KR101005013B1 - Rotor bracket for outer rotor type motor - Google Patents

Abstract

The present invention relates to a rotor bracket fixing structure of an outer rotor type motor, so that the rotational force of the rotor bracket and the rotating shaft can be directly transmitted only by a single fastening force by effectively tightening the rotor bracket and the rotor bushing that mediates the rotation shaft of the outer rotor. Through holes are formed in the outer circumferential surface of the bending opening formed in the rotor bracket so that the rotating shaft passes therethrough; In the rotor bushing fastened on the upper surface of the rotor bracket, the position of the through hole is formed in such a manner that the fixing protrusion and the fixing hole are alternated; A lower surface of the rotor bracket is provided with a fastening spacer having a fastening protrusion and a fastening hole formed at a position to be engaged with the fastening protrusion and the fastening hole; The fastening spacer provides a rotor bracket fixing structure of the outer rotor type motor which is fastened in a manner of being in direct contact with the fastening bolt of the rotating shaft, so that the rotating shaft, the rotor bushing, and the rotor bracket are organically coupled to each other without using a separate fastening means. It can be reduced, the labor and the productivity is improved.

Motor, Rotor Bracket, Spacer, Bushing

Description

Rotor bracket fixing structure of outer rotor type motor {ROTOR BRACKET FOR OUTER ROTOR TYPE MOTOR}

1 is a perspective view of a conventional rotor bracket.

2 is a cross-sectional view of the coupled state of FIG.

3 is a cross-sectional view of the rotor bracket according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: axis of rotation 12: bearing housing

20: rotor bracket 22: opening

23: fastening protrusions 24: through holes

27: fastener 30: rotor bushing

33: fixing hole 37: fixing protrusion

The present invention relates to a rotor bracket fixing structure of an outer rotor type motor, and more particularly, by improving a medium connecting the rotor bracket and the rotating shaft in which the rotating force is generated in the outer rotor type motor, so that the rotor bracket is directly coupled to the rotating shaft. The present invention relates to a rotor bracket fixing structure of an outer rotor type motor which is fixed to improve fastening force and reduce fastening parts.

Among the various motor starting methods, induction electromotive motors which are synchronized by induction electromotive force are a kind of rotational magnetic motor, which is a kind of AC motor in which rotational force is generated by interaction between the rotating magnetic field generated in the stator and the induction magnetic field generated in the rotor. .

It can be variously designed as single phase, three phase induction motor, three phase winding type induction motor, etc., and is one of the most easy-to-use motors among AC motors.

Such induction electric motors are suitable as power motors due to the characteristics of rotational speed and long lifespan according to the load, and among the small ones, single phase condenser motors are most widely used.

In the basic configuration of the induction electric motor as described above, the induction magnet generated from the stator is supported by a rotating shaft supported by the housing and a stator that is fixed to the housing and receives power from the outside through a coil wound to generate the induction magnet, and a bearing installed in the housing. It is provided with a rotor that rotates with the rotary shaft coupled by.

Such an induction electric motor is a current induced in the secondary winding by the electromagnetic induction of the primary winding connected to the power source, and obtains the rotational force by the interaction of the current and the rotating magnetic field induced in the secondary winding, the stator and the rotor It is divided into inner rotor type and outer rotor type according to the relative position.

Among the motor types described above, an outer rotor type induction motor has recently been utilized in which a rotor is provided outside the stator to increase torque in the same volume and utilize the internal space of the stator for other purposes.

The outer rotor type induction motor has a characteristic that a rotor composed of a drive shaft, a magnet, a rotor case, and the like rotates outside the stator composed of an iron core, a core, a base, and a bearing, that is, the rotor rotates around the stator.

The rotor of such an outer rotor type induction motor is shown in FIG. 1.

The rotor shown in FIG. 1 is a rotor bracket 1 made of steel, which is pressed to form an exterior of a motor, a laminated iron core 2a and a laminated iron core which are punched into the inner circumferential surface of the rotor bracket 1 and forcibly pressed in. Rotor core (2) consisting of a ring-shaped ending member (2b) provided on the upper and lower surfaces of (2a), respectively, and a rotor bushing (3) for coupling the rotor bracket (1) and a rotating shaft (not shown) Is done.

As such, the rotating rotor bracket 1 is used with the rotor bushing 3 to transmit the rotational force to the axis of rotation, the combination of the rotor bracket 1 and the rotor bushing 3 being shown in FIG. 2.

In FIG. 2, the rotor bushing 3 is fastened by a bolt 6 below after being laid out on the rotary shaft 4, and when the rotor bushing 3 is fastened, a fixing protrusion 7 formed on its outer circumferential surface or a separate The bolts 8 are fastened to each other in such a manner as to be coupled to the rotor bracket 1.

However, in the above fastening manner, since the rotating shaft 4 is fixed only to the rotor bushing 3 and fastened to the rotor bracket 1 through the rotor bushing 3 where direct rotational force is generated, the main fastening force is The bolts 6 generated are simply not fastened by simply fastening the bushing 3 only to the rotational shaft 4. Particularly, since the rotor bushing 3 requires a separate bolt 8, a part is added in the process and the machining labor is required. Increased.

The present invention has been invented in view of the above problems, and an object of the present invention is to effectively transmit the rotational force of the rotor bracket and the rotating shaft by a single fastening force by effectively tightening the rotor bracket and the rotor bushing mediating the rotation shaft of the outer rotor. It is to provide a rotor bracket fixing structure of the outer rotor type motor.

In order to achieve the above object, the present invention, an outer rotor type motor consisting of a rotating shaft that is arranged in the bearing housing, a rotor bracket for generating a rotational force on the rotating shaft, and a rotor bushing that is intermediated to interlock the rotor bracket and the rotating shaft. A through hole is formed in the outer circumferential surface of the bending opening formed in the rotor bracket so that the rotating shaft passes therethrough; In the rotor bushing fastened on the upper surface of the rotor bracket, the position of the through hole is formed in such a manner that the fixing protrusion and the fixing hole are alternated; A lower surface of the rotor bracket is provided with a fastening spacer having a fastening protrusion and a fastening hole formed at a position to be engaged with the fastening protrusion and the fastening hole; The fastening spacer provides a rotor bracket fixing structure of the outer rotor type motor which is fastened in a direct contact with the fastening bolt of the rotating shaft.

The present invention uses the intermediate spacer so that in the outer rotor type motor, the rotor and the rotor bushing, which are used when the rotational force is generated, can be fixed to the rotor bracket using only the main fastening bolt 15. In addition to inhibiting the use of a separate bolt 15, there is a characteristic that the mutual coupling relationship between the rotating shaft and the rotor bracket and the rotor bushing is directly contacted and fastened.

An embodiment of the present invention having the above characteristics is shown in FIG. 3.

The outer rotor type motor of the present invention is generally used as a power source requiring a constant speed and high output rotational force, such as a washing machine, and is installed on a rotating shaft 10 extending downward of the main body when installed in a main body of a product such as a washing machine.

The rotating shaft 10 is mandrel supported by the bearing housing 12 below the main body, and the rotating shaft 10 has a fastening bolt 15 formed at an end thereof.

The rotary shaft 10 is fastened to the rotor in which the rotational force of the motor is generated by the fastening bolt 15, which will be described in more detail as follows.

The rotor and the rotor bracket 20 formed on the outer motor of the present invention are mediated by the rotor bushing 30 to be engaged with the rotation shaft 10.

The rotor bushing 30 has a serration 32 protruding from the center thereof and inserted into the rotating shaft 10 to transmit the rotational force of the rotor bracket to the rotating shaft 10, and the rotor bushing 30 is provided on the rotating shaft 10. After being inserted, they are fastened to each other using the fastening bolts 15.

When the fastening bolt 15 is fastened with the rotor bushing 30, the steel washer 42 of the rigid material and the reinforcing washer 44 of the elastic material are fastened.

Meanwhile, the rotor bracket 20 has an opening 22 formed at the center thereof so that the rotor bushing 30 and the rotating shaft 10 are coupled therethrough, and a plurality of fastening holes 24 are formed at the outer circumferential surface of the opening 22. ) Is formed in plural with a certain radius.                     

In addition, a rotor bushing 30 is fastened to an upper surface of the rotor bracket 20, and the fixing protrusion 33 is disposed at the same position as that of the through hole 24 of the rotor bracket 20. And fixing holes 37 are formed in an alternating manner while repeating with each other, and the fixing protrusions 37 are fitted into the through holes of the rotor bracket 20, and the fixing holes 37 are the through holes 24. It is in the same state as penetrated.

In addition, a fastening protrusion 23 and a fastening hole 27 are formed on a lower surface of the rotor bracket 20 at a position where the fixing protrusion 37 and the fixing hole 33 are formed on the rotor bushing 30. The fastening spacer 25 is interposed and fastened, and the fastening spacer 25 is for fastening in a manner of being in direct contact with the fastening bolt 15 of the rotating shaft 10.

More specifically, the fixing protrusion 37 of the rotor bushing 30 is fitted into the fastening hole 27 of the fastening spacer 25 after being fitted into the through hole 24 of the rotor bracket 20, The fixing hole 33 of the rotor bushing 30 is positioned coaxially with the through hole of the rotor bracket 20, and then the fastening protrusion 23 of the fastening spacer 25 connects the rotor bracket 20 and the rotor bushing 30. By fitting through, the fastening spacer 25 connects the rotor bracket 20 and the rotor bushing 30 simultaneously.

Thus, as the rotary shaft 10 and the rotor bushing 30 are fastened by the fastening bolt 15 fastened to the rotary shaft 10, the fastening force of the fastening bolt 15 is the steel washer 42 and the reinforcing washer 44. The fastening force of the fastening bolt 15 is fastened while pressing the fastening spacer 25 through the fastening of the rotary shaft 10 and the rotor bushing 30, and at the same time, the rotor bracket 20 and the rotor bushing 30 are fastened to each other. You can do it.                     

Meanwhile, the reinforcing washer 44 interposed in the fastening bolt 15 is preferably formed of a material having a predetermined elasticity, and the fastening spacer 25 is disposed between the reinforcing washer 44 and the rotor bushing 30. The bushing spacer 50 accommodated inside the opening can be provided.

As such, the present invention is inserted into the rotor bushing 30, the rotation shaft 10 is fixed to the fastening bolt 15 while the rotor bushing 30 and the rotor bracket 20 does not have a separate fastening means fastening spacer ( It is fastened to the rotary shaft 10 directly by 25).

By the rotor bracket fixing structure of the outer rotor type motor of the present invention, the rotating shaft, the rotor bushing and the rotor bracket can be organically combined with each other without using a separate fastening means, thereby reducing the number of machining operations and improving productivity. It works.

While the invention has been shown and described with respect to specific preferred embodiments thereof, the invention is not limited to the embodiments described above, and is commonly used in the art to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Anyone with knowledge will be able to make various variations.

Claims (2)

Rotor shaft 10 arranged in the bearing housing 12, the rotor bracket 20 for generating a rotational force on the rotation shaft 10, and the rotor is intermediated to fasten the rotor bracket 20 and the rotation shaft 10 In the outer rotor type motor composed of the bushing (30), The through hole 24 is formed on the outer circumferential surface of the opening 22 formed in the rotor bracket 20 so that the rotating shaft 10 penetrates. In the rotor bushing 30 fastened on the upper surface of the rotor bracket 20, the fixing protrusion 37 and the fixing hole 33 are formed at the position of the through hole 24 in an alternating manner. A lower surface of the rotor bracket 20 is interposed with a fastening spacer 25 in which a fastening protrusion 23 and a fastening hole 27 are formed at positions joined to the fixed protrusion 37 and the fixing hole 33. The fastening spacer 25 is fixed to the rotor bracket of the outer rotor type motor, characterized in that the fastening in a manner in direct contact with the fastening bolt 15 of the rotary shaft (10). The rotor bracket fixing structure of an outer rotor type motor according to claim 1, wherein the fastening spacer and the fastening bolt are fastened by interposing a reinforcing washer 44 of an elastic material.

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