AU2012100631A4 - Insulating Powder Coating Device for Stator - Google Patents

Abstract

Abstract The invention discloses an insulating powder coating device for a stator, which comprises a coating box body and a stator clamp assembly, wherein a rotation driving device is arranged in the coating box body, the stator clamp assembly is mounted on the rotation driving device and driven by the driving device to rotate, and an insulating powder groove and a powder raising device are further arranged at the bottom of the coating box body. The insulating powder coating device for the stator can drive the stator clamp assembly to move and rotate through the rotation driving device and a translation driving device, and the powder raising device is simultaneously used for raising insulating powder, thereby realizing fast and complete coating of the insulating powder, improving the working efficiency, reducing the production cost, realizing high finished product rate, simultaneously optimizing a working environment and being more environmental-friendly and safer 21 32 5 31 32 21 32 5 31 32

Description

Description Insulating Powder Coating Device for Stator Technical Field The invention relates to processing of motor stators and specifically relates to an insulating powder coating device for a stator. Background of the Invention During the production process of a stator, a layer of insulating powder needs to be coated in a groove on the inner layer of the stator, and then post-processing and curing are further performed, thereby playing an insulation protection role; furthermore, due to the special structure of the groove in the stator, the coating is complex, the coating is not thorough, the fraction defective is higher, and working time also needs to be increased for performing manual coating on the stator with the unqualified coating, thereby being time-consuming and labor-consuming. Summary of the Invention The technical problem to be solved by the invention is to provide an insulating powder coating device for a stator, which is simple in structure and can reduce the labor intensity of workers, realize fast and great coating of insulating powder on the stator and improve the production efficiency of the coating process. In order to solve the technical problem, the invention adopts the following technical scheme: the insulating powder coating device for the stator is characterized by comprising a coating box body and a stator clamp assembly, wherein a rotation driving device is arranged in the coating box body, the stator clamp assembly is mounted on the rotation driving device and driven by the driving device to rotate, and an insulating powder groove and a powder raising device are further arranged at the bottom of the coating box body. Preferably, the stator clamp assembly comprises a hoop for clamping the stator and a rotating shaft is arranged on the circumferential wall of the hoop. In an improved way, a translation driving device for driving the stator clamp assembly to translate is further arranged in the coating box body. The translation of the stator clamp assembly is realized. The coating effect is enhanced. Preferably, the rotation driving device comprises a motor and two screw rods which are driven by the motor and arranged in parallel, the rotating shaft of the stator clamp assembly is circular, the rotating shaft is movably plug-in mounted between helical blades of the two screw rods, and a track platform for supporting the rotating shaft is arranged on the inner side of the end part of the rotating shaft. In such a way, when the screw rods rotate, the stator clamp assembly can be driven to move rectilinearly and rotate simultaneously. 1 Preferably, a texture structure can be arranged at the end part of the circular rotating shaft, thereby enabling the screw rods to conveniently drive the circular rotating shaft to rotate. Preferably, the rotating shaft is positioned on the extension line of the diameter of the hoop. In an improved way, a through hole is further arranged on the circumferential wall of the hoop, and a locking mechanism for fixing the stator is arranged on the through hole. Preferably, the locking mechanism is an adjusting bolt. A flexible gasket is arranged at the front end of the adjusting bolt for preventing the outer wall of the stator from being damaged. Preferably, the powder raising device is a micro-air blower arranged at the bottom of the coating device. The insulating powder coating device for the stator can drive the stator clamp assembly to move and rotate through the rotation driving device and a translation driving device, and the powder raising device is simultaneously used for raising insulating powder, thereby realizing fast and complete coating of the insulating powder, improving the working efficiency, reducing the production cost, realizing high finished product rate, simultaneously optimizing a working environment and being more environmental-friendly and safer. Brief Description of the Drawings In combination of the following figures, the invention is further described. Figure 1 is a schematic diagram of whole structure of insulating powder coating device for stator of the invention; Figure 2 is a preferred embodiment of insulting powder coating device for stator of the invention; Figure 3 is a schematic diagram of structure of stator clamp assembly of the invention. Detailed Description of the Invention As shown in Figure 1, an insulating powder coating device for a stator of the invention comprises a coating box body 1 and a stator clamp assembly, wherein a rotation driving device 2 is arranged in the coating box body, the stator clamp assembly is mounted on the rotation driving device and driven by the driving device to rotate, an insulating powder groove 11 and a powder raising device 3 are further arranged at the bottom of the coating box body 1, the stator clamp assembly comprises a hoop 31 for clamping the stator, a rotating shaft 32 is arranged on the circumferential wall of the hoop, and a translation driving device 4 for driving the stator clamp assembly to translate is further arranged in the coating box body. The translation of the stator clamp assembly is realized. The coating effect is enhanced. The powder raising device is a micro-air blower arranged at the bottom of the coating 2 device. In the figure, 5 refers to the stator and 6 refers to insulating powder. As shown in Figure 2 and Figure 3, a preferred embodiment of an insulating powder coating device for a stator of the invention comprises a coating box body 1 and a stator clamp assembly, wherein a rotation driving device is arranged in the coating box body, the rotation driving device comprises a motor and two screw rods 21 which are driven by the motor and arranged in parallel, a track platform 22 for supporting the rotating shaft is arranged on the inner side of the end part of the rotating shaft, and 23 in the figure refers to a mounting support of the screw rods. The stator clamp assembly comprises a hoop 31 for clamping the stator, a rotating shaft 32 is arranged on the circumferential wall of the hoop, the rotating shaft 32 is circular, and the rotating shaft 32 is movably plug-in mounted between helical blades 221 of the two screw rods 21. In such a way, when the screw rods rotate, the stator clamp assembly can be driven to move rectilinearly and rotate simultaneously. Namely, the translation driving device and the rotation driving device are combined into one, the rotating shaft is positioned on the extension line of the diameter of the hoop, a through hole 33 is further arranged on the circumferential wall of the hoop 31, a locking mechanism for fixing the stator is arranged on the through hole, the locking mechanism is an adjusting bolt 34, and a flexible gasket 35 is arranged at the front end of the adjusting bolt for preventing the outer wall of the stator from being damaged. The powder raising device is a micro-air blower arranged at the bottom of the coating device. In the figure, 5 refers to the stator and 6 refers to insulating powder. 3

Claims (10)

1. An insulating powder coating device for a stator, characterized by comprising a coating box body and a stator clamp assembly, wherein a rotation driving device is arranged in the coating box body, the stator clamp assembly is mounted on the rotation driving device and driven by the driving device to rotate, and an insulating powder groove and a powder raising device are further arranged at the bottom of the coating box body.

2. The insulating powder coating device for the stator according to claim 1, characterized in that the stator clamp assembly comprises a hoop for clamping the stator and a rotating shaft is arranged on the circumferential wall of the hoop.

3. The insulating powder coating device for the stator according to claim 1 or 2, characterized in that a translation driving device for driving the stator clamp assembly to translate is further arranged in the coating box body.

4. The insulating powder coating device for the stator according to claim 2, characterized in that the rotation driving device comprises a motor and two screw rods which are driven by the motor and arranged in parallel, the rotating shaft of the stator clamp assembly is circular, the rotating shaft is movably plug-in mounted between helical blades of the two screw rods, and a track platform for supporting the rotating shaft is arranged on the inner side of the end part of the rotating shaft.

5. The insulating powder coating device for the stator according to claim 4, characterized in that a texture structure can be arranged at the end part of the circular rotating shaft.

6. The insulating powder coating device for the stator according to claim 4, characterized in that the rotating shaft is positioned on the extension line of the diameter of the hoop.

7. The insulating powder coating device for the stator according to claim 2 or 4 or 5 or 6, characterized in that a through hole is further arranged on the circumferential wall of the hoop, and a locking mechanism for fixing the stator is arranged on the through hole.

8. The insulating powder coating device for the stator according to claim 7, characterized in that the locking mechanism is an adjusting bolt.

9. The insulating powder coating device for the stator according to claim 8, characterized in that a flexible gasket is arranged at the front end of the adjusting bolt.

10. The insulating powder coating device for the stator according to claim 1 or 2 or 4, 4 characterized in that the powder raising device is a micro-air blower arranged at the bottom of the coating device. 5