KR102041050B1 - Fan motor having parts-integrated rotor - Google Patents

Abstract

According to the present invention, a fan motor of a structure capable of reducing the number of parts and preventing dusts from entering into a motor comprises: an integral rotor (10) composed of a circular upper plate part (11), a side wall part (12) extending downward from the outer circumference of the upper plate part (11), and a rotor magnet part (13) as a portion opposite to a stator assembly (20) at the bottom of the side wall part (11), wherein a shaft insertion part (11B) having a shaft (50) inserted thereinto is formed in the center of the upper plate part (11); a stator assembly (20) comprising a stator core (21), an upper insulator (22) and a lower insulator (23) coupled to the upper part and the lower part of the stator core (21), respectively, a printed circuit board (24) controlling a motor by applying power, and a lead wire (25); a motor base (30) composed of a bottom part (31) and a wall part (31A) protruding upward along the outer periphery of the bottom part (31), wherein a bearing holder (33) protruding upward is formed in the center of the bottom part (31), the outer periphery surface of the bearing holder (33) is pressed into the central portion of the stator core (21) to be coupled, and a bearing (34) is coupled to the inner periphery surface of the bearing holder (33); and a bracket (40) having a motor seating part (41) for the motor base (30) to be seated and coupled.

Description

Fan motor with integrated rotor {FAN MOTOR HAVING PARTS-INTEGRATED ROTOR}

The present invention relates to a fan motor. More specifically, the present invention relates to a fan motor having an integrated rotor having a structure capable of reducing the number of parts of the rotor and effectively preventing dust from flowing into the motor.

Generally, a fan motor refers to a motor used for circulation of air or forced blowing. The fan motor includes a stator, which is a stator, and a rotor, which is a rotor, like a general motor. These fan motors are classified into two types: an outer rotor type in which the rotor is located outside the stator, and an inner rotor type in which the rotor is rotated inside the stator.

Korean Unexamined Patent Publication No. 10-2010-0039163 discloses an inner rotor fan motor. Inner rotor type fan motor has the advantage that the stator and the rotor can be located inside the upper and lower brackets, which is advantageous to protect the motor parts from external moisture intrusion, but the number of parts increases.

Korean Patent Publication No. 10-1622020 discloses an outer rotor fan motor. The outer rotor fan motor is easy to assemble and reduces the number of parts, but the process of attaching the rotor magnet in the rotor housing is added, and dust in the air flows into the space between the rotor and the motor housing to improve the performance of the motor. There is a problem of degradation or failure.

In order to solve the above-mentioned problems, the present inventors have a fan motor having a new structure for preventing dust from entering the space inside the motor while integrating the rotor housing and the rotor magnet into one component in the outer rotor type fan motor. I would like to propose.

An object of the present invention is to provide a fan motor that can reduce the number of parts by integrating the rotor housing and the rotor magnet into one component.

Another object of the present invention is to provide a fan motor having a structure capable of preventing dust from flowing into the motor.

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

The fan motor according to the present invention

A circular upper plate portion 11, a side wall portion 12 extending downward from the outer circumference of the upper plate portion 11, and a rotor magnet portion that is a portion of the lower side wall portion 11 that is opposed to the stator assembly 20. 13, and an integrated rotor (10) having a shaft insertion portion (11B) in which a shaft (50) is inserted in the center of the upper plate portion (11);

A stator core 21, an upper insulator 22 and a lower insulator 23 coupled to upper and lower portions of the stator core 21, and a printed circuit board 24 and leads for controlling a motor by applying power. A stator assembly 20 comprising a wire 25;

A bottom portion 31 and a wall portion 31A protruding upward along the outer circumference of the bottom portion 31, and a bearing holder 33 protruding upwardly is formed in the center of the bottom portion 31. The outer circumferential surface of the bearing holder 33 is press-fitted to a central portion of the stator core 21, and a motor base 30 to which the bearing 34 is coupled to the inner circumferential surface;

A bracket having a motor seating portion 41 to which the motor base 30 is seated and coupled;

Characterized in that it comprises a.

In the present invention, the integrated rotor 10 may further include a lower protrusion 14 protruding downward from the rotor magnet portion 13.

In the present invention, the lower end of the lower protrusion 14 preferably extends further below the height of the upper end of the wall portion 31A of the motor base 30.

In the present invention, the thickness of the rotor magnet portion 13 in the radial direction is preferably larger than the thickness of the side wall portion 12.

In the present invention, the first wire drawing groove 31B, through which the lead wire 25 is guided, is formed on the wall portion 31A,

A second wire drawing groove 43 located in the same radial direction as the first wire drawing groove 31B is formed below the bracket 40,

The lead wire 25 is guided through the upper portion of the first wire drawing groove 31B and the second wire drawing groove 43 to the lower portion of the bracket 40 so that the outside of the bracket 40 in the radial direction. It may be configured to be drawn out.

The present invention has the effect of providing a fan motor having a structure capable of reducing the number of parts and preventing dust from flowing into the motor.

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 a cross-sectional view of a fan motor according to the present invention.
4 is a cross-sectional view showing an integrated rotor 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, Figure 2 is a perspective view showing an exploded view of the fan motor 100 according to the present invention, Figure 3 is a cross-sectional view of the fan motor 100 according to the present invention. to be. 1 to 3 together, the fan motor 100 according to the present invention is an integrated rotor 10, stator assembly 20, motor base 30, bracket 40, shaft 50, fan ( 60).

The integrated rotor 10 rotates with the shaft 50 in combination with the shaft 50. The stator assembly 20 is located inside the integrated rotor 10. When power is applied to the stator assembly 20, the integrated rotor 10 rotates under the influence of the magnetic field formed around the stator assembly 20. Thus, the integral rotor 10 is made of a magnetic material wholly or partially magnetized. Detailed configuration of the integrated rotor 10 will be described again below.

As shown in FIG. 2, the stator assembly 20 applies power to the stator core 21, the upper insulator 22 and the lower insulator 23, and the stator, which are coupled to the upper and lower portions of the stator core 21, respectively. It includes a printed circuit board 24 and a lead wire 25 for controlling. When power is applied to the stator assembly 20, the integrated rotor 10 positioned surrounding the stator assembly 20 rotates, and the shaft 50 coupled with the integrated rotor 10 rotates together. The lower portion of the lower insulator 23 is coupled to the printed circuit board 24. The stator assembly 20 is fixed to the motor base 30 and installed.

The motor base 30 includes a bottom portion 31, a wall portion 31A formed to protrude upward along the outer circumference of the bottom portion 31, and a first wire drawing groove in which the lead wire 25 is guided to the upper portion of the wall portion. It consists of 31B. On the outer circumference of the wall portion 31A, a plurality of coupling holes 32 penetrate through the radially protruding portion. In the central portion of the motor base 30, a bearing holder 33 protruding upward from the bottom portion 31 is formed. The outer circumferential surface of the bearing holder 33 is press-fitted to the central portion of the stator assembly 20, and the bearing 34 is coupled to the inner circumferential surface. The shaft 34 is rotatably coupled to the bearing 34. As shown in FIG. 3, the printed circuit board 24 is installed in a space between the bottom portion 31 and the wall portion 31A of the motor base 31.

The bracket 40 has a motor seat 41 to which the motor base 30 is seated and coupled. A plurality of coupling holes 42 protrude upward along the outer circumferential portion of the motor seating portion 41. The coupling base 42 is coupled to the coupling hole 32 of the motor base 30 so that the motor base 30 is coupled to and fixed to the bracket 40. The number of the coupler 42 and the coupling hole 32 is three, but is shown in Figure 2, but is not necessarily limited to this, it can be applied to two or more according to the design needs.

A second wire drawing groove 43 is formed at the bottom of the bracket 40. The second wire drawing groove 43 is located in the same radial direction as the first wire drawing groove 31B of the motor base 30. The lead wire 25 is guided to the upper portion of the first wire drawing groove 31B and the lower portion of the bracket 40 to be drawn out of the radial direction of the bracket 40 through the second wire drawing groove 43. Therefore, the lead wire 25 is positioned between the first wire drawing groove 31B and the bracket 40 by being applied with a slight pressure, and then passes through the second wire drawing groove 43, so that the lead wire 25 Tight fixation of) can be ensured.

The fan 60 is coupled to the top of the shaft 50 to rotate with the shaft 50. The upper end of the shaft 50 penetrates to the center of the fan 60, and the upper end of the shaft 50 is fixed to the coupling protrusion 61 formed to protrude upward from the center of the fan 60. The fixing of the shaft 50 and the fan 60 forms a longitudinal gap 61A, which is a radially and axially cut portion of the coupling protrusion 61, and the coupling spring 62 is formed on the outer circumferential surface of the coupling protrusion 61. By pressing into the longitudinal gap (61A) to the engaging projection 61 is contracted so that the coupling is made firmly.

4 is a cross-sectional view showing the integrated rotor 10 of the fan motor 100 according to the present invention. As shown in FIG. 4, the integrated rotor 10 of the present invention is a component that rotates together with a shaft 50 passing through the center thereof. The integrated rotor 10 is composed of one component, and is a component in which the rotor housing and the rotor magnet of the conventional outer rotor fan motor are integrated into one component.

The integrated rotor 10 has a circular upper plate portion 11, a side wall portion 12 extending downward from an outer circumference of the upper plate portion 11, and a stator assembly 20 opposite the lower side wall portion 11. And a rotor magnet portion 13 of the portion, and a lower protrusion portion 14 protruding downwardly from the rotor magnet portion 13, wherein the central portion of the upper plate portion 11 surrounds the circumference of the shaft 50 in the upper and radial directions. Has an upper protrusion 11A formed to extend. At the center of the upper protrusion 11A, a shaft insert 11B is formed through which the shaft 50 is coupled. All of these configurations except the shaft 50 are integrated into one component.

The integrated rotor 10 of the present invention is preferably manufactured by compression molding the soft magnetic powder, that is, filling the soft magnetic powder into a mold manufactured to have the shape of FIG. 4, and then performing compression molding at high temperature and high pressure. It is preferable to manufacture. In this way, the exact shape of the integrated rotor 10 can be manufactured. As another method of manufacturing the integrated rotor 10, a method in which the shaft 50 is placed in a mold and then manufactured by insert injection using a magnetic material may be applied.

The height Hm of the rotor magnet portion 13 has a length at least equal to or greater than the height of the stator core 21 of the stator assembly 20. The rotor magnet part 13 is a part magnetized by the number of poles of the motor so that the integrated rotor 10 rotates under the influence of the magnetic field generated in the stator assembly 20. To this end, if necessary, the magnet magnet 13 can be magnetized to the required number of poles. The thickness of the rotor magnet portion 13 in the radial direction is preferably larger than that of the side wall portion 12 or the lower protrusion portion 14.

The lower protrusion 14 has a ring shape protruding downward from the rotor magnet portion 13. The lower end of the lower protrusion 14 preferably extends further below the height of the upper end of the wall portion 31A of the motor base 30. In addition, the lower end of the lower protrusion 14 is located on the upper portion of the printed circuit board 24 as shown in FIG. Through this structure, the lower protrusion 14 and the wall portion 31A can prevent dust from flowing into the integrated rotor 10 and the motor base 30 from the outside.

It should be noted that the description of the present invention described above is merely illustrative for the purpose of understanding the present invention, and is not intended to limit the scope of the present invention. The scope of the present invention is defined by the appended claims below, and it should be understood that all simple modifications and variations of the present invention fall within the scope of the present invention.

10: integral rotor 11: top plate
11A: Top protrusion 11B: Shaft insert
12: side wall portion 13: rotor magnet portion
14: lower protrusion 20: stator assembly
21: stator core 22: upper insulator
23: lower insulator 24: printed circuit board
25: lead wire 30: motor base
31: Bottom 31A: Wall
31B: first wire drawing groove 32: coupling hole
33: bearing holder 34: bearing
40: bracket 41: motor seat
42: coupler 43: second wire drawing groove
50: shaft 61: engagement protrusion
61A: Break 62: Coupling spring
100: fan motor

Claims (5)

A circular upper plate portion 11, a side wall portion 12 extending downwardly from the outer circumference of the upper plate portion 11, and a rotor magnet portion (a portion of the lower side wall portion 11 opposed to the stator assembly 20) 13, and an integrated rotor (10) having a shaft insertion portion (11B) in which a shaft (50) is inserted in the center of the upper plate portion (11);
A stator core 21, an upper insulator 22 and a lower insulator 23 coupled to upper and lower portions of the stator core 21, and a printed circuit board 24 and leads for controlling a motor by applying power. A stator assembly 20 comprising a wire 25;
A bottom portion 31 and a wall portion 31A protruding upward along the outer circumference of the bottom portion 31, and a bearing holder 33 protruding upwardly is formed in the center of the bottom portion 31. The outer circumferential surface of the bearing holder 33 is press-fitted to a central portion of the stator core 21, and a motor base 30 to which the bearing 34 is coupled to the inner circumferential surface;
A bracket having a motor seating portion 41 to which the motor base 30 is seated and coupled;
The integrated rotor 10 further includes a lower protrusion 14 protruding downward from the rotor magnet portion 13,
The lower end of the lower protrusion 14 extends further down the height of the upper end of the wall portion 31A of the motor base 30,
The lower protrusion 14 has a ring shape protruding downward from the rotor magnet portion 13,
A lower portion of the lower insulator 23 is coupled to the printed circuit board 24 so that the stator assembly 20 is fixed to the motor base 30 and installed.
The printed circuit board 24 is installed in a space between the bottom portion 31 and the wall portion 31A of the motor base 30, and the lower protrusion 14 is disposed on the upper portion of the printed circuit board 24. Fan motor, characterized in that located. delete delete 2. The fan motor according to claim 1, wherein a radial thickness of the rotor magnet portion (13) is larger than a thickness of the side wall portion (12). The method of claim 1, wherein the first wire drawing groove 31B, through which the lead wire 25 is guided, is formed on the wall 31A.
A second wire drawing groove 43 located in the same radial direction as the first wire drawing groove 31B is formed below the bracket 40,
The lead wire 25 is guided through the upper portion of the first wire drawing groove 31B and the second wire drawing groove 43 to the lower portion of the bracket 40 so that the outside of the bracket 40 in the radial direction. Fan motor, characterized in that drawn out.

Images