CN215745216U - Motor stator dust collector - Google Patents

Abstract

The utility model provides a motor stator dust removal device which comprises a transfer mechanism, a cleaning barrel and an air blowing mechanism, wherein the transfer mechanism is used for moving a motor stator into the cleaning barrel, the air blowing mechanism is arranged in the center of the cleaning barrel, the motor stator is sleeved outside the air blowing mechanism, the air blowing mechanism can blow air to the motor stator, the transfer mechanism comprises a lifting assembly, a translation assembly and a first clamping assembly, the first clamping assembly vertically clamps the motor stator, the lifting assembly is connected with the first clamping assembly and drives the first clamping assembly to vertically move, and the translation assembly is connected with the lifting assembly and the first clamping assembly and drives the lifting assembly and the first clamping assembly to transversely move. When needing to remove dust to motor stator, accessible translation subassembly and the first centre gripping subassembly of lifting unit cooperation drive move motor stator to clean the bucket in, then utilize the mechanism of blowing to blow to motor stator and remove dust, realized the automation of product and removed dust, reduced because of the manual environmental impact who removes dust and cause the workshop.

Description

Motor stator dust collector

Technical Field

The utility model relates to the technical field of motor assembly, in particular to a motor stator dust removal device.

Background

When the motor is assembled, the components of the motor, particularly the stator of the motor, need to be cleaned in order to avoid affecting the performance and service life of the motor.

But motor stator removes dust still uses artificial mode to operate at present, and this kind of mode is consuming time and is used manpower, and the cost is also higher, and in addition, the effect of artifical dust removal is not good, remains easily, and the dust can spread in the air moreover, influences workshop air quality and human health.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a motor stator dust removal device which can replace the original manual operation to realize automatic dust removal of a product and reduce the environmental influence on a workshop caused by manual dust removal.

In order to achieve the purpose, the utility model provides a motor stator dust removal device which comprises a transfer mechanism, a cleaning barrel and an air blowing mechanism, wherein the transfer mechanism is used for moving a motor stator into the cleaning barrel, the air blowing mechanism is arranged in the center of the cleaning barrel, the motor stator is sleeved outside the air blowing mechanism, the air blowing mechanism can blow air to the motor stator, the transfer mechanism comprises a lifting assembly, a translation assembly and a first clamping assembly, the motor stator is vertically clamped by the first clamping assembly, the lifting assembly is connected with the first clamping assembly and drives the first clamping assembly to vertically move, and the translation assembly is connected with the lifting assembly and the first clamping assembly and drives the lifting assembly and the first clamping assembly to transversely move.

Optionally, the blowing mechanism includes a central shaft and at least one blowing port disposed on the central shaft, the motor stator is sleeved outside the central shaft, and gas can be blown to the inner wall of the motor stator through the blowing port.

Optionally, the number of the air blowing openings is multiple, and the multiple air blowing openings are uniformly distributed along the circumferential direction of the central shaft.

Optionally, the blowing mechanism further comprises a rotating motor, the central shaft is fixed in the cleaning barrel, and the rotating motor is connected with the cleaning barrel and drives the cleaning barrel to rotate relative to the motor stator, so as to drive the central shaft to rotate relative to the motor stator.

Optionally, the blowing mechanism further comprises a rotating motor, and the rotating motor is connected with the central shaft and drives the central shaft to rotate relative to the motor stator.

Optionally, the air blowing opening is further provided with an electromagnetic valve for controlling air blowing.

Optionally, the motor stator dust removing device further comprises a dust collector, and the dust collector is arranged in the cleaning barrel.

Optionally, motor stator dust collector still includes tilting mechanism, tilting mechanism includes second centre gripping subassembly and rotating assembly, motor stator accomplishes once clean back, transport mechanism will motor stator removes to the upset position, second centre gripping subassembly is along horizontal clamp motor stator, rotating assembly with second centre gripping subassembly is connected and drive second centre gripping subassembly winds the perpendicular to motor stator's axial rotation 180, and then drives motor stator rotation 180.

Optionally, the first clamping assembly is of a three-jaw structure, and the second clamping assembly is of a double-jaw structure.

Optionally, the motor stator dust removal device further comprises a servo system, and the servo system is electrically connected with the lifting assembly, the translation assembly and the rotating assembly.

The utility model provides a motor stator dust removal device, when dust removal needs to be carried out on a motor stator, the translation assembly and the lifting assembly are matched to drive the first clamping assembly to move the motor stator into a cleaning barrel, and then the blowing mechanism is used for blowing air to remove dust on the motor stator. The motor stator dust removal device provided by the utility model replaces the original manual operation, realizes automatic dust removal of products, reduces the workload of operators, greatly shortens the working period, improves the working efficiency, reduces the production cost, and simultaneously reduces the environmental influence on workshops caused by manual dust removal.

Drawings

It will be appreciated by those skilled in the art that the drawings are provided for a better understanding of the utility model and do not constitute any limitation to the scope of the utility model. Wherein:

fig. 1 is a schematic structural diagram of a motor stator dust removing device provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a first clamping assembly according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a second clamping assembly according to an embodiment of the present invention;

in the drawings:

10-a transfer mechanism; 11-a lifting assembly; 12-a translation assembly; 13-a first clamping assembly; 20-cleaning the barrel; 30-a blowing mechanism; 31-a central axis; 32-air blowing openings; 40-a turnover mechanism; 41-a second clamping assembly; 42-a rotating assembly; 50-a rotating electrical machine; 60-clamping jaw.

Detailed Description

To further clarify the objects, advantages and features of the present invention, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. It is to be noted that the drawings are in greatly simplified form and are not to scale, but are merely intended to facilitate and clarify the explanation of the embodiments of the present invention. Further, the structures illustrated in the drawings are often part of actual structures. In particular, the drawings may have different emphasis points and may sometimes be scaled differently.

As used in this application, the singular forms "a," "an," and "the" include plural referents unless the content clearly dictates otherwise. As used in this disclosure, the term "or" is generally employed in its sense including "and/or" unless the content clearly dictates otherwise. As used in this disclosure, the term "plurality" is generally employed in its sense including "at least one" unless the content clearly dictates otherwise. As used in this disclosure, the term "at least two" is generally employed in a sense including "two or more" unless the content clearly dictates otherwise. Furthermore, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", "third" may explicitly or implicitly include one or at least two of the features.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a motor stator dust removing device according to an embodiment of the present invention. The embodiment provides a motor stator dust removing device, which comprises a transfer mechanism 10, a cleaning barrel 20 and an air blowing mechanism 30, the transfer mechanism 10 is used for moving the motor stator into the cleaning barrel 20, the blowing mechanism 30 is arranged at the center of the cleaning barrel 20, the motor stator is sleeved outside the air blowing mechanism 30, the air blowing mechanism 30 can blow air to the motor stator, the transfer mechanism 10 comprises a lifting assembly 11, a translation assembly 12 and a first clamping assembly 13, the first clamping assembly 13 clamps the motor stator along the vertical direction, the lifting assembly 11 is connected with the first clamping assembly 13 and drives the first clamping assembly 13 to move along the vertical direction, the translation assembly 12 is connected to the lifting assembly 11 and the first clamping assembly 13 and drives the lifting assembly 11 and the first clamping assembly 13 to move along the transverse direction.

When dust removal is required to be performed on the motor stator, the translation assembly 12 and the lifting assembly 11 are matched to drive the first clamping assembly 13 to clamp one motor stator from a place (such as a tray) where the motor stator is stored, then the translation assembly 12 moves the first clamping assembly 13 clamped with the motor stator to the upper side of the cleaning barrel 20, the lifting assembly 11 drives the first clamping assembly 13 to move downwards so as to transfer the motor stator into the cleaning barrel 20, and then the air blowing mechanism 30 is used for blowing air to remove dust from the motor stator. The motor stator dust removal device provided by the utility model replaces the original manual operation, realizes automatic dust removal of products, reduces the workload of operators, greatly shortens the working period, improves the working efficiency, reduces the production cost, and simultaneously reduces the environmental influence on workshops caused by manual dust removal.

In this embodiment, the lifting assembly 11 is, for example, an electric cylinder, and the translation assembly 12 is, for example, an air cylinder.

It should be understood that, the first clamping assembly 13 mentioned in the present application clamps the motor stator in the vertical direction, which means that the first clamping assembly 13 clamps the motor stator in the vertical direction, and the axial direction of the motor stator is parallel to the vertical direction.

Specifically, the air blowing mechanism 30 includes a central shaft 31 and at least one air blowing port 32 disposed on the central shaft 31, the motor stator is sleeved outside the central shaft 31, and air can be blown to the inner wall of the motor stator through the air blowing port 32. The motor stator is sleeved outside the central shaft 31 through the central shaft 31, so that the inner wall of the motor stator can be cleaned.

Preferably, the number of the air blowing openings 32 is multiple, and the multiple air blowing openings 32 are uniformly distributed along the circumferential direction of the central shaft 31. Can be right simultaneously through setting up a plurality of mouths of blowing 32 the inner wall of motor stator removes dust, and dust collection efficiency is higher, and dust removal effect is better. For example, there are three air blowing openings 32, and the three air blowing openings 32 are uniformly distributed along the circumferential direction of the central shaft 31. Of course, the number of the air blowing openings 32 is not limited in this application, and may be, for example, one, or two or more, and in addition, the distribution manner of the air blowing openings 32 is not limited in this application, and the air blowing openings 32 may be uniformly distributed or non-uniformly distributed.

An air supply channel for supplying air from the air blowing port 32 may be provided in the central shaft 31, or an air supply pipe for supplying air from the air blowing port 32 may be provided separately from the central shaft 31, which is not limited in this application. In this embodiment, the gas is, for example, compressed air, and the gas can be supplied by a compressor.

Preferably, the blowing mechanism 30 further includes a rotating motor 50, the central shaft 31 is fixed in the cleaning barrel 20, and the rotating motor 50 is connected to the cleaning barrel 20 and drives the cleaning barrel 20 to rotate relative to the motor stator, so as to drive the central shaft 31 to rotate relative to the motor stator. Because the central shaft 31 is fixed in the cleaning barrel 20, the cleaning barrel 20 is driven to rotate by the rotating motor 50 so as to drive the central shaft 31 to rotate relative to the motor stator, therefore, the whole inner wall of the motor stator can be subjected to 360-degree comprehensive dust removal, and the dust removal effect is improved. In the process, the motor stator is clamped and fixed by the first clamping assembly 13.

Alternatively, in another preferred embodiment, the blowing mechanism 30 further includes a rotating motor 50, and the rotating motor 50 is connected to the central shaft 31 and drives the central shaft 31 to rotate relative to the motor stator. That is to say, the cleaning barrel 20 may be fixed, but the central shaft 31 may be movably fixed in the cleaning barrel 20, and the central shaft 31 can rotate relative to the motor stator, and can also perform 360 ° overall dust removal on the inner wall of the whole motor stator, thereby improving the dust removal effect.

Preferably, an electromagnetic valve for controlling the blowing of the gas is further disposed at the gas blowing port 32, and the continuous blowing or the pulse blowing can be realized through the electromagnetic valve. Of course, the electromagnetic valve may also be disposed on the air supply pipeline of the air blowing port 32, which is not limited in this application.

Preferably, the motor stator dust removing device further comprises a dust collector, wherein the dust collector is arranged in the cleaning barrel 20, for example, at the bottom of the cleaning barrel 20, so that blown dust is sucked away, the dust is prevented from adhering to the outer wall of the motor stator, and the dust removing effect is improved.

With reference to fig. 1, the dust removing device for the motor stator further includes a turning mechanism 40, the turning mechanism 40 includes a second clamping assembly 41 and a rotating assembly 42, after the motor stator is cleaned once, the transferring mechanism 10 moves the motor stator to a turning position, the second clamping assembly 41 clamps the motor stator along a transverse direction, and the rotating assembly 42 is connected to the second clamping assembly 41 and drives the second clamping assembly 41 to rotate 180 ° around an axial direction perpendicular to the motor stator, so as to drive the motor stator to rotate 180 °. After the first cleaning is completed, the motor stator is taken out of the cleaning barrel 20 and moved to the overturning position through the transfer mechanism 10, then the second clamping component 41 clamps the motor stator tightly, the first clamping component 13 is loosened, the motor stator is driven to rotate 180 degrees around the axial direction perpendicular to the motor stator through the matching of the second clamping component 41 and the rotating component 42, after the motor stator rotates 180 degrees around the axial direction perpendicular to the motor stator, the motor stator is clamped again through the first clamping component 13 and transferred into the cleaning barrel 20 again, the second cleaning can be performed, so that the upper inner wall and the lower inner wall of the motor stator can be respectively dedusted, and the dedusting is more thorough. After the second cleaning, the motor stator can be moved to the turning position again through the transfer mechanism 10, the motor stator is turned for 180 degrees through the turning mechanism 40, and then the motor stator is placed in the tray, so that the cleaning and dust removal of the motor stator are completed.

It should be understood that the second clamping assembly 41 mentioned in the present application clamps the motor stator in the transverse direction, which means that the second clamping assembly 41 moves in the transverse direction to clamp the motor stator, and the axial direction of the motor stator is still parallel to the vertical direction.

In this embodiment, referring to fig. 2 to fig. 3, fig. 2 is a schematic structural diagram of a first clamping assembly according to an embodiment of the present invention, and fig. 3 is a schematic connection diagram of a second clamping assembly according to an embodiment of the present invention. The first clamping assembly 13 is of a three-jaw structure, and the second clamping assembly 41 is of a two-jaw structure. The double-claw structure and the three-claw structure mainly refer to the number of the clamping claws 60 for clamping the motor stator, and the first clamping assembly 13 is required to clamp the motor stator to move, so that the clamping is more stable through the three-claw mechanism, and the second clamping assembly 41 is mainly used for overturning the motor stator, so that the double-claw structure is more convenient.

The motor stator dust removal device further comprises a servo system, and the servo system is electrically connected with the lifting assembly 11, the translation assembly 12 and the rotating assembly 42. The speed and the position of the motor stator during translation, rotation and lifting can be controlled more accurately through the servo system, the automation of the motor stator dust removal device is improved, and the working efficiency is further improved.

The motor stator dust collector that this embodiment provided can with be greater than 100 microns on the motor stator blows down, is applicable to the motor stator of different specifications simultaneously.

To sum up, the embodiment of the utility model provides a motor stator dust removal device which comprises a transfer mechanism, a cleaning barrel and an air blowing mechanism, wherein the transfer mechanism is used for moving a motor stator into the cleaning barrel, the air blowing mechanism is arranged in the center of the cleaning barrel, the motor stator is sleeved outside the air blowing mechanism, the air blowing structure can blow air to the motor stator, the transfer mechanism comprises a lifting assembly, a translation assembly and a first clamping assembly, the motor stator is vertically clamped by the first clamping assembly, the lifting assembly is connected with the first clamping assembly and drives the first clamping assembly to vertically move, and the translation assembly is connected with the lifting assembly and the first clamping assembly and drives the lifting assembly and the first clamping assembly to horizontally move. When dust removal needs to be carried out on the motor stator, the translation assembly and the lifting assembly are matched to drive the first clamping assembly to move the motor stator into the cleaning barrel, and then the blowing mechanism is used for blowing and removing dust of the motor stator. The motor stator dust removal device provided by the utility model replaces the original manual operation, realizes automatic dust removal of products, reduces the workload of operators, greatly shortens the working period, improves the working efficiency, reduces the production cost, and simultaneously reduces the environmental influence on workshops caused by manual dust removal.

The above description is only a preferred embodiment of the present invention, and does not limit the present invention in any way. It will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. The utility model provides a motor stator dust collector, its characterized in that, includes transport mechanism, clean bucket and the mechanism of blowing, transport mechanism is used for removing motor stator extremely in the clean bucket, the mechanism of blowing set up in the center of clean bucket, just motor stator cover is located outside the mechanism of blowing, the mechanism of blowing can to motor stator blows, transport mechanism includes lifting unit, translation subassembly and first centre gripping subassembly, first centre gripping subassembly is along vertical clamp tightly motor stator, lifting unit with first centre gripping subassembly is connected and is driven first centre gripping subassembly is along vertical motion, the translation subassembly with lifting unit reaches first centre gripping subassembly is connected and is driven lifting unit reaches first centre gripping subassembly reaches transverse motion.

2. The motor stator dust removing device according to claim 1, wherein the air blowing mechanism comprises a central shaft and at least one air blowing port arranged on the central shaft, the motor stator is sleeved outside the central shaft, and air can be blown to the inner wall of the motor stator through the air blowing port.

3. The motor stator dust removing device according to claim 2, wherein the number of the air blowing openings is plural, and the plural air blowing openings are uniformly distributed along the circumferential direction of the central shaft.

4. The motor stator dust removing device according to claim 2 or 3, wherein the blowing mechanism further comprises a rotating motor, the central shaft is fixed in the cleaning barrel, and the rotating motor is connected with the cleaning barrel and drives the cleaning barrel to rotate relative to the motor stator, so as to drive the central shaft to rotate relative to the motor stator.

5. The motor stator dust removing device according to claim 2 or 3, wherein the air blowing mechanism further comprises a rotating motor, and the rotating motor is connected with the central shaft and drives the central shaft to rotate relative to the motor stator.

6. The motor stator dust removing device according to claim 2 or 3, wherein the air blowing port is further provided with an electromagnetic valve for controlling air blowing.

7. The motor stator dust removing apparatus of claim 1, further comprising a dust collector disposed in the cleaning tub.

8. The motor stator dust removing device according to claim 1, further comprising a turning mechanism, wherein the turning mechanism comprises a second clamping assembly and a rotating assembly, the transferring mechanism moves the motor stator to a turning position after the motor stator is cleaned once, the second clamping assembly clamps the motor stator in the transverse direction, and the rotating assembly is connected with the second clamping assembly and drives the second clamping assembly to rotate 180 ° around an axial direction perpendicular to the motor stator, so as to drive the motor stator to rotate 180 °.

9. The motor stator de-dusting device of claim 8, wherein the first clamping assembly is of a three-jaw structure and the second clamping assembly is of a two-jaw structure.

10. The motor stator de-dusting apparatus of claim 8, further comprising a servo system electrically connected to the lifting assembly, the translating assembly, and the rotating assembly.

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