CN218041122U - High-efficiency motor assembling device - Google Patents

Abstract

The utility model relates to the field of assembling a motor stator and a shell, in particular to a high-efficiency motor assembling device, which comprises a frame, and a continuous assembling table and a vibration pressing component which are respectively arranged on the frame; more than three groups of positioning tools are arranged on the continuous assembly table along the circumferential direction; the vibration pressing assembly is arranged on the rack in a liftable mode and is located on the circumference where the three groups of positioning tools are located. The utility model provides a high-efficient motor assembly quality mode of assembly has improved the precision and the efficiency of stator assembly operation while self-adaptation fine setting, has reduced the rejection rate of product, the cost is reduced.

Description

High-efficiency motor assembling device

Technical Field

The utility model relates to a motor stator and casing assembly field especially relate to high-efficient motor assembly quality.

Background

The motor stator and the shell are in interference fit, the shell needs to be dried to 270-300 ℃ before assembly, and then the stator sleeved into the motor is assembled. The traditional assembly device can refer to the chinese utility model patent with application number 201420566313.9, entitled motor shell and stator assembly device. The existing assembly device is characterized in that the shell is inclined when the shell is inserted into the assembly device, the shell is not easy to be centered and clamped in the assembly process, the shell is scrapped easily, and the rejection rate of products is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: the utility model provides a high-efficient motor assembly quality, centering precision when improving motor stator and casing assembly avoids the casing to block the damage.

In order to solve the technical problem, the utility model discloses a technical scheme be: the efficient motor assembling device comprises a rack, and a continuous assembling table and a vibration pressing assembly which are respectively arranged on the rack;

more than three groups of positioning tools are arranged on the continuous assembly table along the circumferential direction;

the vibration pressing assembly is arranged on the rack in a liftable mode and is located on the circumference where the three groups of positioning tools are located.

Furthermore, the positioning tool comprises a positioning table and a positioning column, the positioning table is arranged on the continuous assembly table, and the positioning column is arranged on the positioning table.

Furthermore, the positioning column is provided with an enameled wire accommodating groove.

Furthermore, the positioning column is parallel to the lifting direction of the vibration pressing assembly.

Further, the subassembly is pressed in vibrations includes correction cylinder and correction briquetting, correction cylinder sets up in the frame, correction cylinder with correction briquetting is connected, correction briquetting orientation location frock sets up.

Furthermore, the correcting press block is provided with a correcting hole for inserting the positioning tool.

Furthermore, the vibration pressing assembly further comprises a pressing cylinder, a pressing disc and a vibrator, the pressing cylinder is arranged on the rack, the pressing cylinder is connected with the pressing disc, the pressing disc faces towards the positioning tool, and the vibrator is arranged on the pressing disc.

Furthermore, the pressing disc is provided with a jack which is in plug-in fit with the correcting pressing block.

Further, the continuous assembly table is rotatably connected with the frame.

The beneficial effects of the utility model reside in that: the utility model provides a high-efficient motor assembly quality, design multiunit location frock in order to realize stator and the continuous material loading of casing on the continuous assembly platform, assembly and unloading, when the drive vibrations are pressed the subassembly and is descended and the casing on the frock of will fixing a position is impressed the stator, the vibrations that utilize vibrations to press the subassembly to produce drive the casing vibrations, the casing constantly adjusts the coaxial centering degree between its and the stator at vibrations in-process, avoid the casing slope or blocked by the stator, the precision and the efficiency of stator assembly operation have been improved to the mode of assembling while through this kind of self-adaptation fine setting on one side, the rejection rate of product has been reduced, the cost is reduced, can switch to different location frock through rotating the continuous assembly platform and carry out the material loading, assembly and unloading operation, high machining efficiency.

Drawings

Fig. 1 is a schematic structural view of a high-efficiency motor assembling apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a positioning tool according to an embodiment of the present invention;

fig. 3 is a schematic structural view of the vibration pressing assembly according to the embodiment of the present invention;

fig. 4 is another schematic structural diagram of the vibration pressing assembly according to the embodiment of the present invention;

fig. 5 is another schematic structural diagram of the vibration pressing assembly according to the embodiment of the present invention;

description of the reference symbols:

1. a frame; 2. a continuous assembly station; 21. positioning a tool; 211. a positioning table; 212. a positioning column; 2121. an enameled wire accommodating groove; 3. vibrating the pressing component; 31. a correction cylinder; 32. correcting a pressing block; 321. a correction hole; 33. a pressing cylinder; 34. pressing the disc; 341. a jack; 35. a vibrator.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The utility model provides a high-efficient motor assembly quality uses in the assembly connection operation of motor stator and casing.

Referring to fig. 1 to 5, the high-efficiency motor assembling apparatus includes a frame 1, and a continuous assembling table 2 and a vibration pressing assembly 3 respectively disposed on the frame 1;

more than three groups of positioning tools 21 are arranged on the continuous assembly table 2 along the circumferential direction;

subassembly 3 is pressed in vibrations setting up on frame 1 with liftable, subassembly 3 is pressed in vibrations is located the circumference at location frock 21 place more than three groups.

From the above description, the beneficial effects of the present invention are: the utility model provides a high-efficient motor assembly quality, design multiunit location frock 21 in order to realize stator and the continuous material loading of casing on continuous assembly platform 2, assembly and unloading, when drive vibrations press assembly 3 to descend and will fix a position the casing on frock 21 and impress the stator, utilize vibrations that vibrations press assembly 3 produced to drive the casing vibrations, the casing constantly adjusts the coaxial centering degree between its and the stator at vibrations in-process, avoid the casing slope or blocked by the stator, the precision and the efficiency of stator assembly operation have been improved through this kind of mode of assembly while self-adaptation fine setting, the rejection rate of product has been reduced, the cost is reduced, can switch over to different location frock 21 through rotating continuous assembly platform 2 and carry out the material loading, assembly and unloading operation, high machining efficiency.

In an alternative embodiment, the positioning tool 21 includes a positioning table 211 and a positioning column 212, the positioning table 211 is disposed on the continuous assembling table 2, and the positioning column 212 is disposed on the positioning table 211.

From the above description, the positioning table 211 plays a role of limiting and supporting the stator and the housing, and the positioning column 212 plays a role of guiding the placement of the stator and the housing and the pressing action of the vibration pressing component 3, so as to improve the precision of the stator assembling operation and perform centering correction on the housing together with the vibration fine-tuning function of the vibration pressing component 3.

In an alternative embodiment, the positioning post 212 is provided with an enamel wire receiving groove 2121.

As can be seen from the above description, the enamel wire receiving groove 2121 is used for receiving the stator wire, so as to avoid the stator wire from being worn or even crushed during the assembling process.

In an alternative embodiment, the positioning column 212 is parallel to the lifting direction of the vibration pressing assembly 3.

As can be seen from the above description, the positioning posts 212 are parallel to the moving direction of the vibration pressing component 3, so as to facilitate the loading, assembling and unloading operations of the stator and the housing.

In an alternative embodiment, the vibration pressing assembly 3 includes a calibration cylinder 31 and a calibration pressing block 32, the calibration cylinder 31 is disposed on the frame 1, the calibration cylinder 31 is connected to the calibration pressing block 32, and the calibration pressing block 32 is disposed toward the positioning tool 21.

As can be seen from the above description, the calibration air cylinder 31 is used to drive the calibration press block 32 to move, and the calibration press block 32 performs preliminary press calibration on the shell on the positioning tool 21, so as to facilitate subsequent assembly.

In an alternative embodiment, the alignment pressing block 32 is provided with an alignment hole 321 into which the positioning tool 21 is inserted.

As can be seen from the above description, the correction hole 321 functions as an avoidance and guide, which helps to improve the assembly accuracy.

In an optional embodiment, the vibration pressing assembly 3 further comprises a pressing cylinder 33, a pressing plate 34 and a vibrator 35, the pressing cylinder 33 is arranged on the frame 1, the pressing cylinder 33 is connected with the pressing plate 34, the pressing plate 34 is arranged towards the positioning tool 21, and the vibrator 35 is arranged on the pressing plate 34.

As can be seen from the above description, the pressing cylinder 33 is used to drive the pressing disc 34 to move, the vibrator 35 vibrates the pressing disc 34, the pressing disc 34 presses the shell to make the shell follow the vibration, and the shell continuously adjusts the coaxial centering degree between the shell and the stator in the vibration process to avoid the shell from inclining or being clamped by the stator.

In an alternative embodiment, the pressing plate 34 is provided with a socket 341 that is inserted and matched with the correcting pressing block 32.

It can be known from the above description that, in the process of pressing down the pressing disc 34, the correcting pressing block 32 for primarily pressing and correcting the casing is sleeved outside, the correcting pressing block 32 plays a guiding role for the pressing disc 34, and the pressing disc 34 on the outer side vibrates and presses while the correcting pressing block 32 on the inner side assists in correction, so that the assembly precision of the stator and the casing is improved.

In an alternative embodiment, the sequential mounting table 2 is rotatably connected to the frame 1.

As can be seen from the above description, the continuous assembling table 2 can rotate on the frame 1, so as to switch different processing stations and improve the processing efficiency.

The utility model discloses a theory of operation is: during the use, pass the stator and place reference column 212 on location platform 211, accomodate the stator line in enameled wire accomodates groove 2121, arrange the casing on it again, make this station be located vibrations through rotating continuous assembly platform 2 and press the below of subassembly 3, utilize earlier that correction cylinder 31 drives the movement of correction briquetting 32, correction briquetting 32 is tentatively pressed the correction to the casing on the location frock 21, then utilize pressing cylinder 33 drive to press 34 movements of dish, electromagnetic shaker 35 makes and presses 34 vibrations of dish production, press 34 and press the in-process that the casing pressed to make the casing follow vibrations, the casing constantly adjusts the coaxial centering degree between its and the stator at vibrations in-process, avoid the casing slope or blocked by the stator. And finally, rotating the continuous assembly table 2, and blanking the assembled stator and shell.

Referring to fig. 1 to 5, a first embodiment of the present invention is: the efficient motor assembling device comprises a rack 1, and a continuous assembling table 2 and a vibration pressing assembly 3 which are respectively arranged on the rack 1;

more than three groups of positioning tools 21 are arranged on the continuous assembly table 2 along the circumferential direction;

subassembly 3 is pressed in vibrations setting up on frame 1 with liftable, subassembly 3 is pressed in vibrations is located the circumference at location frock 21 place more than three groups.

The positioning tool 21 comprises a positioning table 211 and a positioning column 212, the positioning table 211 is arranged on the continuous assembly table 2, and the positioning column 212 is arranged on the positioning table 211. The positioning table 211 is columnar, and the outer diameter of the positioning table is the same as that of the shell to be assembled, so that the assembly precision of the shell can be observed conveniently. The positioning column 212 is cylindrical and is set up in the middle of the positioning table 211. The positioning post 212 is provided with an enamel wire receiving groove 2121. The enamel wire receiving groove 2121 is provided on a circumferential side wall of the positioning column 212. The positioning posts 212 are parallel to the lifting direction of the vibration pressing assembly 3. Three or more sets of positioning tools 21 are arranged on the continuous assembly table 2 along the circumferential direction. The vibration pressing component 3 comprises a correcting cylinder 31 and a correcting press block 32, the correcting cylinder 31 is arranged on the rack 1, the correcting cylinder 31 is connected with the correcting press block 32, and the correcting press block 32 faces the positioning tool 21. The correcting press block 32 is cylindrical, and the outer diameter of the correcting press block 32 is larger than the inner diameter of the shell to be assembled and smaller than the outer diameter of the shell to be assembled. The correcting press block 32 is provided with a correcting hole 321 for inserting the positioning tool 21. Subassembly 3 is pressed in vibrations still includes pressing cylinder 33, pressing disc 34 and electromagnetic shaker 35, pressing cylinder 33 sets up in the frame 1, pressing cylinder 33 with pressing disc 34 is connected, pressing disc 34 orientation location frock 21 sets up, electromagnetic shaker 35 sets up pressing disc 34 is last. The pressing disc 34 is disc-shaped, the inner diameter of the pressing disc 34 is smaller than the outer diameter of the shell to be assembled, and the outer diameter of the pressing disc 34 is larger than the inner diameter of the shell to be assembled. The pressing plate 34 is provided with a jack 341 which is inserted and matched with the correcting pressing block 32. The continuous assembly table 2 is rotatably connected with the frame 1.

Referring to fig. 1 to 5, a second embodiment of the present invention is different from the first embodiment in that: still include drive assembly, drive assembly includes motor and gear drive assembly, the motor sets up in frame 1, the motor passes through gear drive assembly with continuous assembly table 2 is connected.

To sum up, the utility model provides a high-efficient motor assembly quality, design multiunit location frock in order to realize stator and the continuous material loading of casing, assembly and unloading on the continuous assembly platform, when the casing that the subassembly descends and will fix a position on the frock is impressed the stator in the drive vibrations, the vibrations that utilize the vibrations to press the subassembly to produce drive the casing vibrations, the casing constantly adjusts the coaxial centering degree between its and the stator at vibrations in-process, avoid the casing slope or blocked by the stator, the precision and the efficiency of stator assembly operation have been improved to the mode of assembly on one side through this kind of self-adaptation fine setting on one side, the rejection rate of product has been reduced, the cost is reduced, can switch over to different location frock through rotating the continuous assembly platform and carry out the material loading, assembly and unloading operation, machining efficiency is high.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (9)

1. The efficient motor assembling device is characterized by comprising a rack, and a continuous assembling table and a vibration pressing assembly which are respectively arranged on the rack; more than three groups of positioning tools are arranged on the continuous assembly table along the circumferential direction; the vibration pressing assembly is arranged on the rack in a liftable mode and is located on the circumference where the three groups of positioning tools are located.

2. The efficient motor assembling device of claim 1, wherein the positioning tool comprises a positioning table and a positioning column, the positioning table is arranged on the continuous assembling table, and the positioning column is arranged on the positioning table.

3. A high efficiency motor assembling apparatus according to claim 2, wherein said positioning post is provided with an enamel wire receiving groove.

4. A high efficiency motor assembling apparatus as claimed in claim 2, wherein said positioning posts are parallel to the lifting direction of said vibration pressing assembly.

5. The assembling device of the high-efficiency motor according to claim 1, wherein the vibration pressing assembly comprises a correction cylinder and a correction pressing block, the correction cylinder is arranged on the frame and connected with the correction pressing block, and the correction pressing block is arranged towards the positioning tool.

6. A high-efficiency motor assembling device according to claim 5, wherein the correcting press block is provided with a correcting hole for inserting the positioning tool.

7. A high efficiency motor assembling device as claimed in claim 5, wherein said vibration pressing assembly further comprises a pressing cylinder, a pressing plate and a vibrator, said pressing cylinder is disposed on said frame, said pressing cylinder is connected to said pressing plate, said pressing plate is disposed toward said positioning tool, and said vibrator is disposed on said pressing plate.

8. The assembling apparatus of claim 7, wherein said pressing plate is provided with a jack for inserting and fitting said correcting pressing plate.

9. A high efficiency motor assembly apparatus as set forth in claim 1 wherein said continuous assembly station is rotatably connected to said frame.

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