a peanut shape by winding the inside and the outside of the wound coil in a hemispherical shape.
The method of claim 2;
And a plurality of coupling holes formed in the shaft step and the wrench bolts are screwed through the plurality of coupling holes formed in the permanent magnet supporter.
An upper cover and a lower cover rotatably mounted on a shaft having a hollow part by a bearing and fixed up and down with a plurality of wrench bolts;
A stator fixed to a step formed in the shaft;
The stator is formed in a ring shape of the entire wound shape of the coil, the inside and the outside of the coil is wound in a hemispherical shape so that the cross-sectional shape is wound in a peanut shape,
And a permanent magnet fixed to the upper and lower backplates and the permanent magnet fixed to the upper and lower portions of the upper cover and the lower cover positioned above and below the stator by a wrench groove plate head bolt.

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