KR20190059471A - Fan Motor - Google Patents

Abstract

The present invention relates to a fan motor, comprising: a rotor including a magnet rotating with a shaft; a stator installed at a position facing the rotor; an upper and a lower insulator and a stator core constituting the stator; a sleeve bearing inserted around a circumference of a lower part of the shaft arranged at the center of the stator and a bushing installed around an outer circumference of the sleeve bearing; a metallic printed circuit board coupled to the bushing; and an upper housing in which an impeller housing is seated and a lower housing in which the metallic printed circuit board is seated. The present invention more includes a plurality of coil connection terminal units at a lower side of a lower insulator of the stator, wherein the coil connection terminal unit includes: a terminal having a guide insertion unit; a connection pin inserted into the insertion unit of the terminal to be electrically connected to a three-phase coil end portion; and a connection hole of the printed circuit board which a connection end portion of the connection pin is inserted into to protrude. The present invention reduces manufacturing costs by reducing motor manufacturing processes and increases reliability of the fan motor by stable electrical connection of the coil.

Description

Fan motor {Fan Motor}

The present invention relates to a fan motor. More particularly, the present invention relates to a method for electrically connecting a coil wound around a tooth of a stator in a fan motor, which serves to provide cool wind through a seat of a vehicle, to a printed circuit board via a terminal And more particularly, to a fan motor for performing an assembling process that is easy and quick.

BACKGROUND OF THE INVENTION [0002] A fan motor, which generally serves to provide cool air through a seat of a vehicle or to blow cold air of a refrigerator, is used to circulate air inside and outside of any device. These fan motors are often installed in an environment where there is a lot of moisture or condensation due to temperature change. Therefore, various structures have been studied to prevent the motor from penetrating into the motor and causing a failure.

      In particular, Korean Patent No. 10-1604922 " Fan Motor " discloses a fan motor that prevents axial flow of a shaft of a motor and can reduce manufacturing costs by omitting parts such as felts or board pushes. Each of the ends of the three-phase coil wound on the teeth of the stator is electrically connected to the printed circuit board through soldering.

In the conventional fan motor as well as the above-described prior art, when the coils of the three phases (U, V, W) wound on the tooth of the stator are electrically connected to the printed circuit of the printed circuit board, And is electrically connected to the printed circuit board via soldering.

Such a coil soldering structure requires that the core wire end of the three-phase coil wound around the teeth of the stator is directly drawn out to the printed circuit of the printed circuit board and soldered, so that the coil end is difficult to be unloaded and the soldering operation is difficult. And the manufacturing cost is increased.

Further, since the core wire end of the three-phase coil wound around the tooth of the stator must be drawn to the printed circuit side of the printed circuit board, a gap is generated between the impeller housing and the coil due to the diameter of the coil drawn out around the periphery of the printed circuit board There is a concern that the internal components of the motor can not be assembled correctly.

Patent No. 10-1604922

It is an object of the present invention to shorten the assembling process by making each of the three-phase coils connected to the printed circuit board of the fan motor be soldered quickly and easily, and to secure a reliable electrical connection, thereby enhancing the reliability of the motor .

The fan motor according to the present invention

A rotor including a magnet rotating with the shaft;

A stator provided at a position opposite to the rotor;

An upper and a lower insulator and a stator core constituting the stator;

A sleeve bearing fitted around a lower portion of a shaft disposed at the center of the stator, and a bushing provided around an outer periphery of the sleeve bearing;

A metal printed circuit board coupled to the bushing;

And a lower housing on which the metal printed circuit board is mounted, wherein a plurality of coil connecting terminal means are formed below the lower insulator of the stator, wherein the coil connecting terminal means comprises a guide fitting A terminal having a portion; A connecting pin which is fitted to the fitting portion of the terminal and electrically connected to the three-phase coil end portion; And a connection hole of the printed circuit board on which the connection end of the connection pin is inserted and protruded.

According to the present invention, an end of each of three-phase coils wound on a stator is inserted into a terminal provided on a lower insulator constituting a stator, and a connection pin is fitted in a fitting recessed portion of the terminal, And the connection end of the connection pin is soldered to the connection hole of the printed circuit board so that the soldering operation can be performed in a state where the connection end of the connection pin protrudes into the connection hole of the printed circuit board, The present invention has the effect of significantly reducing the manufacturing cost due to the shortening of the manufacturing process of the motor and the reliability of the fan motor due to the stable electrical connection of the coils, The printed circuit board is electrically connected to the printed circuit board through the connecting pin Reducing the uncertainty of the assembly due to the coil's inner motor components can be accurately assembled, so to prevent motion of the inner component has two possible effects sturdy assembly which geotyieoseo.

1 is an exploded perspective view of a fan motor according to the present invention.
2 is a partially exploded perspective view of a fan motor according to the present invention.
3 is an exploded perspective view of the fan motor according to the present invention.
FIG. 4 is a view illustrating a combined structure of a rotor and a shaft of a fan motor and an impeller housing according to the present invention.
Fig. 5 is a view showing the combination of the bushing and the printed circuit of the fan motor according to the present invention.
6 is a cross-sectional view of a main portion of a fan motor according to the present invention.
Fig. 7 is a perspective view of the stator and the printed circuit board of the present invention, as viewed from the bottom; Fig.
8 is an assembled perspective view of FIG. 7 as viewed from above.
Fig. 9 is an exploded perspective view showing a printed circuit board of the fan motor according to the present invention; Fig.
10 is an exploded perspective view showing a separated stator and a printed circuit board.
11 is a view showing a connection relationship between a terminal and a connection pin of the present invention.
Fig. 12 is a plan view of the main part of the present invention.
FIG. 13 is an entire longitudinal sectional view of a fan motor according to the present invention. FIG.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of a fan motor 200 according to the present invention. The fan motor 200 includes an air inlet 91 and an air outlet 92 provided with an impeller housing 80 having an impeller 81 therein. And the housing 90 and the lower housing 100 are coupled with fastening bolts.

FIG. 2 is a partially exploded perspective view of a fan motor according to the present invention. FIG. 3 is an exploded perspective view of a fan motor according to the present invention. The upper housing 90, the impeller housing 80 having the impeller 81, A magnet 20 and a rotor 30 and a stator 40 provided at a position opposite to the rotor 30. The stator 40 includes upper and lower insulators 41 and 42, And a stator core 43 and a magnet wire 44. The sleeve 10 has a sleeve bearing 50 through which the washer 11 is interposed and an outer circumferential surface of the sleeve bearing 50 A metal printed circuit board 70 coupled with the bushing 60 and a lower housing 100 on which the metal printed circuit board 70 is mounted. 3, the rotor 30 is positioned on the outer peripheral side of the stator 40 The rotor 30 and the inner rotor type rotor 30 are located on the inner circumferential side of the stator 40 having the shape as shown in Figure 7. That is, Can be positioned facing each other, and both the outer rotor type and the inner rotor type are included in the present invention.

FIG. 4 is a view illustrating a combined structure of the rotor 30 and the shaft 10 and the impeller housing 80 of the fan motor according to the present invention, and FIG. 5 is a cross- 70, respectively.

A plurality of spinning holes 72A are formed in the inner circumferential portion 72 of the printed circuit board 70 such that the inside of the guide engaging recessed portion 62 of the bushing 60 is fitted into the spinning hole 72A A plurality of impeller slip prevention grooves 31 are formed around the upper portion of the rotor 30 so that the rotor 30 can be fixed to the impeller housing 30, And the upper portion of the shaft 10 is inserted and injected into the center of the upper portion of the impeller housing 80 so that the coupling between the impeller housing 80 and the rotor 30 and the shaft 10 is firmly coupled And the bushing 60 inserted into the center fitting hole 71 of the metal printed circuit board 70 can be rotated about the upper portion of the stator 60 by the spinning process, (40) an inner seating catching jaw (61); And a guide engaging recessed portion 62 in which the inner circumferential portion 72 of the metal printed circuit board 70 formed at the lower circumferential portion is inserted can be formed and provided in the central fitting hole 63 of the bushing 60 The stator 40 can be installed more stably by allowing the inside of the stator 40 to be seated on the seating catching jaw 61. In this case,

6 is a cross-sectional view of the main part of the fan motor according to the present invention showing the state that the three-phase coil end 120 is electrically connected to the printed circuit board 70 through the coil connecting terminal means 110, Fig. 8 is a perspective view of the motorcycle shown in Fig. 7, Fig. 9 is a perspective view of the printed circuit board 70 of the fan motor according to the present invention. Fig. 8 is a perspective view showing the stator 40 and the printed circuit board 70, 10 is an exploded perspective view in which the separated stator 40 and the printed circuit board 70 are separated from each other. FIG. 11 is a view showing a connection relationship between the terminal and the connection pin of the present invention, (B) is a combined sectional view.

FIG. 12 is a plan view of the main part of the present invention, and the technical gist of the present invention will be described in detail with reference to FIG. 6 to FIG.

A plurality of coil connecting terminal means 110 are integrally formed below the lower insulator 42 of the stator 40. The coil connecting terminal means 110 includes a terminal 112 having a guide- )and; A connection pin 113 which is inserted into the fitting portion 111 of the terminal 112 and electrically connected to the three-phase coil end portion 120; And a connection hole (70A) of a printed circuit board (70) in which a connection end (113A) of the connection pin (113) is fitted and protruded, wherein the plurality of coil connection terminal means (110) (120).

The guide fitting portion 111 of the terminal 112 is configured such that the front and rear are opened and the guide fitting portion 11A is formed on both sides of the guide fitting portion 111. The guide fitting portion 111 of the terminal 112 is inserted into the guide fitting portion 111 of the terminal 112 The connection pin 113 is formed with a connection end 113A and a locking protrusion 113B on the lower side and a sharp detaching protrusion 113C is formed at both ends of the connection pin 113 in an oblique manner, 113 may be provided with a resilient fitting cutout 113D at the center of the body.

The present invention having such a configuration is a method of removing the coil end 120 of the three-phase coil 120A wound on the core 43 of the stator 40 (as shown in FIG. 12) And the body of the separated connecting pin 113 is inserted into the guide fitting portion 111 and inserted along the guide fitting portion 11A so as to be connected The coil end 120 is resiliently inserted into the fitting notch 113D of the pin 113 as shown in Figure 11B so that the connection pin 113 and the coil end 120 are electrically connected. The engaging step 113B of the connecting pin 113 is blocked by the outer side surface of the guide fitting part 111 of the terminal 112 as shown in Figure 11B so that the connecting pin 113 is inserted into the guide fitting part 111, Preventive protrusion 113C is inclined at both ends of the body of the connection pin 113 so that the body of the connection pin 113 is inserted into both ends of the guide fitting portion 111 of the terminal 112 Preventing protuberance 113C is inserted into the inner side of the guide recessed portion 11A so that the coil end portion 120 can be connected and maintained in a rigid state without shaking after entering the guide recessed portion 11A of the guide recessed portion 11A. .

In this state, when the connecting end 113A of the connecting pin 113 is fitted and protruded while being inserted into the guide fitting portion 111 of the terminal 112 and the coil end portion 120 is connected, Is passed through the connection hole 70A formed in the printed circuit board 70 to be drawn out to the outside of the lower portion of the printed circuit board 70 and connected to the printed circuit board 70 The connection end portion 113A of the pin 113 is soldered to electrically connect the coil end portion 120 and the printed circuit board 70 to the electrical connection via the coil connection terminal means 110. [

Therefore, the present invention can perform the soldering operation in a state in which the connection end 113A of the connection pin 113 protrudes into the connection hole 70A of the printed circuit board 70, so that the soldering operation is very easy and quick Therefore, it is possible to greatly improve the reliability of the fan motor owing to the reduction of the manufacturing cost due to the shortening of the manufacturing process of the motor and the electrical connection of the stable coil 120A.

FIG. 13 is an entire longitudinal sectional view of a fan motor according to the present invention. FIG.

The fan motor 200 according to the present invention shown in FIG. 11 includes a rotor 30 including a magnet 20 rotating together with the shaft 10; A stator 40 installed at a position opposite to the rotor 30; Upper and lower insulators 41 and 42 and a stator core 43 constituting the stator 40; A sleeve bearing 50 fitted around a lower portion of the shaft 10 disposed at the center of the stator 40 and a bushing 60 installed around the sleeve bearing 50; A printed circuit board 70 coupled with the bushing 60; And an upper housing 90 on which the impeller housing 80 is seated and a lower housing 100 on which the metal printed circuit board 70 is seated. The lower housing 100 is disposed below the lower insulator 42 of the stator 40 A plurality of coil connecting terminal means (110), wherein the coil connecting terminal means (110) comprises: a terminal (112) having a guide fitting (111); A connection pin 113 which is inserted into the fitting portion 111 of the terminal 112 and electrically connected to the three-phase coil end portion 120; And a connection hole 70A of the printed circuit board 70 on which the connection end 113A of the connection pin 113 is inserted and protruded. The connection hole 70A of the printed circuit board 70 The soldering operation can be performed in a state in which the connection end portion 120 of the connection pin 113 is protruded so that the soldering operation can be carried out very easily and quickly. As a result, manufacturing cost is reduced due to shortening of the manufacturing process of the motor, The reliability of the fan motor can be greatly improved.

It is to be understood that the foregoing detailed description of the present invention has been presented for illustrative purposes only and is not intended to limit the scope of the present invention. It is intended that the scope of the invention be defined by the claims appended hereto, and that all such modifications and variations are intended to be included within the scope of the present invention.

10: shaft 11: washer
20: Magnet 30: Rotor
40: stator 41, 42: upper and lower insulator
43: stator core 44: magnet wire
50: Sleeve 60: Bushing
61: seat resting jaw 62: guide locking seat
63: central fitting hole 70: printed circuit board
71: central fitting hole 72: inner peripheral portion
73: Hall sensor 80: Impeller housing
81: impeller 90, 100: upper and lower housings
91: air inlet 92: air outlet
110: coil connecting terminal means 111: guide fitting portion
11A: guide information entry section 112: terminal
113: connection pin 113A: connection end
113B: Retaining jaw 113C: Leaving prevention projection
113D: Fitting cutout portion 120: Coil end
120A: coil 200: fan motor

Claims (5)

A rotor (30) including a magnet (20) rotating together with the shaft (10); A stator 40 installed at a position opposite to the rotor 30; Upper and lower insulators 41 and 42 and a stator core 43 constituting the stator 40; A sleeve bearing 50 fitted around a lower portion of the shaft 10 disposed at the center of the stator 40 and a bushing 60 installed around the sleeve bearing 50; A printed circuit board 70 coupled with the bushing 60; And an upper housing 90 on which the impeller housing 80 is seated and a lower housing 100 on which the metal printed circuit board 70 is seated. The lower housing 100 is disposed below the lower insulator 42 of the stator 40 A plurality of coil connecting terminal means (110), wherein the coil connecting terminal means (110) comprises: a terminal (112) having a guide fitting (111); A connection pin 113 which is inserted into the fitting portion 111 of the terminal 112 and electrically connected to the three-phase coil end portion 120; And a connection hole (70A) of the printed circuit board (70) on which the connection end (113A) of the connection pin (113) is inserted and protruded. The terminal fitting according to claim 1, wherein the guide fitting part (111) of the terminal (112) is open front and rear, and the guide fitting part (11A) The connecting pin 113 fitted to the connecting pin 113 is formed with a connecting end 113A and a locking step 113B downwardly and a sharp detachment preventing protrusion 113C is formed obliquely at both ends of the connecting pin 113, Wherein the connection pin (113) has a fitting cut-out portion (113D) which is provided with elasticity in the center of the body. The electronic device according to claim 1, wherein a plurality of spinning holes (72A) are formed in an inner peripheral portion (72) of the metal printed circuit board (70) so that the inside of the guide engagement recessed portion (62) of the bushing (60) ) Of the fan motor (1). The impeller according to claim 1, wherein a plurality of impeller slip prevention grooves (31) are formed on an upper inner circumference of the rotor (30) to insert the rotor (30) into the impeller housing (80) And an upper portion of the shaft (10) is inserted and injected into the upper center of the fan motor. The fan motor according to claim 1, wherein a terminal (112) is integrally projected downward below the lower insulator (42) of the stator (40).

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