KR102117786B1 - Fan motor - Google Patents

Abstract

An objective of the present invention is to provide a fan motor to prevent noise or vibration. According to the present invention, the fan motor (100) comprises: a stator assembly (10) having a core (11), an upper and a lower insulator (12a, 12b) installed on an upper and a lower portion of the core, and a bearing insertion hole (14) vertically formed through the center thereof; a bearing assembly (20) having a bearing (22) inserted into the bearing insertion hole (14) of the stator assembly (10) to be fixed; a fan assembly (30) including a rotor housing (32b) allowing a rotary shaft (31) to vertically penetrate the center thereof to be coupled, and a rotor (32) having a magnet (32a) installed on the inner circumferential surface of the rotor housing (32b); a third washer (25) which comes in surface contact with the upper surface of a second washer (24) fixed on the upper end of the bearing (22) and is coupled to the rotary shaft (31) to rotate with the rotary shaft (31); a spring (50) for movement prevention installed on the outer circumferential surface of an upper portion of the rotary shaft (31) and an upper portion of the third washer (25); and a coupling molding unit (33a) allowing the upper end of the rotary shaft (31) to be fixed thereon to be coupled.

Description

Fan motor {FAN MOTOR}

The present invention relates to a fan motor used for purposes such as blowing cold air from a refrigerator. More specifically, the present invention relates to a fan motor capable of reducing vibration or noise by minimizing flow in the axial direction, front, rear, and left and right directions of the rotating shaft.

In general, a fan motor with a fan is installed inside the refrigerator to blow cold air from the refrigerator. In the fan motor for cooling air, a motor capable of compacting in the radial direction and the axial direction in consideration of the installation space inside the refrigerator is provided. It is mainly used.

Korean Patent Publication No. 10-2008-0020138 discloses a conventional fan motor for blowing a cold air in which a fan and a motor are combined. In the conventional fan motor for cold air blowing, a shaft support portion is formed at the center and a core tooth end is exposed at an outer periphery, and a magnet is annularly attached to a rotating shaft supported by the shaft support portion to face the end of the core tooth. It consists of a motor provided with a rotor coupled to the case, and a fan with a hub coupled to the rotating shaft of the rotor. Here, the hub of the fan is coupled to the rotating shaft of the rotor by a method of injection or press-in. However, when the motor is rotated, the fan is shaken and the rotating shaft is detached from the hub of the fan.

Looking at the Republic of Korea Patent Registration No. 10-1074935 proposed to solve this problem, while the rotating shaft is inserted into the hub of the fan, the hub is wrapped with a spring and elastically pressurized to prevent the fan from escaping from the rotating shaft. Fan motors are provided.

In the prior art, in order to suppress the spring, the inside of the compression part must be formed in a hollow state, and accordingly, the upper part of the compression part into which the rotary shaft is inserted is opened, so that moisture contained in cold air may be infiltrated into the open space part of the compression part. It can cause corrosion of the rotating shaft and oilless bearing. In particular, the fan motor according to the prior art may flow in the up and down directions, the front and rear directions, which are the axial directions of the rotating shaft rotating with the rotor, and the fan due to the axial direction of the rotating shaft or the left, right and front and rear flows. The rotation may become somewhat unstable, and noise or vibration may occur.

The present invention has been devised to solve the above-described problems, and an object of the present invention is to provide a fan motor to prevent noise or vibration by minimizing the flow of the rotating shaft caused by the micro clearance between the outer peripheral surface of the bearing and the rotating shaft. will be.

Another object of the present invention is to provide a fan motor that can prevent the corrosion of the bearing by preventing the penetration of moisture contained in the cold air to the upper portion of the rotating shaft.

The above object and other intrinsic objects of the present invention can be easily achieved by the present invention described below.

The fan motor 100 according to the present invention

A core 11, upper and lower insulators 12a and 12b installed on the upper and lower portions of the core, and a stator assembly 10 formed with a bearing insertion hole 14 penetrated vertically in the center;

A bearing assembly 20 having a bearing 22 which is inserted into and fixed to the bearing insertion hole 14 of the stator assembly 10;

Fan assembly (30) including a rotor (32b) having a rotating shaft (31) penetrated vertically in the center and a rotor (32) having a magnet (32a) installed on the inner circumferential surface of the rotor housing (32b) ;

A third washer 25 which is interviewed on the upper surface of the second washer 24 fixed to the upper end of the bearing 22 and is rotated together with the rotating shaft 31;

A spring 50 for preventing flow provided on an outer circumferential surface of an upper portion of the third washer 25 and an upper portion of the rotating shaft 31; And

A coupling molding part 33a to which the upper end of the rotating shaft 31 is fixed and coupled;

It characterized in that it comprises a.

In the present invention, the coupling molding portion 33a is formed around the upper circumference of the rotor housing 32b, and a plurality of blades 33b may be formed integrally radially on the outer circumferential surface of the coupling molding portion 33a.

In the present invention, a stepped portion (33a ') is formed around the inner lower end portion of the coupling molding portion (33a), the upper end of the spring 50 for preventing flow is installed to be fitted around the stepped portion (33a'), , The upper end of the rotating shaft 31 is preferably coupled to the fitting hole (33a ") formed in the lower center of the stepped portion (33a ').

In the present invention, the spring 50 for preventing flow is a conical coil spring having a large upper inner diameter and a lower inner diameter, and the lower inner circumference of the spring 50 for preventing flow is coupled to the lower circumferential surface of the rotating shaft 31. The upper inner circumference may be provided to fit around the circumference of the stepped portion 33a '.

In the present invention, the third washer 25 coupled to the rotating shaft 31 on the upper surface of the second washer 24 is interviewed, and the upper surface of the third washer 25 is provided with a spring 50 for preventing flow. By interfacing the lower circumferential surface, a spring 50 for preventing flow is installed in the upper space portion S1 of the bearing housing 21 and the inner space portion S2 of the upper insulator 12a to receive the bearing 22. It is also good.

The fan motor according to the present invention has the advantage of preventing the corrosion of the bearing by preventing the penetration of moisture contained in the cold air to the upper portion of the rotating shaft.

In addition, the fan motor for blowing the cold air according to the present invention minimizes the flow in the up-down direction and the flow in the front-rear and left-right directions of the rotation shaft, which may be caused by the micro clearance between the outer circumferential surface of the bearing and the rotation axis when the fan rotates, thereby reducing noise or vibration. It has the advantage of preventing it.

1 is a perspective view showing a fan motor according to the present invention.
2 is an exploded perspective view showing a fan motor according to the present invention.
3 is an exploded perspective view showing a part of a fan motor according to the present invention.
4 is a cross-sectional view of a fan motor according to the present invention.
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a fan motor 100 according to the present invention, FIG. 2 is a perspective view showing an exploded fan motor 100 according to the present invention, and FIG. 3 is a part of the fan motor 100 according to the present invention Is an exploded perspective view, Figure 4 is a cross-sectional view of the fan motor 100 according to the present invention.

1 to 4 together, the fan motor 100 according to the present invention comprises a stator assembly 10, a bearing assembly 20 and a fan assembly 30. The stator assembly 10 is a configuration for constructing a motor together with the rotor 32 coupled to the rotating shaft 31 of the fan assembly 30, and is molded of a material such as a bulk molding compound (BMC) resin to form a watertight structure. Have

The stator assembly 10 is wound on a core 11, upper and lower insulators 12a, 12b coupled to upper and lower portions of the core 11, and teeth formed radially on upper and lower insulators 12a, 12b, respectively. It is made of a coil (not shown), including a circuit board 13 on which the stator assembly 10 is mounted, and molding (not shown) formed by insert injection covers all or part of the surface of the stator assembly 10. Wrapped and made integral with the stator assembly (10). Such molding is preferably injection-molded with BMC resin while inserting the assembly in which the core 11, upper and lower insulators 12a, 12b, coil, and circuit board 13 are assembled into an injection mold. The stator assembly 10 may be installed to be coupled to the seating portion 41 of the case 40.

The bearing assembly 20 is configured such that the rotating shaft 31 of the fan assembly 30 is rotatably supported. The bearing assembly 20 is formed in a cylindrical shape and is inserted into and coupled to the bearing insertion hole 14 of the stator assembly 10, and the bearing housing 21 inserted into the bearing housing 21 and the rotating shaft ( 31) is composed of a bearing 22 for insertion and rotational support, and a first washer 23 coupled to the lower end of the rotating shaft 31 to fix the bearing 22 from being detached from the bearing housing 21 do. The first washer 23 also serves to prevent the rotating shaft 31 from rising upward. The bearing 22 is preferably an oilless bearing.

The fan assembly 30 is composed of a rotor 32 rotated relative to the stator assembly 10 and a fan 33 coupled to the rotor 32 and rotated together. The rotor 32 may be an injection material or a magnetic body in which the magnet 32a is installed on the inner circumferential surface as shown in FIG. 4 to be rotated by the magnetic force generated in the stator assembly 10, and the rotor 32 as in FIG. 3 It can be made of magnet itself. The outer peripheral surface of the rotor 32 is coupled to the rotor housing 32b.

The rotating shaft 31 is rotatably coupled to the inner circumferential surface 22a of the bearing 22 of the bearing assembly 20. A fan 33 is coupled to the upper circumference of the rotor housing 32b, and the fan 33 is composed of a coupling molding part 33a and a blade 33b. A plurality of blades 33b are formed radially on the outer circumferential surface of the coupling molding part 33a that is coupled to the rotor housing 32b. A stepped portion 33a 'is formed around the inner central portion of the coupling molding portion 33a, and the upper end of the spring 50 for preventing flow, which will be described later, can be installed to fit around the stepped portion 33a'.

The upper end of the rotating shaft 31 is press-fitted into a fitting hole 33a "formed inside the stepped portion 33a 'of the coupling molding portion 33a, or fixed by molding by insert injection together with the coupling molding portion 33a By preventing the moisture contained in the cold air from penetrating into the upper end of the rotating shaft 31, it is possible to solve the problem caused by corrosion by installing a spring 50 for preventing flow around the upper portion of the rotating shaft 31, and bearing On the upper surface of the second washer 24 fixed to the upper end of the 22, the third washer 25 coupled with the rotating shaft 31 is interviewed, and the upper surface of the third washer 25 is provided with a spring 50 for preventing flow. The lower circumferential surface may be interviewed so that a spring 50 for preventing flow is installed in the upper space portion S1 of the bearing housing 21 and the inner space portion S2 of the upper insulator 12a.

The spring 50 for preventing flow is preferably a conical coil spring having a large upper inner diameter and a small lower inner diameter. The lower inner circumference of the spring 50 for preventing flow fits on the lower circumferential surface of the rotating shaft 31, and the lower part of the spring 50 for preventing flow is installed to contact the upper end of the third washer 25. The upper inner circumference of the spring 50 for preventing flow is installed to fit around the circumference of the stepped portion 33a '. Through such a structure, it is possible to minimize the flow by the elastic return force of the spring 50 for preventing flow with respect to the flow in the up-down direction, the front-rear direction and the left-right direction generated when the rotation shaft 31 rotates. In addition, since the spring 50 for preventing flow is installed in the inner space portion S2 of the upper insulator 12a by such a structure, the twisting of the spring 50 for preventing flow in response to the direction of flow along the rotation of the rotating shaft 31 Elastic return force is generated to minimize the flow of the fan assembly (30).

Due to the fine gap formed between the inner circumferential surface 22a of the bearing 22 of the bearing assembly 20 and the circumferential surface of the rotating shaft 31 inserted therein, the rotating shaft in the vertical direction of the rotating shaft 31 when rotating the rotating shaft 31 (31) may flow, but the upper portion of the spring 50 for preventing flow formed of a conical coil spring is fitted around the stepped portion 33a ', thereby supporting the load of the fan assembly 30 or imparting an elastic return force. This can minimize the flow in the vertical direction. In addition, when the rotating shaft 31 flows back and forth and to the left and right, torsion occurs, the elastic shaft 31 is provided with an elastic return force to the rotating shaft 31 in the opposite direction to which the rotating shaft 31 moves by twisting, and thus the front and rear and left and right sides of the rotating shaft 31 The fan assembly 30 is stably rotated by minimizing the flow. Therefore, noise and vibration can be suppressed.

When the rotating shaft 31 rotates, the separation of the bearing 22 is prevented by the second washer 24 fixed to the upper end of the bearing 22, as well as the rotating shaft 31 and the upper surface of the second washer 24. The third washer 25 and the rotating shaft 31 are rotated together while distributing the torsion or pressure generated when the spring 50 for preventing flow is operated by the combined third washer 25, so that the spring 50 for preventing flow is smoothly twisted and Elastic return force can be enhanced. At the same time, since the third washer 25 is rotated on the upper surface of the second washer 24, damage due to wear of the upper surface of the bearing 22 can be prevented.

It should be noted that the description of the present invention described above is merely an example for understanding the present invention, and is not intended to determine the scope of the present invention. The protection scope of the present invention is defined by the appended claims, and it should be understood that within this range, simple modifications or changes of the present invention are all within the scope of the present invention.

10: stator assembly 11: core
12a, 12b: upper and lower insulator 13: circuit board
14: bearing insertion hole
20: bearing assembly 21: bearing housing
22: bearing 23: first washer
24: second washer 25: third washer
30: fan assembly 31: rotating shaft
32: rotor 32a: magnet
32b: rotor housing 33: fan
33a: coupling molding portion 33a ': stepped portion
33a ": Insertion hole 33b: Blade
40: case
41: seating
50: spring for preventing flow
S1: upper space part S2: inner space part

Claims (5)

The core 11, the upper and lower insulators 12a and 12b installed on the upper and lower portions of the core, and the stator assembly 10 formed with the bearing insertion hole 14 penetrated vertically in the center;
A bearing assembly 20 having a bearing 22 which is inserted into and fixed to the bearing insertion hole 14 of the stator assembly 10;
Fan assembly (30) including a rotor (32b) having a rotating shaft (31) penetrated vertically in the center and a rotor (32) having a magnet (32a) installed on the inner circumferential surface of the rotor housing (32b) ;
A first washer 23 coupled to the lower portion of the bearing 22 and the rotating shaft 31 in order to fix the bearing 22 so as not to deviate from the bearing housing 21;
A third washer 25 which is interviewed on the upper surface of the second washer 24 fixed to the upper end of the bearing 22 and is rotated together with the rotating shaft 31;
A spring 50 for preventing flow provided on an outer circumferential surface of the upper portion of the third washer 25 and the upper portion of the rotating shaft 31; And
A coupling molding part 33a to which the upper end of the rotating shaft 31 is fixed and coupled;
Including,
The bearing 22 is an oilless bearing,
The third washer 25 coupled to the rotating shaft 31 is interviewed on the upper surface of the second washer 24, and the lower circumferential surface of the spring 50 for preventing flow is formed on the upper surface of the third washer 25. Spring 50 for preventing flow is installed in the upper space portion S1 of the bearing housing 21 and the inner space portion S2 of the upper insulator 12a,
The flow prevention spring 50 is a conical coil spring having a large upper inner diameter and a lower inner diameter, and a lower inner circumference of the spring 50 for preventing flow is coupled to a lower circumferential surface of the rotating shaft 31, and an upper inner The circumference is installed to fit around the circumference of the stepped portion 33a ',
The lower part of the flow prevention spring 50 is a fan motor, characterized in that installed in contact with the upper end of the third washer 25. According to claim 1, wherein the coupling molding portion (33a) is formed around the upper circumference of the rotor housing (32b), a plurality of blades (33b) radially formed integrally on the outer circumferential surface of the coupling molding portion (33a) Fan motor, characterized in that. According to claim 1, A stepped portion (33a ') is formed around the inner lower end of the coupling molding portion (33a), the upper end of the spring 50 for preventing flow is fitted around the stepped portion (33a'). Installed, the upper end of the rotating shaft 31 is a fan motor, characterized in that coupled to the fitting hole (33a ") formed in the lower center of the stepped portion (33a '). delete delete

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