KR200200425Y1 - A fixing construction of rotation shaft - Google Patents

Abstract

The present invention relates to a fixed structure of the rotating shaft, in the rotating shaft which is supported by the bearing, by installing a nut ring at a predetermined position having a predetermined interval of the rotating shaft to prevent the flow of the bearing, the conventional annular groove The process can be simplified by replacing the cumbersome process of inserting a fixed member such as a separate ring by cutting on the rotating shaft with a simple knurling process. You can get the effect.

Description

{A fixing construction of rotation shaft}

The present invention relates to a rotating shaft fixing structure, in particular to knurling the site where the bearing on the motor shaft is inserted so that the bearing can be simply fixed to the rotating shaft.

In general, a motor used as a driving source in various home appliances, etc. According to the characteristics, various proposed motors are selectively used, such as a brush motor using a brush and a brushless DC motor without a brush.

Such a conventional motor has a stator with an amateur coil wound inside a separate casing, a rotor having a predetermined gap inside the stator, and a rotor which rotates by generating an induced current in response to the application of power. And a rotating shaft moistened by a bearing.

Hereinafter, a conventional rotating shaft fixing structure will be described with reference to the accompanying drawings.

1 is a configuration diagram of a conventional general motor rotation shaft, Figure 2 is a state diagram in which a bearing is coupled to a conventional rotation shaft.

The rotating shaft 1 of the motor is usually composed of a rod, and the bearing portion 3 into which each bearing 2 is inserted is formed at one side and the other side with a predetermined interval.

On one side of the bearing portion 3 is formed an annular groove 5 into which an E-ring 4 is inserted to prevent the flow of each bearing 2.

In the conventional rotating shaft fixing structure having such a configuration, the rotor 6 formed of a plurality of cores is pressed into and fixed to the rotating shaft 1, and then each bearing 2 is inserted into one side and the other side thereof, and the annular groove ( 5) is assembled by fixing each of the two rings (4).

However, a complicated assembly process is required in which the bearing 2 is fitted to the rotating shaft 1 and the ring 4 is fixed to the annular groove 5, thereby increasing the number of parts. As a result, the product's cost rises.

In addition, as shown in Korean Patent Application Publication No. 99-12775 issued to solve such a complicated manufacturing process and an increase in the number of parts, an O-ring and a C-ring are fitted to one side of the rotating shaft. In some cases, a groove is formed, and on the other side, a supporting part is integrally formed on the rotating shaft by a forming process to support a predetermined interval by a bush.

However, this also requires a complicated machining process to form a support part by forming process on one side of the rotary shaft, and the cost increase and assembly process of the increase in the number of parts and the hassle that needs to be fixed by inserting an earring or a seed ring, etc. There was a difficulty in solving the problem causing the complexity.

The present invention has been made in order to solve the conventional problems as described above, its purpose is to simplify the manufacturing process by simply combining and fixing the bearing on the rotating shaft by performing a simple knurling process only at the bearing fixing position on the rotating shaft. And a rotating shaft fixing structure for reducing manufacturing costs.

1 is a configuration diagram of a conventional general motor rotation shaft

2 is a state in which a bearing is coupled to a conventional rotating shaft

3 is a configuration diagram of a rotating shaft of the present invention

4 is a state in which the bearing is coupled to the rotating shaft of the present invention

Description of the main parts of the drawing

1: rotation axis 3: bearing part

5: groove 50: kneading part

In order to achieve this object, the present invention, in the rotary shaft bearing by the bearing, prevents the flow of the bearing at a predetermined position having a predetermined interval of the rotary shaft It formed a knurling part to prevent.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a configuration diagram of a rotating shaft of the present invention, Figure 4 is a state diagram in which a bearing is coupled to the rotating shaft of the present invention, the same parts and members as in the prior art will be described using the same reference numerals.

Rotating shaft 1 of the motor is made of a rod body in the same manner as in the prior art, on one side and the other side is formed a bearing portion (3) is inserted into each bearing (2) at a position having a predetermined interval, the bearing portion (3) On one side of the knurling portion 50 is formed, respectively.

Each of the knurling parts 50 is formed with a projection 51 having a diameter somewhat larger than the diameter of the rotation shaft (1).

In addition, the size of the inner diameter of the rotor (6) is preferably formed somewhat larger than the size of the outer diameter of the nuling portion (50).

The operation and effects of the present invention having the above configuration will be described in detail.

First, by using a separate knurling machine, each of the knurling parts 50 formed on the rotary shaft 1 is processed to have a rotary shaft by forming a nuling so that a protrusion 51 somewhat larger in diameter than the diameter of the rotary shaft 1 is formed. Complete 1).

The rotating shaft (1) is composed of a plurality of cores, the rotor 6 having an inner diameter somewhat larger than the diameter of the rotating shaft (1) is inserted between each of the knurling portion (50) by rotating the shaft ( Fix to be integrated with 1).

Each bearing 2 is placed on the rotating shaft 1 to which the rotor 6 is fixed. Inserted from the short side, but is pressed in the form of interference fit until one side of the bearing (2) is in contact with the projection formed on the nuling portion (50).

As such, the bearing 2 press-fitted to the rotary shaft 1 is prevented from flowing by the protrusion 51 of the nuling portion 50, and is firmly fixed to the rotary shaft 1.

That is, since the inner diameter of the bearing 2 and the inner diameter of the rotary shaft 1 have almost the same size and are press-fitted, the outer diameter of the protrusion 51 formed on the nuring portion 50 is the outer diameter of the rotary shaft 1. Since it is larger, the flow of the bearing 2 pressed into the rotating shaft 1 is prevented.

As described above, the rotating shaft of the present invention can simplify the process by replacing the cumbersome process of inserting a fixed member such as a separate ring by cutting the conventional annular groove on the rotating shaft with a simple kneading process. Simplification of parts due to the fixing of bearings and bearings can reduce the manufacturing cost.

In addition, the nuling portion of the present invention is not limited to the fixing of the bearing, and other parts, for example, the parts that are fixedly coupled on the motor shaft, can be expected to be easily fixed by forming a nuling protrusion by such a nuling method. It can be obvious.

Claims (1)

In a rotating shaft moistened by a bearing, Rotating shaft fixed structure characterized in that the bearing is prevented from flowing by installing a nutring portion at a predetermined position to have a predetermined interval on the rotating shaft