KR102186621B1 - Motor heat dissipation structure - Google Patents

Abstract

The present invention is to provide a motor heat dissipation structure having a better heat dissipation effect. According to the present invention, provided is a motor heat dissipation structure, in which intake and exhaust ports are installed in a motor, a rotating shaft is installed in the motor, a fan is fixed at the rear end of the rotating shaft, the fan includes a plurality of blades, the plurality of blades form an annular shape around the axis of the rotating shaft and are installed outside a circumferential direction of the rotating shaft at equal intervals, while the exhaust port is located outside a circumferential direction of the fan, the intake port is located on the front side of the exhaust port, the motor includes an enclosure unit located outside the circumferential direction of the fan, and the exhaust port is installed in the enclosure unit. The distance between an inner wall in a circumferential direction of the enclosure unit and the outer side in the circumferential direction of the fan gradually increases from one end of the exhaust port to the other end of the exhaust port along the rotating shaft direction.

Description

Motor heat dissipation structure {MOTOR HEAT DISSIPATION STRUCTURE}

The present invention relates to a motor, and more particularly, to a motor heat dissipation structure.

A motor is a power machine that is widely applied. He converts electrical energy into mechanical energy and drives various mechanical equipment to operate. In the process of converting motor energy, some energy is lost in the form of heat in the windings. In this case, the energy converted to heat generates heat from the motor, so that if there is no timely heat dissipation, the insulation of the motor winding is damaged, resulting in a short circuit or other failure affecting the motor, making it impossible to operate normally; In order to ensure the normal operation of the motor, a heat radiation rib is installed in the motor case and a heat radiation fan is further installed at the rear of the rotating shaft of the motor, thereby controlling the temperature rise during the motor operation process within a certain range. Here, intake ports and exhaust ports are provided at the front end and rear end surfaces of the motor, respectively, and air is moved through an axial heat radiating fan to radiate heat.

However, in a situation where the operating environment temperature is relatively high, the motor is operated and stopped, or the forward and reverse rotation is relatively frequent, and the motor is connected and operated for a long period of time, the heat dissipation structure is Because it is impossible to guarantee the control within the allowable temperature increase for the motor, the motor cannot be operated stably for a long period of time.

An object of the present invention is to provide a motor heat dissipation structure having a better heat dissipation effect.

In order to achieve the above object of the present invention, the present invention adopts the following technical solutions, in which an intake port and an exhaust port are installed in the motor, a rotating shaft is installed in the motor, a fan is fixed at a rear end of the rotating shaft, and the fan is It includes a plurality of blades, and the plurality of blades form an annular shape around the axis of the rotation axis and are installed outside the circumferential direction of the rotation axis at equal intervals, the exhaust port is located outside the circumferential direction of the fan, and the intake port is Located on the front side, the motor includes an enclosing part located outside the fan circumferential direction, and the exhaust port is installed in the enclosing part, and the inner wall of the enclosing part in the circumferential direction and the outer edge in the fan circumferential direction A motor heat dissipation structure is provided, characterized in that the distance therebetween gradually increases from one end of the exhaust port to the other end of the exhaust port along the rotational axis direction.

By inducing the air to move from the intake port toward the exhaust port through rotation of the fan, air flow is generated in the motor to remove heat; When the air moves to the rear end of the motor, the air moves to the exhaust port along the space between the fan and the enclosure. Installation of the enclosure not only induces air, but also increases the distance between the inner wall of the enclosure and the fan (distance from the rotating shaft) to facilitate exhaustion of the hot air, and accumulates the hot air to form wind pressure, resulting in a heat dissipation effect. Improves.

Preferably, the inner edge of the enclosing part has a circular shape, and the axis of the enclosing part is eccentric with the axis of the fan. The installation is convenient not only for induction to air, but also for manufacturing, processing and assembling the motor.

Preferably, the fan includes a blocking part, the blocking part is located at the rear side in the axial direction of the blade, the motor has a circular groove that passes back and forth to yield a seat to the blocking part, and the outer edge of the blocking part is circular The blocking portion is located in the circular groove, and has a gap between the outer wall in the circumferential direction of the blocking portion and the inner groove wall in the circular groove direction. If the circular groove is not installed, there is a certain distance between the fan at the rear end of the motor and the inner wall in the axial direction of the motor, which affects the discharge of hot air, and some of the hot air moves between the fan and the inner wall in the axial direction of the motor. The installation increases the amount of hot air discharged more smoothly.

Preferably, the outer edge of the wing is located outside the circumferential direction of the outer edge in the circumferential direction of the blocking portion. The blades are used to induce hot air, and air is introduced into the gap between the circular groove and the blocking part to reduce the influence on the flow direction of the hot air, thereby ensuring the flow rate of hot air.

Preferably, all of the rear ends of the outer edge of the wing form a gap. This installation prevents disturbances when the fan rotates.

Preferably, an induction block is installed at a rear end of the motor, and the induction block forms an exhaust groove communicating with the exhaust port, and the direction of the exhaust groove is the same as the rotation direction of the rotation shaft. This installation improves the effect of dissipating hot air.

Preferably, the blade of the fan includes an inner section and an outer section, the inner end of the outer section is connected to the inner section, and the outer end of the outer section extends away from the rotational axis direction. . The above installation further realizes induction of hot air and improves the effect of dissipating hot air.

Preferably, the outer section has an arc shape, and the arc-shaped opening of the outer section faces away from the rotational axis direction. This installation improves the heat dissipation effect by increasing the amount of hot air emitted by increasing the distance from the hot air between the two adjacent wings.

Preferably, the rear end of the motor is provided with a rear cover body and a cover housing, the cover housing is located at a rear side in the axial direction of the rear cover body, the circular groove is installed in the cover housing, and the enclosing part is installed in the rear cover body. Alternatively, it is installed in the cover housing, and the rear cover body passes back and forth to form a plurality of through holes through which gas passes, and a bearing chamber is formed in the rear cover body to fix the rotating shaft with a bearing. The above installation makes it convenient to manufacture and assemble the motor according to the present invention.

Preferably, a shielding part is installed in the circumferential direction of the enclosing part or outside the circumferential direction, and the shielding part and the enclosing part are respectively installed at the rear end cover body and the cover housing; The cover housing is fixed to the rear side of the rear cover body through a buckle structure, the buckle structure includes a male buckle and a female buckle, the male buckle is installed in the enclosing part, and the shielding part is outside the circumferential direction of the enclosing part. It is located in The above installation makes it convenient to manufacture and assemble the motor according to the present invention.

The present invention has the advantage of implementing a better heat dissipation effect by further increasing the amount of heat air discharged.

1 is a schematic structural diagram of a motor according to the present invention;
2 is an axial perspective view of a motor according to the present invention;
3 is a radial perspective view according to the invention;
4 is a schematic structural diagram of a cover housing according to the present invention;
5 is a structural example of a rear cover body according to the present invention;
6 is a structural example diagram of a fan according to the present invention.

Hereinafter, the present invention will be described in more detail based on the drawings and specific embodiments.

1 to 6, the motor heat dissipation structure provided by the present invention has an intake port 11 and an exhaust port 12 installed in the motor 1, and a rotating shaft 2 installed in the motor 1 The fan (3) is fixed to the rear end of the rotation shaft (2), and the fan (3) includes a plurality of blades 31, and the plurality of blades 31 form an annular shape around the axis of the rotation shaft 2 At the same time, the exhaust port 12 is located outside the circumferential direction of the fan 3 and the intake port 11 is located at the front side of the exhaust port 12 at the same interval.

The rear cover train is installed at the rear end of the motor (1), the rear cover train includes the rear cover body 4 and the cover housing 5, and the cover housing 5 is located at the rear of the rear cover body 4 in the axial direction. , The rear cover body 4 is fixed to the housing 10 of the motor through a fastening screw, and the intake port 11 is formed on the axial surface of the front cover body 13 at the front end of the housing 10. Here, an intake port may be provided on the circumferential surface of the front cover main body 13 or the front circumferential surface of the housing 10. The rear end cover body 4 is penetrated back and forth to form a plurality of through holes 41 through which gas passes, and a bearing chamber 42 is formed in the rear cover body 4, and the bearing 43 Fix the rotating shaft (2). The rear end cover body 4 extends backward and has an enclosing part 44, and the enclosing part 44 is located outside the circumferential direction of the fan 3, and the fan includes the cover housing 5 and the rear cover body. (4) Located between, the edge of the cover housing 5 forms a shield 51 extending forward, while the cover housing 5 is fixed to the rear side of the rear cover body 4 through a buckle structure, and a buckle structure Includes a male buckle 45 and a female buckle 52, the male buckle 45 is installed on the outer wall in the circumferential direction of the enclosing part 44, and the female buckle 52 is installed on the cover housing 5, The cover housing 5 is fixed to the rear cover body 4 so that the shielding part 51 is located outside the circumferential direction of the enclosing part, and both the enclosing part 44 and the shielding part 51 penetrate in the radial direction. The exhaust port 12 is formed by forming a gap. The induction block 53 is installed in the rear cover train, and the induction block 53 forms an exhaust groove communicating with the exhaust port, but the direction of the exhaust groove is the same as the rotation direction of the rotation shaft; The induction block 53 is divided into two front and rear parts and is installed on the rear cover body 4 and the cover housing 5, respectively.

The inner and outer edges of the enclosing part 44 are all circular, the axis of the enclosing part 44 is eccentric with the axis of the fan 3, and the inner wall of the enclosing part 44 in the circumferential direction and the circumference of the fan 3 The distance between the outer edges in the direction gradually increases from one end of the exhaust port 12 to the other end of the exhaust port 12 along the rotational axis direction. As shown in Fig. 3, the rotating shaft rotates along the illustrated clockwise direction.

The fan 3 includes a blocking part 32, and the blocking part 32 is located on the rear side in the axial direction of the blade 31, and the cover housing 5 of the motor penetrates back and forth to place the blocking part 32. It has a circular groove 54 that yields, and the outer edge of the blocking part 32 is circular, and the blocking part 32 is located in the circular groove 54, and the outer wall in the circumferential direction of the blocking part 32 is circular The groove 54 has a gap between the inner groove walls in the circumferential direction. Here, an annular fixing part 33 is installed in the middle of the blocking part 32, and the fixing part 33 is arranged in close contact with the rear end of the rotating shaft, and all the blades 31 of the fan are on the front side of the blocking part 32. It is fixed.

Here, the outer edge of the wing 31 is located outside the circumferential direction of the outer edge in the circumferential direction of the blocking portion 32, and the rear end of the outer edge of the wing 31 is all formed with a gap 34, and after the outer edge of the wing 31 There is a gap between the end face and the front end of the cover housing 5. The wing 31 of the fan 3 includes an inner section 311 and an outer section 312, and the inner end of the outer section 312 is connected to the inner section 311, The outer end of the outer section 312 extends to the side away from the rotational axis rotation direction, and the outer end of the outer section 312 extends to the side away from the rotational axis rotational direction, and the outer section 312 forms an arc shape, and the outer section 312 The arc-shaped opening of the shaft faces away from the rotational direction of the rotation axis.

The present invention has the advantage of implementing a better heat dissipation effect by further increasing the amount of heat air discharged.

Claims (10)

An intake port and an exhaust port are installed in the motor, a rotation shaft is installed in the motor, a fan is fixed at a rear end of the rotation shaft, and the fan includes a plurality of blades, and the plurality of blades form an annular shape around the axis of the rotation axis. At intervals, the exhaust port is located outside the circumferential direction of the fan, the intake port is located at the front side of the exhaust port, and the motor is an enclosing part located outside the fan circumferential direction. ), and the exhaust port is installed in the enclosure, and the distance between the inner wall in the circumferential direction of the enclosure and the outer edge in the circumferential direction of the fan gradually increases from one end of the exhaust port to the other end of the exhaust port along the rotation axis rotation direction. Getting bigger,
The fan includes a blocking part, the blocking part is located at the rear side in the axial direction of the blade, the motor has a circular groove that passes back and forth to yield a seat to the blocking part, and the outer edge of the blocking part has a circular shape. And the blocking portion is located in the circular groove, and has a gap between the outer wall in the circumferential direction of the blocking portion and the inner groove wall in the circular groove. The method of claim 1,
A motor heat dissipation structure, wherein an inner edge of the enclosing part has a circular shape, and an axis of the enclosing part forms an eccentricity with an axis of the fan. delete The method of claim 1,
Motor heat dissipation structure, characterized in that the outer edge of the blade is located outside the circumferential direction of the outer edge in the circumferential direction of the blocking portion. The method of claim 4,
Motor heat dissipation structure, characterized in that the rear ends of the outer edge of the blade form a gap. The method of claim 1,
An induction block is installed at the rear end of the motor, the induction block forms an exhaust groove communicating with the exhaust port, and the direction of the exhaust groove is the same as the rotation direction of the rotation shaft. The method according to claim 1 or 2,
The blade of the fan includes an inner section and an outer section, the inner end of the outer section is connected to the inner section, and the outer end of the outer section extends away from the rotational direction of the rotation axis. Motor heat dissipation structure. The method of claim 7,
The outer section constitutes an arc shape, and the arc-shaped opening of the outer section is directed toward a side away from the rotational direction of the rotation axis. The method of claim 1,
At the rear end of the motor, a rear cover body and a cover housing are installed, the cover housing is located at the rear side in the axial direction of the rear cover body, the circular groove is installed in the cover housing, and the enclosing part is the rear cover body or the cover housing. And a plurality of through holes through which the rear cover body passes back and forth to allow gas to pass therethrough, and a bearing chamber is formed in the rear cover body to fix the rotation shaft with a bearing. The method of claim 9,
A shielding part is installed inside the circumferential direction or outside the circumferential direction of the enclosing part, and the shielding part and the enclosing part are respectively installed at the rear end cover body and the cover housing; The cover housing is fixed to the rear side of the rear cover body through a buckle structure, the buckle structure includes a male buckle and a female buckle, the male buckle is installed in the enclosing part, and the shielding part is outside the circumferential direction of the enclosing part. Motor heat dissipation structure, characterized in that located in.

Images