KR19990039148U - Housing for motor - Google Patents

Abstract

The present invention is to provide a housing for the motor that can be easily pressed and seated in the mounting portion of the housing as well as to improve the motor noise and internal pressure (short) generation.

To this end, the present invention is a housing for a motor having a seating portion 41 into which the stator 10 is press-fitted, and the machining process is performed such that the seating portion 41 is press-fitted with a gap when the stator 10 is press-fitted. The contact surface 43 having an interference fit tolerance with the stator 10 so as to firmly fix the surface 42, the stator 10 on the lower surface of the machined surface 42, and the contact surface by press-fitting the stator 10. It is made of a receiving groove 44 recessed and formed in the outer circumferential direction of the housing (H) on the end surface of the contact surface 43 to accommodate the chip 70 generated in (43).

Description

Housing for motor

The present invention relates to a housing for a motor, and more particularly, to a housing for a motor that enables the stator to be easily press-fitted to a seating portion of the housing as well as to improve motor noise and internal pressure (short) generation.

In general, a motor is a kind of electric motor that is installed in a device (refrigerator, washing machine, air conditioner, etc.) that needs to be driven to convert electrical energy into mechanical energy and transmit power to other actuators through rotation of a rotating shaft. According to the operating power source is divided into direct current, alternating current motor, and take the configuration of sealed or open with the outside according to the use place of the direct current or alternating current motor.

Conventional motor as described above is a cylindrical stator (Stator; 10) for generating a magnetic force by applying the power of the power supply device, and the rotational movement by the magnetic field of the stator 10 is interpolated into the inner side of the stator (10) Electron (Rotor) 20, the rotary shaft 30 is pressed into the center of the rotor 20 and rotates in accordance with the rotation of the rotor 20, and the rotary shaft 30 while being located on both sides of the rotary shaft 30 ) And a pair of bearings (60, 61) inserted into the rotating shaft 30 and the stator 10, the rotor 20, the rotating shaft 30, etc. to be smoothly rotated so as to be shielded from the outside. It consists of a housing (H).

At this time, the housing (H) is divided into two parts of the upper and lower housings (40, 50) forming a cylindrical shape so as to surround the outside of the stator (10), the upper and lower housings (40, 50) The stator 10 is provided to be coupled to each other while facing each other with the stator 10 therebetween.

The stator 10 is formed by stacking a plurality of iron cores, and a coil 11 is wound several times on the stacked iron cores.

The rotor 20 is formed by stacking a plurality of iron cores, and the rotary shaft 30 is press-fitted through the center thereof, and magnets are magnetized to be alternately magnetized to N and S poles on the outer circumferential surface thereof.

The operation of the motor configured as described above is briefly described as follows.

First, when a current is applied to the coil 11 wound on the stator 10 through a lead wire (not shown), a magnetic force directed in one direction to the stator 10 is generated and inserted into the center of the stator 10. The magnetic force of the stator 10 and the forward or opposite direction of the magnetic force of the stator 10 is generated in the rotor 20 to generate a rotational force that rotates in one direction by the attraction force and the repulsive force between the magnetic forces.

In addition, the rotating shaft 30 penetrated in the axial direction in the center of the rotor 20 in accordance with the rotation of the rotor 20 is rotated in conjunction with the other actuator connected to the rotary shaft 30 (not shown) Is rotated sequentially by receiving the rotational force of the rotary shaft 30, the power transmission is to be made.

Meanwhile, as shown in FIG. 2, the upper and lower housings 40 and 50 are provided with seating portions 41 for pressing and seating the stator 10, respectively, and the seating portions 41. The stator 10 is pressed in to be firmly fixed.

In this case, the seating portion 41 is formed to face the upper and lower housings 40 and 50 by a length enough for the stator 10 to be press-fitted and seated.

That is, the upper and lower housings 40, 50 are formed stepped from the respective open ends to the rear end so that the radius of the seating portion 41 is larger than the radius of the entire housing.

In addition, the seating portion 41 is processed to have a smooth surface as well as to have an interference fit gap between the stator 10 so as to be fitted when the stator 10 is pressed.

However, as described above, in order to secure the stator 10 to the seating part 41 of the housing H, the fitting tolerance between the stator 10 and the seating part 41 is minimized and forcedly press-fitted. The friction caused by the indentation is generated throughout the seating portion 41, the press-fitting is not easy, of course, even if the stator 10 is pressed, the stator 10 is pushed while the seating portion 41 is pressed in the chip (Chip) The generated chip is attached to the coil 11 wound around the stator 10 during operation of the motor while remaining between the seating part 41 and the stator 10 because there is no separate removal means. Not only does it generate a short, but it also causes a noise.

Therefore, an object of the present invention is to be devised to solve the above problems, to deform the mounting portion of the housing so that the stator can be easily press-fitted, of course, occurs when the stator indentation in the mounting portion as described above To accommodate the chip in a separate space to provide a housing for the motor that can improve the motor noise and withstand pressure generation.

The present invention for achieving the above object is, in the housing for a motor provided with a seating portion in which the stator is press-fitted, the processing surface is processed to be press-fitted with a gap during the stator indentation, and the It consists of a contact surface having an interference tolerance with the stator to firmly fix the stator on the lower side, and a receiving groove recessed and formed in the outer circumferential direction of the housing at the end surface of the contact surface to accommodate the chip generated in the contact surface by the stator indentation It features.

1 is a longitudinal sectional view of a motor showing a state in which a stator is pressed into a seating portion of a conventional housing;

2 is an enlarged cross-sectional view illustrating an enlarged portion A of FIG. 1;

Figure 3 is a longitudinal sectional view of the motor showing a state in which the stator is pressed into the seating portion of the housing according to the present invention,

4 is an enlarged cross-sectional view of portion B of FIG. 3 according to the present invention.

Explanation of symbols on the main parts of the drawings

10; Stator 11; coil

20; Rotor 30; Axis of rotation

40,50; Upper and lower housing 41; Seating part

42; Machining surface 43; Contact surface

44; Receiving groove 60,61; bearing

70; chip

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

Figure 3 is a longitudinal cross-sectional view of the motor showing a state in which the stator is pressed into the seating portion of the housing according to the present invention, Figure 4 is an enlarged cross-sectional view B portion of Figure 3 according to the present invention.

At this time, while the same reference numerals are indicated on the same parts as in the prior art, detailed description thereof will be omitted.

As shown in the drawing, the motor has a stator 10 wound around a plurality of iron cores with an external power source and generates a magnetic field according to the energization of the external power source, and an inner space formed by the stator 10. The rotor 20 and a coil capable of forming a plurality of magnets or magnetic fields are wound around the outer circumference of the cylindrical shape to be inserted into the rotor 20 and the center of the rotor 20 to rotate under the magnetic force of the stator 10 Composed in the housing (H) is coupled to the rotating shaft 30 is connected to the other actuator and the upper and lower housings (40, 50) to surround the outside of the stator 10, the rotor 20 have.

Here, the housing (H) is formed with a seating portion 41 to which the stator 10 is pressed and seated, and the seating portion 41 is processed to be press-fitted with a gap when the stator 10 is press-fitted. The working surface 42, the contact surface 43 contacting the stator 10 to firmly fix the stator 10 on the lower surface of the processing surface 42, and the contact surface 43 by press-fitting the stator 10. It consists of a receiving groove 44 recessed and formed in the outer circumferential direction of the housing (H) on the end surface of the contact surface 43 to accommodate the chip 70 generated in the.

At this time, the processing surface 42 is stepped with the contact surface 43 by about 0.5 to 1 mm so that the radius of the processing surface 42 is formed larger than the radius of the contact surface 43.

The contact surface 43 has an interference fit tolerance when the stator 10 is press-fitted while maintaining the radius of the conventional mounting portion 41 as it is.

As the contact area between the contact surface 43 and the stator 10 is smaller than the contact area when the stator is press-fitted into the conventional seating part 41, the generation of the chip 70 is reduced, and the pressing force is lower than that of the prior art. Even if it is small, press-fitting is possible.

Next, look at the indentation process of the stator 10 in the present invention configured as described above are as follows.

That is, the stator 10 is press-fitted in the state in which the seating portion 41 formed of the machining surface 42, the contact surface 43, and the receiving groove 44 is processed in the upper and lower housings 40 and 50, respectively. In this case, the stator 10 is easily press-fitted without surface contact due to large fitting tolerances on the machining surface 42, and forcedly press-fitted as it is processed to have an interference fit tolerance on the contacting surface 43.

At this time, when the stator 10 is inserted into the contact surface 43 by cutting the contact surface 43 while a small amount of chips 70 are generated, the chips 70 are receiving grooves formed under the contact surface 43. Will be accepted at (44).

Therefore, in the conventional motor, when the motor 70 operates in contact with the coil 11 wound on the stator 10 to generate an internal pressure (short), the chip 70 is accommodated in the receiving groove 44. Accordingly, the contact with the coil 11 is blocked to prevent the breakdown voltage. In addition, there is also an advantage that the press-fit process is reduced since the portion in which the stator 10 is clamped is reduced than before.

As described above, according to the housing for a motor of the present invention, the seating portion of the housing in which the stator is press-fitted and seated has a processing surface press-fitted with a predetermined gap when the stator is press-fitted, a contact surface for contacting the stator to fix the stator, and the contact surface by stator press-fitting. Since the stator is formed as a receiving groove for accommodating the chip, the stator is easily press-fitted and seated on the seating part of the housing, and the motor noise and the internal pressure (short) can be improved.

Claims (1)

In the housing for the motor provided with a seating portion to which the stator is press-fitted, The seating part is machined to be press-fitted with a gap during the press-fitting of the stator, a contact surface having a stator and an interference fit tolerance to firmly fix the stator on the lower side of the machined surface, and the stator press-fitting generated at the contact surface A housing for a motor, comprising an accommodation groove recessed and formed in the outer circumferential direction of the housing on an end surface of the contact surface to accommodate the chip.