KR102041045B1 - Brushless DC Motor with Improved Ground Structure - Google Patents

Abstract

According to the present invention, a brushless DC motor comprises a housing (10) including a stator (15) therein and having a hollow part (11) in which a rotor (20) coupled to a shaft (21) is positioned in the middle part; an upper bearing (22) coupled to an output side of the shaft (21) to rotatably support the shaft; an upper bearing cover (31) accommodating the upper bearing (22) and covering the hollow part (11); a lower bearing (23) coupled to a lower end of the shaft (21) to rotatably support the shaft; a lower bearing holder (32) accommodating the lower bearing (23) and coupled to a middle lower part of the housing (10); and a first grounding member (50) having an upper end part (50a) bent and coupled to an outer part of the upper bearing cover (31), and a lower end part (50b) coupled to a middle part of the lower bearing holder (32), to make the upper bearing cover (31) and the lower bearing holder (32) electrically equipotential.

Description

Brushless DC Motor with Improved Ground Structure

It relates to a grounding structure of a motor of the present invention. More specifically, the present invention relates to a motor having a grounding structure that improves the grounding structure to prevent the spreading of bearings more effectively, thereby improving the performance, durability, vibration, and noise of the motor.

In general, a motor includes a stator and a rotor. The rotor rotates under the influence of the magnetic field formed by the stator. A shaft coupled to the rotor and rotating together with the rotor is provided with bearings that support rotation of the shaft in the upper and lower portions of the rotor.

Such a motor is generally controlled by a drive circuit, in which electrical corrosion of the bearing occurs due to a potential difference between the upper and lower bearings when the drive circuit is operated, or by an axial current generated for other reasons. Due to such electrical corrosion, noise and vibration are generated when the motor is operating, which adversely affects the performance of the motor and adversely affects the durability of the motor.

In order to prevent such corrosion of the bearing, Korean Patent Laid-Open Publication No. 10-2008-0109168 discloses the potential of both sides is equipotential by connecting the output side bracket surrounding the upper bearing and the half output side bracket surrounding the lower bearing with conductive tape. A technique for preventing electrical corrosion of bearings is disclosed. However, there is a problem in maintaining the equipotential because the structure of the portion fixing the end of the conductive tape is weak.

Meanwhile, Korean Patent No. 10-1562736 discloses a structure in which a grounding metal member is installed outside the motor housing to directly connect the upper and lower ends of the grounding metal member to the upper bearing cover and the lower bearing cover. In this prior art, the ground between the upper and lower bearing covers is effectively achieved, but the two bearings are easily exposed to the outside because the bearing is inserted into the outer side of the upper and lower bearing covers. In particular, since the end portion of the grounding metal member is slightly in contact with the lower bearing cover, there is a fear of detachment of the grounding member, which may cause a problem that does not effectively prevent the occurrence of bearing transfer.

In order to solve the above problems, the present inventors propose a motor having an improved grounding structure which is not presented in the prior art.

It is an object of the present invention to provide a motor having an improved grounding structure.

Another object of the present invention is to provide a motor that can effectively prevent the transmission of the bearing because the equipotential between the upper and lower bearings can be effectively maintained through the structure of the ground member which contacts the lower bearing cover and the bearing at the same time.

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

Brushless DC motor according to the present invention

A housing (10) including a stator (15) therein and a hollow portion (11) on which a rotor (20) having a shaft (21) coupled to a central portion thereof is located;

An upper bearing 22 coupled to an output side of the shaft 21 to rotatably support the shaft;

An upper bearing cover 31 for receiving the upper bearing 22 and covering the hollow part 11;

A lower bearing 23 coupled to a lower end of the shaft 21 to rotatably support the shaft;

A lower bearing holder 32 accommodating the lower bearing 23 and coupled to a central lower portion of the housing 10; And

An upper end portion 50a bent and coupled to an outer portion of the upper bearing cover 31 to make the upper bearing cover 31 and the lower bearing holder 32 electrically equipotential, and the lower bearing holder 32 A first grounding member (50) having a lower distal end (50b) coupled to a central portion of the center;

Characterized in that it comprises a.

In the present invention, the first ground member 50 may be located in the first groove 13 formed to extend to the top, side, and bottom of the housing 10.

In the present invention, the second ground member 51 is in contact with the core of the stator 15 through the first ground member 50 and the side surface of the housing 10 in the side of the housing 10 It may further include.

In the present invention, the lower end portion 50b has a bent shape, and the end of the bent shape is preferably interposed between the lower bearing 23 and the lower bearing holder 32.

In the present invention, the lower bearing holder 32 is preferably coupled to the inner side of the lower protrusion 14 protruding downward of the housing 10.

In the present invention, the lower end portion 50b of the first ground member 50 may be guided to the second groove 14a formed in the lower protrusion 14.

In the present invention, the lower end portion 50b of the first ground member 50 is preferably coupled to the third groove 32a formed in the lower bearing holder 32.

The present invention can effectively maintain the equipotential between the upper and lower bearings through the new structure of the ground contacting the lower bearing cover and the bearing at the same time has the effect of the invention that can prevent the transmission of the bearings more effectively.

1 is a perspective view of a motor according to the present invention.
2 is an exploded perspective view showing a motor according to the present invention.
3 is an exploded perspective view of the motor according to the present invention.
4 is a perspective view from below of the motor according to the present invention;
Figure 5 is an exploded perspective view for showing a grounding structure of the lower bearing cover side of the motor according to the present invention.
6 is a cross-sectional view taken along line AA ′ of FIG. 1.
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a motor 100 according to the present invention, Figure 2 is an exploded perspective view showing the motor 100 according to the present invention, Figure 3 is an exploded view of the motor 100 according to the present invention as viewed from the lower side Perspective view.

1 to 3, the motor 100 according to the present invention includes a housing 10, a rotor 20, an upper bearing cover 31, a lower bearing holder 32, and an upper protective member 41. And a lower protective member 42.

The housing 10 has a hollow portion 11 having a hollow space in the center portion, and an annular flange portion 12 protruding upward along the upper portion of the hollow portion 11. The hollow part 11 is coupled to the shaft 21, the rotor 20 is rotated together. The first groove 13 is where the first grounding member 50 is located, and the first groove 13 is the upper surface and the side surface of the housing 10 from the flange portion 12 or the portion adjacent to the flange portion 12. , Is connected to the bottom surface. The lower protrusion 14 protrudes downward in the center of the bottom of the housing 10. The first groove 13 may extend to the lower protrusion 14. The lower protrusion 14 is formed with a second groove 14a for guiding the lower end portion 50b of the first ground member 50, and a part of the bottom surface of the lower bearing holder 32 is formed of the lower protrusion 14. It is exposed to the outside through the lower opening part 14b formed in the bottom surface.

The stator 15 is positioned inside the housing 10 in a position facing the side of the rotor 20. The stator 15 is electrically connected to the printed circuit board 15a, and the connector 15b and the lead wire 15c are installed to supply external power to the printed circuit board 15a. In FIG. 3, the stator 15 and the housing 10 are shown as separate parts, but the stator 15, the printed circuit board 15a, and the connector 15b are integrally formed with the housing 10 in the insert mold. It is preferred to be produced by injection molding.

The rotor 20 includes a magnet positioned to face the stator. The shaft 21 penetrates and is coupled to the center of the rotor 20. Thus, the rotor 20 and the shaft 21 are rotated together as a unit. The upper end of the shaft 21 is coupled to a load such as a fan (fan). That is, the upper end of the shaft 21 becomes the output side. An upper bearing 22 is coupled to the lower portion of the top of the shaft 21 to support the rotation of the shaft 21. The lower bearing 23 is coupled to the lower end of the shaft 21 to support rotation of the shaft 21.

The upper bearing cover 31 is coupled to cover the hollow portion 11 of the housing 10 with a conductive material. The circumferential portion of the upper bearing cover 31 is coupled to the flange portion 12 of the housing 10. The central portion of the upper bearing cover 31 has a shape protruding upwards, and the upper bearing 22 is coupled to the inner portion of the protruding shape. Although the upper bearing 22 is illustrated in FIG. 2 as being coupled to the lower side of the upper bearing cover 31, the upper bearing 22 is not necessarily limited to this shape, and the upper bearing 22 is coupled to the upper side of the upper bearing cover 31. The protruding shape of the central portion of the upper bearing cover 31 may be modified. The upper part of the upper bearing cover 31 is covered and protected by the upper protective member 41.

The lower bearing holder 32 has a cup shape with an open upper portion made of a conductive material, and the lower bearing 23 is coupled to a central space portion. The bottom of the lower bearing holder 32 is formed with a third groove 32a to which the lower end portion 50b of the first ground member 50 is coupled. The lower opening part 32b is formed in the center of the bottom face of the lower bearing holder 32, and the 3rd groove 32a and the lower opening part 32b have the shape connected to each other. A portion of the bottom surface of the lower bearing holder 32 is exposed to the outside through the lower opening 14b. The exposed portion is covered by the lower protective member 42. The lower protrusion 14 is coupled to the central groove 42a of the lower protective member 42. The upper protective member 41 and the lower protective member 42 may apply rubber or plastic of elastic material.

4 is a perspective view of the motor 100 according to the present invention as viewed from the lower side, FIG. 5 is an exploded perspective view illustrating a ground structure of the lower bearing holder 32 side of the motor 100 according to the present invention. Is a cross-sectional view taken along line AA ′ of FIG. 1.

4 to 6, the first grounding member 50 is coupled to the first groove 13 of the housing 10. A ground hole 50c is formed in the first ground member 50 of the side portion of the housing 10. The second ground member 51 is inserted into the ground hole 50c and penetrates the side surface of the housing 10 to be coupled to the core portion of the stator 15 inside the housing 10. This structure can be seen in FIG. Although the second ground member 51 is shown in FIGS. 4 and 6 as being a bolt, if the second ground member 51 is coupled to the ground hole 50c to make the stator core and the first ground member 50 electrically equipotential, It is not limited, You can also use other members, such as a pin and a screw.

The upper end portion 50a of the first grounding member 50 has a bent shape, and is pressed into and coupled between the flange portion 12 of the housing 10 and the outer circumferential portion of the upper bearing cover 31 as shown in FIG. 6. . The lower end portion 50b of the first ground member 50 has a shape in which the end is bent in a 'U' shape, and the bent portion is coupled to the third groove 32a of the lower bearing holder 32.

As shown in FIG. 4, the first ground member 50 is coupled along the first groove 13, and has a shape that is bent while passing through the second groove 14a of the lower protrusion 14. As described above, the lower end portion 50b, which is the end portion beyond the second groove 14a, has a 'U' shape and the portion is coupled to the third groove 32a formed in the lower bearing holder 32.

As shown in FIG. 6, the bent portion of the end of the lower end portion 50b of the first ground member 50 contacts the bottom portion 23a of the lower bearing 23. An end of the lower distal end 50b of the first ground member 50 is interposed between the lower bearing 23 and the lower bearing holder 32 to be in contact with both members. Through this structure, a firm coupling of the lower portion of the first ground member 50 may be ensured, and electrical contact may be stably maintained.

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. It is intended that the scope of the invention be defined by the claims appended hereto, and all simple variations or modifications of the invention within this scope are intended to be within the scope of protection of the invention.

10: housing 11: hollow part
12: flange portion 13: first groove
14: lower protrusion 14a: second groove
15: stator 15a: printed circuit board
15b: connector 15c: lead wire
20: rotor 21: shaft
22: upper bearing 23: lower bearing
23a: Lower bearing bottom part 31: Upper bearing cover
32: lower bearing holder 32a: third groove
32b: lower opening 41: upper protective member
42: lower protective member 50: first ground member
50a: upper distal end 50b: lower distal end
51: second ground member

Claims (7)

A housing 10 including a stator 15 therein and a hollow portion 11 in which a rotor 20 in which a shaft 21 is coupled is located at a center portion thereof;
An upper bearing 22 coupled to an output side of the shaft 21 to rotatably support the shaft;
An upper bearing cover 31 for receiving the upper bearing 22 and covering the hollow part 11;
A lower bearing 23 coupled to a lower end of the shaft 21 to rotatably support the shaft;
A lower bearing holder 32 accommodating the lower bearing 23 and coupled to a central lower portion of the housing 10; And
An upper end portion 50a bent and coupled to an outer portion of the upper bearing cover 31 to make the upper bearing cover 31 and the lower bearing holder 32 electrically equipotential, and the lower bearing holder 32 A first grounding member (50) having a lower distal end (50b) coupled to a central portion of the center;
And the lower end portion 50b has a bent shape, and an end of the bent shape is interposed between the lower bearing 23 and the lower bearing holder 32. . 2. Brushless DC motor according to claim 1, characterized in that the first ground member (50) is located in a first groove (13) formed to extend to the top, side and bottom of the housing (10). 2. The second ground member of claim 1, wherein the second ground member is electrically connected to the core of the stator 15 through the first ground member 50 and the side surface of the housing 10. 51) further comprising a brushless DC motor. delete 2. Brushless DC motor according to claim 1, characterized in that the lower bearing holder (32) is coupled to the inside of the lower projection (14) protruding downward of the housing (10). 6. The brushless DC motor of claim 5, wherein a lower end portion (50b) of the first ground member (50) is guided in a second groove (14a) formed in the lower protrusion (14). The brushless DC motor according to claim 1, wherein the lower end portion (50b) of the first ground member (50) is coupled to a third groove (32a) formed in the lower bearing holder (32).

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