KR102189837B1 - Grounding method of stator block with heater sink function - Google Patents

Abstract

The present invention relates to a grounding method of a stator block having a heat sink function, wherein a stator of a motor is fixed, but manufactured by combining a PCB (20) under the stator block (10) having the heat sink function, and the stator block (10), the PCB (20), a rotor, and stator cores are grounded. The present invention has the heat sink function for the PCB which is directly coupled to the lower part by cutting the stator block with aluminum material, thereby not needing to attach a separate heat sink in the related art. In addition, the present invention has a simple structure since the stator block (10), the PCB (20), the rotor, and the stator cores are simultaneously grounded, thereby having a remarkable effect of being economical, having no defects, and capable of using space due to a reduction in the number of components.

Description

Grounding method of stator block with heater sink function}

The present invention relates to a grounding method of the grounding method of a stator block having a heater sinking function, and in more detail, it has a heater sinking function for a PCB directly coupled to the lower part by cutting the stator block with aluminum material. It is not necessary to attach a separate heater sink of the stator block (10), PCB (PCB, 20), rotor and stator cores are simultaneously grounded, so the structure is simple, economical, and free of defects, and space utilization is possible due to reduction in the number of parts. It relates to a grounding method of a stator block having a heater sink function.

In general, an electric motor is mainly used as a power generating means and has been developed. As an example, Registration No. 10-1276415 discloses a stator with a coil wound, a rotor that is installed on one side of the stator and rotates with a rotating shaft. In the mold motor in which the printed circuit board electrically connected to the coil, and the stator, the rotor, and the printed circuit board are protected by a housing formed by resin molding, the IC chip mold mounted on the printed circuit board. At least one fastening hole formed on one side;

A heat sink positioned above the IC chip mold; And

A heat sink holder positioned above the heat sink and coupled to the fastening hole and having the same number of legs as the number of the fastening holes;

Including, a hook is formed at the end of the leg so that when the leg is coupled to the fastening hole, the hook is fixed to the fastening hole, thereby fixing the heat sink holder, and some side surfaces of the inside of the heat sink holder A mold motor, characterized in that a side contact portion in contact with a portion of the side surface of the IC chip mold, and a space portion formed between the other side surface of the heat sink holder and a portion of the heat sink, is disclosed. have.

In addition, registered Patent Publication No. 10-1252117 is disposed at the rear of the motor casing so that the motor casing rotates around the motor shaft, the inner rotor and the outer rotor are integrally formed, and the outer wall of the outer rotor The casing body further provided with a magnet for sensing; A casing cover coupled to the casing body in front of the motor casing; A stator disposed between the inner rotor and the outer rotor, having a stator frame portion and a cap portion made of an aluminum alloy material or tungsten material, and coupling the stator frame portion to the motor shaft; And a control unit installed on the stator frame to control the motor and provided with a Hall sensor for sensing a magnetic field of the sensing magnet,

The Hall sensor is provided with a plurality of electronic circuits in the control unit so that the sensor input order of the Hall sensor is pre-designated, so that a forward signal or a reverse signal is input to the control unit through the Hall sensor during motor operation, Recognizing the reverse operation to the control unit, the control unit is configured as an electronic circuit to induce the motor operation in the forward direction by gradually increasing the motor power when the reverse signal is received by a predetermined number of times through the Hall sensor. Double-rotor and single-stator type BLDC motors are disclosed.

However, since the conventional motor stator block is made of plastic and the heater sink is made of aluminum, manufacturing costs are excessive, space efficiency is low, the grounding structure is complex, and manufacturing is difficult.

Therefore, the present invention was conceived to solve the above problems, and the present invention has a heater sink function for the PCB that is directly coupled to the lower part by cutting the stator block out of aluminum. It does not need to be attached, and the stator block 10, PCB 20, rotor and stator cores are simultaneously grounded together, so the structure is simple, economical, and free of defects. It is to provide a grounding method for the stator block.

The present invention relates to a method of grounding a stator block having a heater sink function, and is manufactured by fixing a stator of a motor, but combining a PCB (20) under the stator block 10 having a function of a heat sink. The stator block 10, PCB 20, the rotor and the stator cores are grounded.

Therefore, the present invention has a heater sink function for the PCB (PCB) that is directly bonded to the lower part by cutting the stator block with aluminum material, so there is no need to attach a separate heater sink, and the stator block 10, PCB ) (20), the rotor and stator cores are simultaneously grounded together, so the structure is simple, economical, and there is no defect, and space utilization is possible due to a reduction in the number of parts.

1 is a top perspective view of a stator block in which a heat sink of the present invention is integrated
2 is a bottom perspective view of a stator block in which a heat sink of the present invention is integrated
Figure 3 is a perspective view of the stator block of the present invention
Figure 4 is a perspective view of the stator of the present invention
5 is a photograph showing a state in which the stator of the present invention and the stator block are combined
Figure 6 is a schematic cross-sectional view for explaining the location of the ground portion is formed in the PCB (PCB) of the present invention
7 is a schematic cross-sectional view for explaining the position where the ground portion is formed in the stator block of the present invention

The present invention relates to a method of grounding a stator block having a heater sink function, and is manufactured by fixing a stator of a motor, but combining a PCB (20) under the stator block 10 having a function of a heat sink. The stator block 10, PCB 20, the rotor and the stator cores are grounded.

In addition, the rotor is characterized in that it is grounded by a bearing installed in the stator block (10).

In addition, the core is characterized in that it is grounded with the stator block (10).

The present invention will be described in detail by the accompanying drawings as follows. 1 is an upper perspective view of a stator block in which a heat sink of the present invention is integrated, FIG. 2 is a lower perspective view of a stator block in which a heat sink of the present invention is integrated, and FIG. 3 is a perspective view of the stator block of the present invention. Figure 4 is a perspective view of the stator of the present invention, Figure 5 is a photograph showing a state in which the stator and the stator block of the present invention are combined, and Figure 6 is a schematic cross-sectional view for explaining the location of the ground portion formed in the PCB (PCB) of the present invention. 7 is a schematic cross-sectional view for explaining the position where the ground portion is formed in the stator block of the present invention.

The present invention is manufactured by integrating the PCB 20 under the stator block 10 for fixing the stator of the motor.

In addition, the stator block 10 is made of aluminum and is precisely manufactured by die casting to function as a heat sink for the PCB 20 below.

The present invention fixes the stator on which the coil of the motor is wound, the stator block, which is an injection part that is the center of the motor, and the heat sink, which is an aluminum part that cools PCB heat. It was integrated into one and unified.

The integrated technology is that the stator block is cut and manufactured with aluminum material, which improves the quality of parts by cutting and processing precise dimensions that cannot be matched by injection, and hits against the PCB marked in green in the drawing on the bottom side. It has a heat sink function at the same time, and space utilization is also possible due to a reduction in the number of parts.

An electrical connector is connected to the lower side of the PCB.

In addition, the coupling method of the stator and the stator block itself is coupled by spreading the metal pieces for coupling formed on the stator in a conventional manner and inserting the stator block therebetween.

In more detail, the coupling method of the stator 40 and the stator block 10 will be described in detail as follows.

The stator 40 includes a pipe-shaped stator body 41 and a plurality of coil winding portions 42 protruding radially from the outer periphery of the stator body 41.

The coil winding part 42 includes a vertical rod 42-1 protruding from the outer periphery of the stator body 41 in a radial direction, and a horizontal rod 42-2 orthogonal to the vertical rod, and The shape is formed in a “T” shape, as shown in FIG. 4.

A coil is wound on a plurality of coil winding portions that radially protrude from the outer periphery of the stator body 41.

Further, a plurality of ring-shaped corings 43 are stacked and coupled to the inner periphery of the stator body, and the corings combined by stacking a plurality of them are formed in a pipe shape.

The plurality of stacked corings has a plurality of guide protrusions 44 formed at the inner periphery.

Two of the guide protrusions are a pair, and the two pairs are formed to be symmetrical to each other.

The stator block 10 includes a lower body 11 formed in a disk shape and a pipe-shaped upper body 12 protruding from the upper portion of the lower body 11.

The upper body of the stator block is formed smaller than the diameter of the stator body of the stator.

A plurality of guide rods 12-1 are formed on the outer periphery of the upper body 12 along the longitudinal direction of the upper body.

Two of the guide rods are a pair, and the two pairs are formed to be symmetrical to each other.

Each of the pair of guide rods has square grooves 12-2 formed on surfaces facing each other.

In addition, the width of the guide rod consisting of a pair of two is formed to be wider than the width of the guide protrusion formed of a pair of two formed on the coring of the stator.

On the other hand, when the upper body of the stator block is coupled to the stator body of the stator, two guide protrusions formed on the stator are positioned between the guide rods formed in a pair of two formed on the stator block.

Further, the guide protrusion is formed by stacking a plurality of guide protrusions, and a part of the guide protrusion is inserted to be inserted into a square groove formed on the guide rod by a hand tool.

Thus, the stator and the stator block are combined.

And a plurality of bearings are installed inside the pipe-shaped upper body. A rotating shaft of a motor is coupled to the bearing.

In addition, a PCB (PCB) substrate is installed under the stator block.

And the present invention relates to a method of grounding a stator block having a heater sink function, which fixes the stator of the motor, but is manufactured by combining a PCB (20) under the stator block 10 having a heat sink function, The stator block 10, the PCB 20, the rotor and the stator cores are grounded. The grounding part itself is a common grounding structure.

The rotor is grounded by a bearing installed in the stator block 10.

The core is grounded with the stator block 10.

As an example, in FIG. 6, a ground portion is formed on a PCB, and a total of four ground portions are formed, one at each corner of a square. Correspondingly, as shown in FIG. 7, four of the stator blocks are formed radially at equal intervals in the circle of the stator block and are grounded to each other.

Therefore, the present invention has a heater sink function for the PCB (PCB) that is directly coupled to the bottom of the stator block by cutting it out of aluminum, so there is no need to attach a separate heater sink, and the stator block 10, PCB ) (20), the rotor and stator cores are simultaneously grounded together, so the structure is simple, economical, and there is no defect, and space utilization is possible due to a reduction in the number of parts.

10: stator block 11: lower body
12: upper body 12-1: guide rod
12-2: Square groove
20: PCB
30: connector
40: stator
41: stator body 42: coil winding portion
42-1: vertical bar 42-2: horizontal bar
43: coring 44: guide protrusion
1: PCB grounding part 2: Stator block grounding part

Claims (3)

While fixing the stator of the motor, it is manufactured by combining a PCB 20 under the stator block 10 having a function of a heat sink, the stator block 10, the PCB 20, the rotor and the stator In the grounding method of a stator block having a heater sink function in which the core is grounded,
The stator block 10 is made of aluminum and is precisely manufactured by die-casting to function as a heat sink for the PCB 20 at the bottom, and the stator 40 on which the coil of the motor is wound. It is a combination of the functions of the stator block, which is an injection part that is fixed and becomes the center of the motor, and the heater sink, which is an aluminum part that cools the PCB, and the PCB ), an electrical connector is connected to one side of the lower side, and the coupling method of the stator and the stator block is that the stator block is inserted and coupled by spreading the metal pieces for coupling formed on the stator, and the stator 40 is a pipe-shaped stator. Consisting of a body 41 and a plurality of coil winding portions 42 protruding radially from the outer periphery of the stator body 41, the coil winding portion 42 has a radius at the outer periphery of the stator body 41 It consists of a vertical bar 42-1 protruding in the direction and a horizontal bar 42-2 orthogonal to the vertical bar, the shape of which is formed in a “T” shape, and the outside of the stator body 41 A coil is wound on a plurality of coil windings protruding radially from the periphery, and a plurality of ring-shaped corings 43 are stacked and coupled to the inner periphery of the stator body, formed in a pipe shape, and a plurality of stacked cores The ring has a plurality of guide protrusions 44 formed on the inner periphery, the guide protrusions are a pair of two, the two pairs are formed to be symmetrical to each other, and the stator block 10 is a lower body 11 formed in a disk shape And, consisting of a pipe-shaped upper body 12 protruding from the upper portion of the lower body 11, the upper body of the stator block is formed smaller than the diameter of the stator body of the stator, outside of the upper body 12 A plurality of guide rods 12-1 are formed along the longitudinal direction of the upper body at the periphery, and two guide rods are a pair, and two pairs are formed symmetrically to each other, and the pair of guide rods face each other. Buy each on noodles Each groove (12-2) is formed, the width of the guide rod consisting of a pair of two is formed wider than the width of the guide protrusions consisting of two pairs formed in the coring of the stator,
When the upper body of the stator block is coupled to the stator body of the stator, a guide protrusion consisting of two pairs formed on the stator is positioned between the guide rods formed in a pair of two formed on the stator block, and the guide protrusions are plural. It is formed by stacking, and a part of the guide protrusion is inserted to be inserted into a square groove formed on the guide rod by a hand tool, and the stator and the stator block are combined, and a plurality of bearings are installed inside the pipe-shaped upper body, Grounding method of a stator block having a heater sink function, characterized in that a rotation shaft of a motor is coupled to the bearing and a PCB substrate is installed under the stator block delete delete

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