KR101998253B1 - Harness installation structure for brushless motor with improved sealing function and installing method thereof - Google Patents

Abstract

The present invention provides a harness mounting structure for a brushless motor having improved sealing function and a mounting method of the harness, wherein the silicone resin applied to the housing groove portion primarily blocks moisture from flowing into the stator housing along the harness, The silicone resin injected through the port hole provided in the housing prevents moisture from being introduced into the printed circuit board in a secondary manner, thereby preventing moisture from being introduced into the stator housing.

Description

Technical Field [0001] The present invention relates to a harness installation structure for a brushless motor having improved sealing function, and a harness installation structure for the brushless motor,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a brushless motor device, and more particularly, to an installation structure of a wiring harness for supplying power to a brushless motor device.

Generally, a motor is a device that converts electrical energy into mechanical energy. Motors are widely used not only in household electric appliances but also in industrial devices. The motors are divided into DC motor (DC motor) and AC motor (AC motor). DC motors have a brushless type motor in which a brush is not used and a type in which a brush is used to supply power to a commutator by a brush.

An example of a brushless motor is disclosed in Korean Patent Publication No. 2011-0119993.

Since the brushless motor supplies power to the stator without supplying power to the rotor, components such as a brush and a commutator are not required, so that consumable parts are reduced, and the weight of the brushless motor is increasingly employed in fields requiring durability . In addition, the brushless motor has advantages of torque and output, and has been widely adopted in automotive cooling fan motors according to recent trend of increasing capacity of automotive fan motors.

The brushless motor is characterized in that a printed circuit board for current control is provided on the stator side as compared with a conventional brush motor. Also, the printed circuit board is provided with an electrical connection terminal, and electricity is supplied from the outside to the electrical connection terminal through a wiring harness. However, when a brushless motor is employed in a vehicle fan motor, the fan motor may be exposed to a harsh environment in which moisture may enter. Since a much lower current flows to the printed circuit board than the brush motor, when moisture is introduced into the printed circuit board, the printed circuit board is seriously damaged and the function of the motor is lost. Therefore, it is necessary to prevent moisture from flowing into the printed circuit board through the wiring harness supplied with power to the brushless motor.

A conventional harness of a brushless motor for a cooling fan of a vehicle is assembled with a simple contact structure by a combination of a motor housing and a cover in a state in which a terminal portion connected to a printed circuit board is sealed by hot melt injection. Such a conventional sealing structure has a problem that the sealing performance of the silicone constituting the hot melt deteriorates and the sealing function deteriorates. In addition, there is a problem in that moisture does not flow into a structure sealed with hot melt, but moisture enters the inside of the motor housing through a gap between the motor housing and the hot melt to damage a printed circuit board provided inside the motor housing.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a brushless motor in which moisture is infiltrated through a clearance between a harness and a motor housing, And to provide a harness mounting structure for a brushless motor that prevents the function of the motor from being damaged.

According to another aspect of the present invention, there is provided a harness mounting structure for a brushless motor having an improved sealing function, the harness mounting structure including a harness for supplying power to a brushless motor,

A stator housing in which a printed circuit board is installed;

A harness terminal housing having an epoxy receiving portion;

A harness terminal fixed to the harness terminal housing so as to protrude from one side of the harness terminal housing and electrically connected to the printed circuit board;

A wire electrically connected to the harness terminal in the epoxy housing part;

An epoxy resin cured by being injected into the epoxy containing portion;

A sealing rail part provided on the harness terminal housing and protruding in the form of a flange along an outer periphery of the harness terminal housing; And

And a housing groove portion provided in the stator housing and formed in the shape of a groove to receive the sealing rail portion,

Wherein the housing groove portion is coupled with the sealing rail portion in a state in which silicone resin is applied,

Wherein the stator housing has a port hole communicating with the harness terminal housing,

And a gap between the harness terminal housing and the stator housing is filled with the silicone resin injected through the port hole.

And a cover coupled to the stator housing to cover the harness terminal housing,

Wherein the cover has a cover groove portion having the same structure as the housing groove portion and a cover hole having the same structure as the port hole,

The cover groove portion is coated with a silicone resin,

And the space between the harness terminal housing and the cover is filled with the silicone resin injected through the cover hole.

It is preferable that the epoxy accommodating portion is formed in a box shape whose one side is open.

Meanwhile, a method for installing a harness for a brushless motor having improved sealing function according to the present invention is a method for installing a harness for a motor,

An epoxy sealing step of injecting and curing an epoxy resin into the epoxy housing part;

Applying a silicone resin to the housing groove portion;

An assembling step performed after the step of applying the silicone resin, wherein the sealing rail part provided in the harness terminal housing in which the electric wire and the harness terminal are assembled is coupled to the housing groove part; And

And filling the gap between the harness terminal housing and the stator housing with the silicone resin through the port hole.

The present invention provides a structure for installing a harness for a brushless motor in which silicone resin applied to a housing groove portion prevents water from being introduced into the stator housing along a primary harness and is injected through a port hole provided in the stator housing, Since the water is filled in the gap between the terminal housing and the stator housing to prevent the moisture from entering the printed circuit board, the moisture is prevented from flowing into the stator housing and the water tightness is almost completely ensured so that the durability of the brushless motor Thereby providing a remarkably improving effect.

1 is a view showing a state where a stator and a harness of a brushless motor according to the present invention are assembled.
Fig. 2 is a view of Fig. 1 taken in another direction. Fig.
3 is an exploded perspective view of the structure shown in FIG.
4 is a cross-sectional view taken along the line IV-IV shown in Fig.
5 is a sectional view taken along the line V-V shown in Fig.
6 is a view showing the structure of the assembly rail part.
7 is a process diagram of a method for installing a harness for a brushless motor according to the present invention.
8 is a view showing a state in which a silicone resin is applied to the stator housing.
9 is a view showing a state in which a silicone resin is injected through the port hole.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a state where a stator and a harness of a brushless motor according to the present invention are assembled. Fig. 2 is a view of Fig. 1 taken in another direction. Fig. 3 is an exploded perspective view of the structure shown in FIG. 4 is a cross-sectional view taken along the line IV-IV shown in Fig. 5 is a sectional view taken along the line V-V shown in Fig. 6 is a view showing the structure of the assembly rail part. 7 is a process diagram of a method for installing a harness for a brushless motor according to the present invention. 8 is a view showing a state in which a silicone resin is applied to the stator housing. 9 is a view showing a state in which a silicone resin is injected through the port hole.

1 to 9, a harness mounting structure for a brushless motor (hereinafter referred to as "harness mounting structure") having an improved sealing function according to a preferred embodiment of the present invention is a structure in which a brushless motor To an installation structure of a wiring harness.

The harness mounting structure includes a stator housing 20, a cover 40, a harness terminal housing 50, a harness terminal 56, a wire 58, a sealing rail portion 54, 22, a port hole 24, a cover groove portion 42, and a cover hole 44.

The stator housing 20 belongs to a stator constituting a brushless motor. A printed circuit board (30) is installed inside the stator housing (20). The stator housing 20 is a component having one side opened and a receiving space inside. The stator housing 20 may be manufactured by injection molding aluminum die casting or synthetic resin.

The cover 40 is a component that covers and closes the open portion of the stator housing 20. The cover 40 is fixed to the stator housing 20 via a plurality of bolts or screws.

The harness terminal housing 50 is installed inside the stator housing 20. The harness terminal housing 50 includes an epoxy accommodating portion 52. The epoxy accommodating portion 52 may be formed in a box shape having at least one side opened. The harness terminal housing 50 may be manufactured by injection molding a synthetic resin. The harness terminal housing 50 is provided with a hole through which the electric wire 58 passes. The harness terminal housing 50 is provided with a hole on which a harness terminal 56 is provided.

The harness terminal 56 is disposed to protrude from one side of the harness terminal housing 50. The harness terminal 56 is fixed to the harness terminal housing 50. The harness terminal 56 may be integrally fixed to the harness terminal housing 50 by insert injection. The harness terminal 56 is electrically connected to the printed circuit board 30.

The electric wire 58 is installed to be electrically connected to the harness terminal 56 in the epoxy accommodating portion 52. For example, the electric wire 58 may be electrically connected to the harness terminal 56 by soldering.

The sealing rail portion 54 is provided in the harness terminal housing. The sealing rail portion 54 is formed in a flange shape along the outer periphery of the harness terminal housing 50. The sealing rail portion 54 is a portion directly assembled with the stator housing 20 and the cover 40.

The housing groove portion 22 is provided in the stator housing 20. The housing groove portion 22 is formed in the shape of a groove to receive the sealing rail portion 54. A silicone resin (70) is applied to the housing groove portion (22). The silicone resin 70 applied to the housing groove 22 may be applied by the applicator 100. The housing groove portion 22 is engaged with the sealing rail portion 54 in a state in which the silicone resin 70 is applied.

The port hole (24) is provided in the stator housing (20). The port hole 24 is formed to penetrate the inside and the outside of the stator housing 20 so as to be connected to the harness terminal housing 50. A silicone resin 70 is injected through the port hole 24 to fill and seal a gap between the stator housing 20 and the harness terminal housing 50. The silicone resin 70 injected through the port hole 24 maintains the stator housing 20 and the harness terminal housing 50 firmly adhered to each other.

The epoxy housing part 52 is filled with the epoxy resin 60 by being hardened while the harness terminal 56 and the electric wire 58 are connected. The epoxy resin 60 filled in the epoxy accommodating portion 52 blocks external moisture from flowing into the printed circuit board 30 due to moisture contained in the coating of the electric wire 58.

The cover 40 is coupled to the stator housing 20 so as to cover the harness terminal housing 50. The cover (40) has a cover groove (42) formed in the form of a groove to receive the sealing rail (54). The cover 40 has a cover hole 44 having the same structure as the port hole 24. The cover groove portion 42 may be coated with a silicone resin 70. The cover 40 and the stator housing 20 are coupled to each other by the bolts or screws while being coupled to the cover groove 42 so that the stator housing 20 and the cover 40 ). Further, the sealing rail portion is sealed and adhered by the silicone resin 70. In addition, the silicone resin 70 is injected through the cover hole 44 to fill the gap between the harness terminal housing 50 and the cover 40, thereby maintaining the sealing and adhesive effect.

Hereinafter, the operation and effect of the present invention will be described in detail with reference to a process of installing the harness for a brushless motor as described above.

The method for installing the harness for a brushless motor includes an epoxy sealing step S1, a silicone resin applying step S2, an assembling step S3, and a silicone resin filling step S4.

First, in the epoxy sealing step S1, the electric wire and the harness terminal 56 are electrically connected. The electric wire 58 and the harness terminal 56 are electrically connected by soldering while the epoxy housing 52 of the harness terminal housing 50 is empty. The epoxy containing portion 52 is sealed and filled by injecting and curing the epoxy resin 60 having fluidity in a state where the electric wire 58 and the harness terminal 56 are electrically connected. The epoxy resin 60 filled in the epoxy accommodating portion 52 is excellent in adhesion performance as compared with the hot melt used in the past, so that the adhesion and sealability with the stator housing 20 are improved. The stator housing (20) is provided with the printed circuit board (30). The printed circuit board 30 may be fixed to the stator housing 20 through bolts or screws.

In the silicone resin application step (S2), the silicone resin (70) is applied to the housing groove portion (22). The silicone resin 70 applied to the housing groove 22 may be automatically applied by a robot. In some cases, the silicone resin 70 may be applied to the cover groove 42 in the step S2 of applying the silicone resin. The step S2 of applying the silicone resin can be easily understood with reference to Fig.

The assembling step S3 is performed after the silicone resin applying step S2. In the assembling step S3, after the electric wire 58 and the harness terminal 56 are assembled, the sealing rail portion 54 provided in the harness terminal housing 50 sealed by the epoxy resin 60 And is coupled to the housing groove portion 22. Further, the cover 40 is assembled so that the sealing rail portion 54 is engaged with the cover groove portion 42. The cover (40) and the stator housing (20) are firmly fixed using bolts or screws.

The filling step (S4) of the silicone resin is performed after the assembling step (S3). In the silicone resin filling step S4, the gap between the stator housing 20 and the harness terminal housing 50 is filled with the silicone resin 60 through the port hole 24. The gap between the cover (40) and the harness terminal housing (50) is filled with the silicone resin (70) through the cover hole (44). The port hole 24 and the cover hole 44 are closed by the filled silicone resin 70. The silicone resin filled in the space between the harness terminal housing 50 and the stator housing 20 and between the harness terminal housing 50 and the cover 40 is sealed and adhered to the harness terminal housing 50, So that moisture is prevented from flowing into the printed circuit board 30.

The sealing rail part 54 is sealed by the silicone resin 70 applied to the housing groove part 22 and the cover groove part 42 and the harness terminal housing 50 is sealed by the port hole 24, And the silicone resin 70 injected through the cover hole 44 are filled. In particular, the male / female assembly structure between the housing groove portion 22 and the sealing rail portion 54 and the adhesion performance of the silicone resin 70 are improved, thereby providing an effect of significantly enhancing the sealing function. In addition, the epoxy resin 60 filled in the epoxy accommodating portion 52 is excellent in adhesion to the cover 40, thereby providing an effect of improving the sealing and moisture barrier function.

As described above, the harness mounting structure for a brushless motor according to the present invention is structured such that the silicone resin applied to the housing groove portion primarily blocks moisture from flowing into the stator housing along the harness, Holes are filled in gaps between the harness terminal housings and the stator housings to prevent water from being introduced into the printed circuit board in a secondary manner, thereby preventing moisture from being introduced into the stator housing from the beginning, Thereby providing an effect of remarkably improving the durability of the brushless motor.

While the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not to be limited by the example, and various changes and modifications may be made without departing from the spirit and scope of the invention.

20: Stator housing
22: housing housing part
24: Port hole
30: printed circuit board
40: cover
42: Cover groove
44: Cover hole
50: harness terminal housing
52: Epoxy housing part
54: Sealing rail part
56: Harness terminal
58: Wires
60: Epoxy resin
70: silicone resin
S1: Epoxy sealing step
S2: Epoxy resin application step
S3: Assembly phase
S4: Silicone resin filling step

Claims (4)

As an installation structure of a harness for supplying power to a brushless motor,
A stator housing in which a printed circuit board is installed;
A harness terminal housing provided inside the stator housing and having an epoxy accommodating portion;
A harness terminal fixed to the harness terminal housing so as to protrude from one side of the harness terminal housing and electrically connected to the printed circuit board;
A wire electrically connected to the harness terminal in the epoxy housing part;
An epoxy resin cured by being injected into the epoxy containing portion;
A sealing rail part provided on the harness terminal housing and protruding in the form of a flange along an outer periphery of the harness terminal housing; And
And a housing groove portion provided in the stator housing and formed in the shape of a groove to receive the sealing rail portion,
Wherein the housing groove portion is coupled with the sealing rail portion in a state in which silicone resin is applied,
Wherein the stator housing has a port hole communicating with the harness terminal housing,
Wherein a clearance between the harness terminal housing and the stator housing is filled with silicone resin injected through the port hole. The method according to claim 1,
And a cover coupled to the stator housing to cover the harness terminal housing,
Wherein the cover has a cover groove portion formed in the form of a groove to receive the sealing rail portion and a cover hole having the same structure as the port hole,
Wherein a clearance between the harness terminal housing and the cover is filled with silicone resin injected through the cover hole. The method according to claim 1,
Wherein the epoxy accommodating portion is formed in a box shape having one side opened. The harness mounting structure for a brushless motor with improved sealing function. A method for installing a motor harness according to claim 1,
An epoxy sealing step of injecting and curing an epoxy resin into the epoxy housing part;
Applying a silicone resin to the housing groove portion;
An assembling step performed after the step of applying the silicone resin, wherein the sealing rail part provided in the harness terminal housing in which the electric wire and the harness terminal are assembled is coupled to the housing groove part; And
And filling the gap between the harness terminal housing and the stator housing with the silicone resin through the port hole. The method of claim 1, wherein the silicone resin filling step is performed after the assembling step.

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