KR102278018B1 - Fan Motor - Google Patents

Abstract

A fan motor according to the present invention includes a rotor including a magnet rotating together with a shaft; a stator installed at a position opposite to the rotor; a stator core constituting the stator; a sleeve bearing fitted on a periphery of the lower shaft disposed in the center of the stator, the shaft having upper and lower washers as a medium, and a bushing installed around the outer periphery of the sleeve bearing; a printed circuit board coupled to the lower part of the bushing; An upper housing on which the impeller housing is seated and a lower housing on which a printed circuit board is seated, the fan motor comprising: integrally injection-molding a bushing in the center of the lower housing to protrude upwardly, and inside the stator core around the outer circumference of the bushing It is characterized in that the magnetic wire is installed on the outside of the insulating coating layer formed through the epoxy coating on each of the upper and lower parts of the stator core.

Description

fan motor

The present invention relates to a fan motor. More specifically, a bushing that performs insulation by firmly combining the inner periphery of the stator core constituting the fan motor is integrally injection-molded with the lower housing, and the assembly process is shortened by providing a new type of insulation means for the upper and lower portions of the stator core. and to a fan motor that improves the efficiency of the fan motor.

In general, a fan motor that provides cool wind through a seat seat of a vehicle or blows cold air of a refrigerator is used to circulate air inside and outside of a certain device. Such fan motors are often installed in a humid place or in an environment where condensation occurs due to temperature change. Therefore, various structures have been studied to prevent moisture from penetrating into the motor and causing malfunction.

In particular, according to Republic of Korea Patent No. 10-1604922 "Fan Motor", which was previously applied and registered by the present applicant, it is possible to reduce the manufacturing cost by preventing the axial flow of the shaft of the motor and omitting parts such as felt or board push. A fan motor is presented.

In the prior art, the coupling of the shaft and the printed circuit board electrically connected to the coil wound on the stator is performed by inserting a bearing around the shaft to be installed by fitting it into the central hole of the printed circuit board, and then inserting the shaft vertically into the bearing insert. In general, after inserting a bushing into the central hole of the printed circuit board, the bushing and the circuit board are fastened with a fastening bolt, and the shaft is inserted into a sleeve bearing installed inside the bushing, or hot pressing (hot pressing). ) to heat and press the bushing to the printed circuit board.

In the prior art or general fan motor having such a configuration, the bushings must be fastened to the printed circuit board with fastening bolts, so it is difficult to quickly assemble the motor because the assembly process is complicated, and the manufacturing cost of the motor is high due to the use of fastening bolts. .

In order to solve this problem, the assembly process of the motor can be shortened by fitting the bushing into which the shaft of the motor is fitted by fitting without a fastening bolt, and a strong coupling can be achieved, but the process of separately fitting the bushing to the lower housing and A process of fitting the inner circumference of the printed circuit board to the outer circumference of the lower part of the bushing must be added, and a minute gap is generated between the outer circumference of the bushing and the inner circumference of the printed circuit board and between the lower housing and the coupling part, resulting in noise during motor operation In addition to this, the assembly height of the motor is increased because the magnet coil must be wound by placing separately manufactured upper and lower insulators on the upper and lower parts of the stator core, and the process of fitting the upper and lower insulators to the stator core is complicated and productivity is reduced There are problems such as degradation.

Accordingly, the present inventors intend to propose a fan motor having a new structure in which the motor can be rapidly assembled and the motor efficiency is improved in order to solve the above-mentioned problems.

The present invention provides a fast and easy assembly process of a fan motor by integrally forming a bushing in the lower housing, and to improve the reliability of the motor by eliminating the disconnection or short circuit of the circuit through the solid coupling of the circuit board. is intended to

Another object of the present invention is to provide a new type of insulating means in the upper and lower parts of the stator core to shorten the assembly process, and provide washers fastened to the upper and lower parts of the shaft as rubber washers to provide smooth shaft rotation and cushioning function is given to reduce noise.

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

A fan motor according to the present invention

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;

a stator core 43 constituting the stator 40;

A sleeve bearing 50 and the sleeve bearing that are fitted around the lower portion of the shaft 10 disposed in the center of the stator 40, and the shaft 10 is fitted through the upper and lower washers 11 and 11A ( 50) a bushing 60 installed on the outer periphery;

a printed circuit board 70 coupled to a lower portion of the bushing 60; In the fan motor 200 configured to include; the upper housing 90 on which the impeller housing 80 is seated, and the lower housing 100 on which the printed circuit board 70 is seated, a bushing in the center of the lower housing 100 (60) is integrally injection-molded to form upward protrusion, and the bushing 60 is formed by inserting the inner periphery of the stator core 43 around the outer periphery, but the stator core 43 upper and lower portions are each insulated through epoxy coating It is characterized in that the magnetic wire 44 is installed on the outside of the coating layer 43A.

In the present invention, the upper and lower washers 11 and 11A are preferably made of rubber.

In the present invention, a plurality of fitting protrusions 110 integrally protruding around the bottom surface of the concave portion 100A of the lower housing 100 are drilled into the printed circuit board 70 to form a coupling fitting hole 70A. It may be inserted into the joint and fusion-bonded.

In the present invention, a seating locking projection 61 to which the inner circumference of the stator 40 is fitted is formed around the upper circumference of the bushing 60 fitted around the inner circumference of the central fitting hole 71 of the printed circuit board 70 . may do

In the present invention, a plurality of semicircular fittings radially formed around the inner periphery of the central fitting hole 71 of the printed circuit board 70 to the semicircular fitting protrusion 62 protruding radially around the lower periphery of the bushing 60 in the present invention. It is preferable to engage the hole 72 by inserting it.

The present invention provides a bushing into which the shaft of the motor is fitted by injection molding integrally with the lower housing, and by coupling the bushing and the stator by fitting without a fastening bolt, shortening the assembly process of the bushing and improving the productivity of the motor By combining and fusion bonding the printed circuit board to the lower housing integral with the bushing, it prevents damage to the printed circuit board such as disconnection of circuit parts mounted on the printed circuit board, thereby improving the reliability of the motor, and rubber washer. The material provides smooth rotation of the shaft as well as reducing noise from the motor, and has the effect of providing a fast and lightweight fan motor and quick assembly of the stator due to the insulating layer coated on the upper and lower parts of the stator core.

1 is a combined perspective view showing a fan motor according to the present invention.
2 is an overall exploded perspective view in which the fan motor according to the present invention is separated.
3 is a partially separated perspective view of a fan motor according to the present invention.
4 is a partially coupled perspective view of the fan motor according to the present invention.
5 is an overall longitudinal 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 combined perspective view showing a fan motor 200 according to the present invention, the upper part comprising an air inlet 91 and an air outlet 92 in which an impeller housing 80 having an impeller 81 formed therein is installed. It shows a state in which the housing 90 and the lower housing 100 are coupled with a fastening bolt.

2 is an exploded perspective view of the fan motor according to the present invention, FIG. 3 is a partially separated perspective view of the fan motor according to the present invention, FIG. 4 is a partially coupled perspective view of the fan motor according to the present invention, and FIG. 5 is the present invention As an overall longitudinal cross-sectional view of the fan motor according to Fig., the upper housing 90, the impeller housing 80 forming the impeller 81, the magnet 20 and the rotor 30, are located opposite to the rotor 30 It consists of a stator 40 to be installed, and the stator 40 is composed of a stator core 43 and a magnetic wire 44, and the upper and lower portions of the stator core 43 are respectively coated with epoxy. By configuring to install the magnetic wire 44 on the outside of the formed insulating coating layer 43A, the insulation between the inner surface of the magnetic wire 44 and the outer surface of the stator core 43 can be improved without separately manufactured upper and lower insulators. Of course, it is possible to reduce the manufacturing cost, and by omitting the assembly process of the upper and lower insulators, the assembly process of the entire motor can be shortened. can provide

In addition, the sleeve bearing 50 to which the shaft 10 is fitted via the upper and lower washers 11 and 11A, the bushing 60 to which the outer circumferential surface of the sleeve bearing 50 is mounted, the bushing 60 ) is composed of a printed circuit board 70 coupled to the lower housing 100 on which the printed circuit board 70 is seated, and the washers 11 and 11A are provided with a rubber material to form the sleeve bearing 50 . When the shaft 10 disposed inside rotates, it provides cushioning as well as smooth rotation of the shaft 10 to reduce the noise of the motor, and in particular, the bushing 60 is integrated in the center of the lower housing 100 It can be provided by injection molding to protrude upward, and a plurality of fitting protrusions 110 integrally protruding around the bottom surface of the concave portion 100A of the lower housing 100 are drilled into the printed circuit board 70 . The printed circuit board 70 and the lower part of the printed circuit board 70 and the lower part of the printed circuit board 70 in a state where the inner circumference of the central fitting hole 71 of the printed circuit board 70 is fitted around the lower outer circumference of the bushing 60 by fitting into the formed coupling fitting hole 70A Since the housing 100 is installed in a solid coupling with each other, it is possible to improve the reliability of the motor by preventing damage to the printed circuit board 70 such as disconnection of circuit parts mounted on the printed circuit board 70 during motor operation.

According to FIGS. 3 and 5 , a seating locking protrusion 61 in which the inner circumference of the stator 40 is fitted around the upper circumference of the bushing 60 fitted around the inner circumference of the central fitting hole 71 of the printed circuit board 70 . ) so that the inside of the stator 40 is hooked and seated, the stator 40 can be installed more stably, and the sleeve bearing 50 is fitted in the central fitting hole 63 of the bushing 60. can

Therefore, the stator 40 is coupled to the outer periphery of the bushing 60 without a separate fastening bolt, and the printed circuit board 70 is provided to be coupled and fused to the lower housing 100, thereby enabling quick and robust assembly of the motor. Therefore, it is possible to shorten the assembly process of the fan motor 200 and reduce manufacturing costs at the same time, and it is possible to exclude the phenomenon that the printed circuit board 70 is twisted or inclined, so that the printed circuit board 70 is stably coupled. This can improve the reliability of the motor.

In addition, in the present invention, the inside of the stator 40 is hooked and seated on the seating locking jaw 61 of the bushing 60 so that the stator 40 can be stably installed. (40) damage can be prevented.

On the other hand, a plurality of semi-circular fitting holes radially formed on the inner circumference of the central fitting hole 71 of the printed circuit board 70 in the semi-circular fitting protrusion 62 protruding radially from the lower periphery of the bushing 60 ( 72), the printed circuit board 70 is more reliably coupled with the bonding fusion to the lower housing 100, and protrudes around the bottom surface of the concave portion 100A of the lower housing 100 The printed circuit board 70 can be placed in a fixed state by inserting the plurality of fitting protrusions 110 into the coupling fitting hole 70A formed by drilling the printed circuit board 70 to connect the motor internal circuit. This can be done smoothly.

It should be noted that the detailed description of the present invention described above is merely illustrative for understanding of 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 or changes of the present invention within this scope fall within the scope of the present invention.

10: shaft 11, 11A: washer
20: magnet 30: rotor
40: stator 43: stator core
43A: insulation coating layer 44: magnetic wire
50: sleeve bearing 60: bushing
61: seating locking jaw 62: fitting protrusion
63: center fitting hole 70: printed circuit board
71: center fitting hole 70A: coupling fitting hole
81: impeller 90: upper housing
100: lower housing 91: air intake
92: air outlet 100A: concave inlet
110: fitting protrusion 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;
a stator core 43 constituting the stator 40;
A sleeve bearing 50 and the sleeve bearing which are fitted around the lower portion of the shaft 10 disposed in the center of the stator 40, and the shaft 10 is fitted through the upper and lower washers 11 and 11A ( 50) a bushing 60 installed on the outer periphery;
a printed circuit board 70 coupled to a lower portion of the bushing 60; an upper housing 90 on which the impeller housing 80 is seated and a lower housing 100 on which the printed circuit board 70 is seated;
including,
The bushing 60 is integrally injection-molded in the center of the lower housing 100 to protrude upward, and the stator core 43 is fitted around the outer periphery of the bushing 60 and coupled, the stator core 43 upper and lower To install the magnetic wire 44 on the outside of the insulating coating layer 43A formed through epoxy coating on each,
The bushing 60 is provided by integrally injection molding in the center of the lower housing 100 to protrude upward, and a plurality of integrally protruding portions around the bottom surface of the concave portion 100A of the lower housing 100 are provided. The inner periphery of the central fitting hole 71 of the printed circuit board 70 is the bushing 60 by inserting the fitting protrusion 110 into the coupling fitting hole 70A formed by drilling the printed circuit board 70 to perform the coupling fusion. ) so that the printed circuit board 70 and the lower housing 100 are installed in a solid connection with each other in a state fitted around the lower outer side,
A plurality of semi-circular fitting holes radially formed around the inner circumference of the central fitting hole 71 of the printed circuit board 70 in the semi-circular fitting protrusion 62 protruding radially from the lower periphery of the bushing 60 ( 72), a fan motor characterized in that it is coupled. The fan motor according to claim 1, wherein the upper and lower washers (11, 11A) are made of rubber material. delete According to claim 1, wherein the inner periphery of the stator (40) is fitted to the upper periphery of the bushing (60) fitted around the inner periphery of the central fitting hole (71) of the printed circuit board (70). A fan motor, characterized in that it forms a. delete

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