KR20210150873A - Brushless Direct Current Motor Assembly - Google Patents

Abstract

Provided is a brushless direct current (DC) motor assembly to provide increased waterproof and moisture-proof efficiency. According to the present invention, the brushless DC motor assembly comprises: a brushless DC motor including a stator coil module, a permanent magnet, a shaft, and a circuit board; a housing frame provided to surround the stator coil module and the permanent magnet while exposing a part of the shaft disposed on one end side and the circuit board disposed at the other end side of the brushless DC motor and coupled to the shaft to rotate together; a first bracket disposed to cover the circuit board of the other end side of the brushless DC motor and serving to fix the shaft of the other end side of the brushless DC motor; a second bracket coupled to the first bracket and provided to surround the brushless DC motor and the housing frame and exposing a part of the housing frame including the part of the shaft exposed by the housing frame; a fan blade provided in the inner space formed by the outer rim of the second bracket while being coupled to the part of the shaft exposed by the housing frame; and a sealing packing provided between the second bracket and the fan blade to seal a space between the housing frame and the second bracket and the fan blade.

Description

Brushless Direct Current Motor Assembly

The present invention relates to a brushless DC motor assembly, and more particularly, to a brushless DC motor assembly having improved waterproof and moisture-proof efficiency.

In general, brushless direct current (BLDC) motors do not use mechanical contact parts such as brushes and commutators. It means a direct current motor.

Such a brushless DC motor includes a stator provided in a fixed state, a rotor rotating by a magnetic field provided from the stator while integrally coupled to a shaft that is a rotating shaft, and magnetized on the rotor side. It is configured to include a permanent magnet, a circuit board on which circuit elements for controlling various operations are mounted, and a motor housing forming an external appearance.

In particular, the brushless DC motor is mainly used in various electronic products because it can control the operation. Examples of such a brushless DC motor include Patent Publication No. 10-1999-0041082 and Utility Model Publication No. 20-1998-016225.

On the other hand, a brushless DC motor assembly using such a brushless DC motor may cause an electrical short and There were problems such as mechanical corrosion.

Laid-open Patent No. 10-1999-0041082 Public Utility Model No. 20-1998-0016225

An object of the present invention is to provide a brushless DC motor assembly having improved waterproof and moisture-proof efficiency.

The problem to be solved by the present invention is not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides a brushless DC motor. This brushless DC motor assembly is a brushless DC motor comprising a stator coil module, a permanent magnet, a shaft and a circuit board, a stator coil module while exposing a part of a shaft at one end side of the brushless DC motor and a circuit board at the other end side and a permanent magnet provided to surround the housing frame, which is coupled to the shaft and rotates together, and is disposed to cover the circuit board of the other end side of the brushless DC motor while fixing the shaft of the other end side of the brushless DC motor a second bracket that is provided to surround the brushless DC motor and the housing frame while being coupled to the first bracket, exposing a portion of the housing frame including a portion of the shaft exposed by the housing frame, the housing frame A fan blade provided in the inner space formed by the outer rim of the second bracket while being coupled to a portion of the shaft exposed by the It may include a sealing packing.

The brushless DC motor assembly may further include a lubrication packing provided between the fan vane and the sealing packing and between the fan vane and a second bracket adjacent to the sealing packing. The lubricating packing may be vacuum grease.

The first bracket may include an opening for receiving a harness for electrically connecting the circuit board to an external power source.

The housing frame may further have a plurality of ventilation holes formed to radially surround a portion of the shaft exposed by the housing frame. The housing frame may further include protruding blades having a shape protruding from the outer periphery of each of the plurality of ventilation holes toward the brushless DC motor.

The fan blades may be propeller type.

The brushless DC motor assembly may further include a third bracket coupled to the second bracket to cover an outer periphery of the fan blade. The fan wings may be sirocco type.

The sealing packing may be rubber.

As described above, according to the means for solving the problems of the present invention, the brushless DC motor assembly has a sealing provided between the second bracket and the fan blade to seal between the housing frame, the second bracket, and the fan blade. By including sealing packing, it is possible to block moisture or moisture flowing into the brushless DC motor through the space between the second bracket and the fan blade. Accordingly, a brushless DC motor assembly having improved waterproof and moisture-proof efficiency capable of preventing electrical short circuit and mechanical corrosion from occurring may be provided.

In addition, according to a solution to the problem of the present invention, the brushless DC motor assembly further includes a lubrication packing provided between the fan blade and the sealing packing and between the second bracket and the fan blade adjacent to the sealing packing, so that the second bracket and the fan Through the space between the blades, moisture or moisture flowing into the brushless DC motor can be completely blocked. Accordingly, a brushless DC motor assembly having a substantially waterproof structure capable of preventing an electrical short circuit and mechanical corrosion from occurring may be provided.

1 is a three-dimensional view for explaining a brushless DC motor assembly according to an embodiment of the present invention.
2 is a three-dimensional exploded view illustrating a brushless DC motor assembly according to an embodiment of the present invention.
3 is a three-dimensional view taken along line AA′ of FIG. 1 to explain the brushless DC motor assembly according to an embodiment of the present invention.
4 is a three-dimensional view for explaining a brushless DC motor assembly according to another embodiment of the present invention.
5 is a three-dimensional view taken along line BB′ of FIG. 4 to explain a brushless DC motor assembly according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and a method of achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described herein, and may be embodied in different forms. Rather, the embodiments introduced herein are provided so that this disclosure may be thorough and complete, and the spirit of the present invention may be sufficiently conveyed to those skilled in the art, and the present invention is only defined by the scope of the claims.

Like reference numerals refer to like elements throughout. Accordingly, the same or similar reference signs may be described with reference to other drawings, even if not mentioned or described in the drawings. In addition, although reference signs are not indicated, description may be made with reference to other drawings.

The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, 'comprises' and/or 'comprising' refers to the presence of one or more other components, steps, operations and/or devices mentioned. or addition is not excluded. In addition, since it is according to a preferred embodiment, reference signs provided in the order of description are not necessarily limited to the order. In addition, in this specification, when a certain film is referred to as being on another film or substrate, it means that it may be directly formed on the other film or substrate or a third film may be interposed therebetween.

When an element is referred to as 'connected to' or 'coupled to' with another element, it means that another element is directly connected or combined with another element or in the middle. Includes all cases involving On the other hand, when one element is referred to as 'directly connected to' or 'directly coupled to' with another element, it indicates that another element is not interposed therebetween. 'and/or' includes each and every combination of one or more of the recited items.

Spatially relative terms 'below', 'beneath', 'lower', 'above', 'upper', etc. are one It can be used to easily describe the correlation of a device or components with other devices or components. Spatially relative terms should be understood as terms including different orientations of the device in use or operation in addition to the orientation shown in the drawings. For example, if the device shown in the figure is turned over, a device described as 'beneath' or 'beneath' of another device may be placed 'above' of the other device. Accordingly, the exemplary term 'down' may include both the direction of the bottom and the top. The device may also be oriented in other orientations, and thus spatially relative terms may be interpreted according to orientation.

Further, the embodiments described herein will be described with reference to cross-sectional and/or plan views, which are ideal illustrative views of the present invention. In the drawings, thicknesses of films and regions are exaggerated for effective description of technical content. Accordingly, the shape of the illustrative drawing may be modified due to manufacturing technology and/or tolerance. Accordingly, the embodiments of the present invention are not limited to the specific form shown, but also include changes in the form generated according to the manufacturing process. For example, the etched region shown at a right angle may be rounded or may have a predetermined curvature. Accordingly, the regions illustrated in the drawings have a schematic nature, and the shapes of the illustrated regions in the drawings are intended to illustrate specific shapes of regions of the device and not to limit the scope of the invention.

1 is a three-dimensional view for explaining a brushless DC motor assembly according to an embodiment of the present invention, FIG. 2 is a three-dimensional exploded view for explaining a brushless DC motor assembly according to an embodiment of the present invention, and FIG. 3 is a three-dimensional view taken along line AA′ of FIG. 1 to describe a brushless DC motor assembly according to an embodiment of the present invention.

1 to 3 , the brushless DC motor assembly 100 includes a brushless DC motor 110 , a housing frame 120 , a first bracket 130 , a second bracket 140 , and a fan blade 150 . ) and a sealing packing 160 may be included.

The brushless DC motor 110 may include a stator coil module 112 , a permanent magnet 114 , a shaft 116 , and a circuit board 118 .

The stator coil module 112 may rotate an internal rotor by forming a magnetic field according to power supply. The stator coil module 112 is formed to have an open central portion. At this time, the rotor may be provided to pass through the center of the stator coil module 112 so that the rotor is rotated by the formation of a magnetic field according to power supply. The shaft 116 may be physically connected to the rotor to rotate according to the rotation of the rotor. Of course, the rotor may be configured as an external rotor installed to surround the outside of the stator coil module 112 .

The permanent magnet 114 may provide a magnetic force for rotating the rotor of the stator coil module 112 .

The circuit board 118 may receive a signal according to the operation control from the outside to control the rotation operation of the rotor of the stator coil module 112 . The circuit board 118 may be a printed circuit board (PCB).

The housing frame 120 includes a stator coil module 112 and a permanent magnet 114 while exposing a part of the shaft 116 at one end of the brushless DC motor 110 and the circuit board 118 at the other end of the brushless DC motor 110 . It may be provided to surround. That is, the circuit board 118 may be physically fixed to the stator coil module 112 while being provided to block the other end of the brushless DC motor 110 opened by the housing frame 120 .

The housing frame 120 is coupled to the shaft 116 at one end of the brushless DC motor 110 to rotate together. The housing frame 120 and the shaft 116 may be physically coupled to each other by a forced press-fit method. In addition, the permanent magnet 114 may also be physically coupled to the housing frame 120 by a press-fit method. Accordingly, the housing frame 120 and the shaft 116 physically coupled to the housing frame 120 are rotated by the magnetic field formed by the stator coil module 112 of the brushless DC motor 110 receiving power supply. can

The first bracket 130 serves to fix the shaft 116 on the other end side of the brushless DC motor 110 while being disposed to cover the circuit board 118 on the other end side of the brushless DC motor 110 . can be done The first bracket 130 may have a cylindrical protruding cylinder protruding toward the brushless DC motor 110 in the center. Accordingly, the protruding cylinder of the first bracket 130 passes through the center of the stator coil module 112 to fix the shaft 116 of the brushless DC motor 110 . The first bracket 130 may include an opening 132 for receiving a harness for electrically connecting the circuit board 118 to an external power source.

The second bracket 140 is provided to surround the brushless DC motor 110 and the housing frame 120 while being coupled to the first bracket 130 , and a portion of the shaft 116 exposed by the housing frame 120 . A portion of the housing frame 120 including the may be exposed. The second bracket 140 may be coupled to each other by a screw method with the first bracket 130 . The first bracket 130 and the second bracket 140 of the brushless DC motor assembly 100 according to an embodiment of the present invention are not limited thereto, and the ultrasonic welding method, the thermal welding method, the hook method and the adhesion method are not limited thereto. They may be coupled to each other by various methods such as a method and the like.

The second bracket 140 may correspond to the outer body of the brushless DC motor assembly 100 to protect the internal configuration of the brushless DC motor assembly 100 from the outside. The second bracket 140 may be mounted on a desired part of the product to which the brushless DC motor assembly 100 is applied through a screw method.

The fan blade 150 may be provided in an inner space formed by the outer rim of the second bracket 140 while being coupled to a portion of the shaft 116 exposed by the housing frame 120 . The fan blade 150 may be of a propeller type. However, the brushless DC motor assembly 100 according to an embodiment of the present invention is not limited thereto, and various types of fan blades may be employed.

The sealing packing 160 may be provided between the second bracket 140 and the fan blade 150 to seal between the housing frame 120 , the second bracket 140 , and the fan blade 150 . The sealing packing 160 may be rubber. Accordingly, the sealing packing 160 of the brushless DC motor assembly 100 according to an embodiment of the present invention seals the space between the housing frame 120 , the second bracket 140 and the fan blade 150 . Therefore, moisture or moisture flowing into the brushless DC motor 110 through the space between the second bracket 140 and the fan blade 150 by the rotation of the fan blade 150 may be blocked.

The brushless DC motor assembly 100 includes a lubrication packing 165 provided between the fan blade 150 and the sealing packing 160 and between the second bracket 140 and the fan blade 150 adjacent to the sealing packing 160 . may further include. The lubricating packing 165 may be vacuum grease. Between the second bracket 140 near the sealing packing 160 and the fan blade 150 may have an interlocking concavo-convex shape of a double structure in a stepped form, and the lubricating packing 165 is a space between the interdigitated concavo-convex shape. can be provided on In the axial direction use condition of the brushless DC motor 110, the lubrication packing 165 moves to both sides of the convex shape of the fan blade 150, and the second bracket 140 and the fan blade 150 near the sealing packing 160 ) can seal the space between them. Accordingly, the lubricating packing 165 of the brushless DC motor assembly 100 according to an embodiment of the present invention is a space between the fan blade 150 and the sealing packing 160 and the second adjacent to the sealing packing 160 . Since the space between the bracket 140 and the fan blade 150 is sealed, the brushless DC motor 110 passes through the space between the second bracket 140 and the fan blade 150 by the rotation of the fan blade 150 . ) can completely block moisture or moisture from entering.

While the conventional brushless DC motor assembly takes a form in which a brushless DC motor is built into a single bracket, the brushless DC motor assembly 100 according to an embodiment of the present invention can create a separate enclosed space. Since the brushless DC motor 110 is built in a structure separated by the first bracket 130 and the second bracket 140 so that it is possible, it is possible to have improved waterproof and moisture-proof efficiency.

The housing frame 120 may further include a plurality of ventilation holes 122 formed to radially surround a portion of the shaft 116 exposed by the housing frame 120 . The plurality of ventilation holes 122 may generate air flow by rotation of the housing frame 120 by driving the brushless DC motor 110 . Accordingly, the problem of heat generated by driving the brushless DC motor 110 can be solved.

The housing frame 120 may further include protruding blades 124 having a shape protruding from the outer periphery of each of the plurality of ventilation holes 122 toward the brushless DC motor 110 . The protruding blade 124 disturbs the flow of air generated by the housing frame 120 rotating by the driving of the brushless DC motor 110 and at the same time is brushless through the opening 132 of the first bracket 130 . Heat generated due to the driving of the DC motor 110 may be discharged. Accordingly, the problem of heat generated by driving the brushless DC motor 110 can be more efficiently solved.

4 is a three-dimensional view for explaining a brushless DC motor assembly according to another embodiment of the present invention, and FIG. 5 is a line BB' of FIG. 4 for explaining a brushless DC motor assembly according to another embodiment of the present invention. It is a three-dimensional view cut along

4 and 5 , in the brushless DC motor assembly 200 according to another embodiment of the present invention, a third bracket 170 is added to the brushless DC motor assembly 100 according to the embodiment of the present invention. ) may be further included.

The third bracket 170 may be provided to cover the outer peripheral portion of the fan blade 150 while being coupled to the second bracket 140 . The third bracket 170 may be coupled to each other by a screw method with the second bracket 140 . The third bracket 170 may correspond to the upper outer body of the brushless DC motor assembly 200 to protect the internal configuration of the brushless DC motor assembly 200 together with the second bracket 140 from the outside.

The fan blade 150 may be of a sirocco type. However, the brushless DC motor assembly 200 according to an embodiment of the present invention is not limited thereto, and various types of fan blades may be employed.

A brushless DC motor assembly according to an embodiment of the present invention includes a housing frame, a sealing packing provided between the second bracket and the fan blade to seal between the second bracket and the fan blade, so that the Through the space between the second bracket and the fan blade, moisture or moisture flowing into the brushless DC motor can be blocked. In addition, the brushless DC motor assembly according to an embodiment of the present invention further includes a lubrication packing provided between the fan blade and the sealing packing and between the second bracket and the fan blade adjacent to the sealing packing, thereby preventing the rotation of the fan blade. Thus, it is possible to completely block moisture or moisture flowing into the brushless DC motor through the space between the second bracket and the fan blades. Accordingly, a brushless DC motor assembly having a substantially waterproof structure capable of preventing an electrical short circuit and mechanical corrosion from occurring may be provided.

In the above, embodiments of the present invention have been described with reference to the accompanying drawings, but those of ordinary skill in the art to which the present invention pertains can practice the present invention in other specific forms without changing its technical spirit or essential features. You can understand that there is Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

100, 200: Brushless DC motor assembly
110: brushless DC motor
112: stator coil module
114: stator
116: shaft
118: circuit board
120: housing frame
122: vent
124 : Blade
130, 140, 170: first, second, third bracket
132: opening
150 : fan wings
160: sealing packing
165: lubrication packing

Claims (10)

Brushless DC motor composed of stator coil module, permanent magnet, shaft and circuit board;
a housing frame provided to surround the stator coil module and the permanent magnet while exposing a portion of the shaft at one end side of the brushless DC motor and the circuit board at the other end side, the housing frame being coupled to the shaft and rotating together;
a first bracket disposed to cover the circuit board at the other end of the brushless DC motor and configured to fix the shaft at the other end of the brushless DC motor;
a second bracket coupled to the first bracket and provided to surround the brushless DC motor and the housing frame, the second bracket exposing a portion of the housing frame including the portion of the shaft exposed by the housing frame;
a fan blade coupled to the part of the shaft exposed by the housing frame and provided in an inner space formed by the outer rim of the second bracket; and
and a sealing packing provided between the second bracket and the fan blade to seal between the housing frame, the second bracket, and the fan blade. The method of claim 1,
and a lubrication packing provided between the fan blade and the sealing packing and between the fan blade and the second bracket adjacent to the sealing packing. 3. The method of claim 2,
The lubricating packing is a vacuum grease brushless DC motor assembly. The method of claim 1,
The first bracket includes an opening for receiving a harness for electrically connecting the circuit board to an external power source. The method of claim 1,
The housing frame further includes a plurality of ventilation holes formed to radially surround the part of the shaft exposed by the housing frame. 6. The method of claim 5,
The housing frame further includes a protruding blade having a shape protruding from the outer periphery of each of the plurality of ventilation holes toward the brushless DC motor. The method of claim 1,
The fan blade is a propeller type brushless DC motor assembly. The method of claim 1,
The brushless DC motor assembly further comprising a third bracket coupled to the second bracket and provided to cover an outer periphery of the fan blade. 9. The method of claim 8,
The fan blade is a sirocco type brushless DC motor assembly. The method of claim 1,
The sealing packing is a brushless DC motor assembly of rubber.

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