CN216359268U

CN216359268U - Shaping and flattening system for central hole of main stator of shaded pole motor

Info

Publication number: CN216359268U
Application number: CN202122942900.6U
Authority: CN
Inventors: 唐志高
Original assignee: Shenzhen Aixianggao Automation Equipment Co ltd
Current assignee: Shenzhen Aixianggao Automation Equipment Co ltd
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-04-22
Anticipated expiration: 2031-11-26

Abstract

The utility model discloses a shaping and flattening system for a central hole of a main stator of a shaded pole motor, which comprises: a frame; a work table; a shaping device; a discharging and pushing mechanism; a feeding and pushing mechanism; and a control box. According to the utility model, the stator is pushed to the lower part of the shaping upper die and the upper part of the bottom plate of the shaping device by the feeding and pushing mechanism, the control box drives the shaping oil cylinder of the shaping device to move downwards, the shaping shaft of the shaping upper die is arranged in the central hole of the stator, the shaping upper die is pressed with the stator, the shaping upper die is reset after 0.2S pressing, the reset sensor of the shaping upper die senses a reset signal, the control box controls the feeding and pushing mechanism to push the shaped stator to the discharging and pushing mechanism, the discharging and pushing mechanism automatically arranges the shaped stator to be pushed to equipment in the next step process, the steps are circulated, the stator is shaped and flattened in an automatic mode, the labor cost is reduced, the production efficiency is increased, and the stator shaping and flattening device is easy to popularize and apply in manufacturing factories.

Description

Shaping and flattening system for central hole of main stator of shaded pole motor

Technical Field

The utility model belongs to the technical field of a main stator of a shaded pole motor, and particularly relates to a shaping and flattening system for a central hole of the main stator of the shaded pole motor.

Background

At present, a motor stator is taken and placed manually, the motor stator is placed on an oil press, the oil press is used for shaping the motor stator, wherein the manual capacity can only be 600 plus 800PCS/H, the labor cost is high, the working efficiency is low easily, the requirements of enterprise development cannot be met, and the shaping process of the oil press can cause noise and can affect the health of workers in the environment for a long time.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a hole shaping and flattening system for a main stator of a shaded pole motor, which can solve the above problems.

A shading and flattening system for a hole in a main stator of a shaded pole motor comprises:

a frame;

a table positioned on the frame;

the shaping device comprises a bottom plate positioned on the workbench, two support rods with one ends fixedly connected with the bottom plate, a top plate fixedly connected with the other ends of the two support rods, an upper shaping die positioned between the bottom plate and the top plate and movably connected with the bottom plate up and down, and a shaping oil cylinder positioned on the top plate and used for driving the upper shaping die to move up and down, wherein the upper shaping die is provided with a reset inductor;

the discharging and pushing mechanism is positioned on the workbench;

the feeding and pushing mechanism is positioned on the workbench and used for pushing a fed stator below the shaping upper die and pushing the shaped stator on the discharging and pushing mechanism; and

and the control box is positioned on the rack and is respectively connected with the shaping oil cylinder, the reset inductor, the discharging and pushing mechanism and the feeding and pushing mechanism.

Furthermore, the feeding and pushing mechanism comprises a feeding chute, a first pushing chute and a first pushing cylinder, wherein the feeding chute is arranged on the workbench, the first pushing chute is arranged on the workbench and communicated with the feeding chute, the first pushing cylinder is arranged on the first pushing chute and connected with the control box, and the first pushing chute is provided with a shaping front inductor connected with the control box.

Furthermore, ejection of compact pushing equipment is including being located ejection of compact spout on the workstation, being located on the workstation and with the communicating second of ejection of compact spout pushes away the material spout and is located on the second pushes away the material spout and with the second that the control box is connected pushes away the material cylinder, the second pushes away the material spout be equipped with the inductor after the first plastic that the control box is connected.

Furthermore, the discharging and pushing mechanism further comprises a third pushing chute and a third pushing cylinder, wherein the third pushing chute is located on the workbench and communicated with the second pushing chute, the third pushing cylinder is located on the third pushing chute and connected with the control box, and the third pushing chute is provided with a second shaping post-inductor connected with the control box.

Compared with the prior art, the center hole shaping and flattening system of the main stator of the shaded pole motor pushes the stator to be below a shaping upper die and above a bottom plate of a shaping device through a feeding and pushing mechanism, then the feeding and pushing mechanism transmits a signal to a control box, the control box drives a shaping oil cylinder of the shaping device to move downwards, a shaping shaft of the shaping upper die is arranged in a center hole of the stator, the shaping upper die is pressed on the stator, after 0.2S of pressing, the control box drives the shaping oil cylinder to reset so that the shaping upper die is reset, meanwhile, a reset sensor of the shaping upper die senses a reset signal and transmits the signal to the control box, the control box controls the feeding and pushing mechanism to push the shaped stator to be pushed to a discharging and pushing mechanism, the discharging and pushing mechanism automatically arranges the shaped stator to be pushed to equipment in the next step, the steps of shaping the stator are circulated, and the stator is shaped and flattened in an automatic mode, the labor cost is reduced, the production efficiency is increased, the productivity is improved to 1200 plus 1500pcs/H, and the method is easy to popularize and apply in manufacturing factories.

Drawings

Fig. 1 is a schematic structural diagram of a hole shaping and flattening system in a main stator of a shaded pole motor provided by the utility model.

Fig. 2 is a schematic structural diagram of the hole shaping and flattening system in the main stator of the shaded pole motor in the other direction.

Fig. 3 is a schematic structural diagram of the shaping device.

Fig. 4 is a schematic diagram of a hole shaping and flattening system in a main stator of a shaded pole motor.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the utility model is not intended to limit the scope of the utility model.

Fig. 1 to 4 are schematic structural diagrams of a hole reshaping and flattening system in a main stator of a shaded pole motor according to the present invention. A shading and flattening system for a hole in a main stator of a shaded pole motor comprises:

a frame 10;

a table 20 on the frame 10;

the shaping device 30 comprises a bottom plate 31 positioned on the workbench 20, two support rods 32 with one ends fixedly connected with the bottom plate 31, a top plate 33 fixedly connected with the other ends of the two support rods 32, an upper shaping die 34 positioned between the bottom plate 31 and the top plate 33 and movably connected with the bottom plate 31 up and down, and a shaping oil cylinder 35 positioned on the top plate 33 and used for driving the upper shaping die 34 to move up and down, wherein the upper shaping die 34 is provided with a reset sensor 341;

a discharging and pushing mechanism 40 positioned on the workbench 20;

the feeding and pushing mechanism 50 is located on the workbench 20 and used for pushing the fed stator 70 below the shaping upper die 34 and pushing the shaped stator 70 on the discharging and pushing mechanism 40; and

and the control box 60 is positioned on the rack 10, and the control box 60 is respectively connected with the shaping oil cylinder 35, the reset sensor 341, the discharging and pushing mechanism 40 and the feeding and pushing mechanism 50.

The feeding and pushing mechanism 50 is connected with the equipment of the previous process, the stator 70 enters the feeding and pushing mechanism 50, the feeding and pushing mechanism 50 pushes the stator 70 to be below the shaping upper die 34 of the shaping device 30 and above the bottom plate 31 (the distance between the pushing stators 70 is set), then the feeding and pushing mechanism 50 transmits a signal to the control box 60, the control box 60 drives the shaping oil cylinder 35 of the shaping device 30 to move downwards, the shaping shaft of the shaping upper die 34 is positioned in the central hole of the stator 70, the shaping upper die 34 is pressed on the stator 70, after 0.2S of pressing, the control box 60 drives the shaping oil cylinder 35 to reset so as to reset the shaping upper die 34, the reset sensor 341 of the shaping upper die 34 senses a reset signal and transmits the signal to the control box 60, the control box 60 controls the feeding and pushing mechanism 50 to push the shaped stator 70 to be on the discharging mechanism 40 (the distance between the pushing stators 70 is set, with push away the material in the shaping of shaping device 30 go up the below of mould 34, the distance in the top of bottom plate 31 is different), ejection of compact pushing equipment 40 is automatic arrange the stator 70 after the shaping well and is pushed away in the equipment of next step process, circulate above shaping stator 70 step, carry out the shaping through automatic mode to stator 70 and flatten, the cost of labor has been reduced, production efficiency has been increased, and the productivity improves to 1200 and 1500pcs/H, popularize and apply in manufacturing factory very easily, be favorable to the enterprise development.

The feeding and pushing mechanism 50 comprises a feeding chute 51 positioned on the workbench 20, a first pushing chute 52 positioned on the workbench 20 and communicated with the feeding chute 51, and a first pushing cylinder 53 positioned on the first pushing chute 52 and connected with the control box 60, wherein the first pushing chute 52 is provided with a pre-shaping inductor 521 connected with the control box 60. The feeding chute 51 is connected with the equipment of the previous process, the stators 70 enter the feeding chute 51, one stator 70 entering the feeding chute 51 is mutually extruded, so that the two stators 70 are positioned on the first material pushing chute 52, the two stators 70 are sensed by the pre-shaping sensor 521 and transmitted to the control box 60, the control box 60 drives the first material pushing cylinder 53 to push the two stators 70 to be pushed below the shaping upper die 34 and above the bottom plate 31 of the shaping device 30, then the first material pushing cylinder 53 is reset, the reset signal is transmitted to the control box 60, and the control box 60 drives the shaping oil cylinder 35 to shape and press the two stators 70.

The discharging and pushing mechanism 40 comprises a discharging chute 41 located on the workbench 20, a second pushing chute 42 located on the workbench 20 and communicated with the discharging chute 41, and a second pushing cylinder 43 located on the second pushing chute 42 and connected with the control box 60, wherein the second pushing chute 42 is provided with a first post-shaping inductor 421 connected with the control box 60. After the shaping upper die 34 of the shaping device 30 shapes and presses the two stators 70 and the shaping upper die 34 is reset, the control box 60 controls the first material pushing cylinder 53 to push the two stators 70 again, the two stators 70 are pushed to the material discharging chute 41, after the two stators 70 after shaping and pressing extrude the two stators 70 after shaping and pressing, so that the two stators 70 after shaping and pressing are positioned on the second material pushing chute 42, the sensor 421 after first shaping senses a signal and transmits the signal to the control box 60, and the control box 60 drives the second material pushing cylinder 43 to push the two stators 70.

The discharging and pushing mechanism 40 further includes a third pushing chute 44 located on the working table 20 and communicated with the second pushing chute 42, and a third pushing cylinder 45 located on the third pushing chute 44 and connected to the control box 60, wherein the third pushing chute 44 is provided with a second post-shaping inductor 441 connected to the control box 60. The setting is carried out according to the position, the connection position or the actual production requirement of the equipment connected with the next step procedure, the stator 70 in the second material pushing chute 42 is arranged in the third material pushing chute 44, the signal is sensed by the second shaped inductor 441 and transmitted to the control box 60, and the control box 60 drives the third material pushing cylinder 45 to discharge and push the stator 70 to the equipment in the next step procedure. It should be noted that the equipment in the next step has a processing requirement on the opening direction of the stator 70, and the opening direction of the shaped stator 70 is changed to be consistent through the arrangement of the third material pushing chute 44, so as to meet the processing requirement of the equipment in the next step.

Compared with the prior art, the center hole shaping and flattening system of the main stator 70 of the shaded pole motor provided by the utility model pushes the stator 70 below the shaping upper die 34 of the shaping device 30 and above the bottom plate 31 through the feeding and pushing mechanism 50, then the feeding and pushing mechanism 50 transmits a signal to the control box 60, the control box 60 drives the shaping oil cylinder 35 of the shaping device 30 to move downwards, the shaping shaft of the shaping upper die 34 is positioned in the center hole of the stator 70, the shaping upper die 34 is pressed on the stator 70, after 0.2S of pressing, the control box 60 drives the shaping oil cylinder 35 to reset so as to reset the shaping upper die 34, meanwhile, the reset sensor 341 of the shaping upper die 34 senses a reset signal and transmits the signal to the control box 60, the control box 60 controls the feeding and pushing mechanism 50 to push the shaped stator 70 to the discharging and pushing mechanism 40, the discharging mechanism 40 automatically arranges the shaped stator 70 into equipment for the next step, the steps of shaping the stator 70 are circulated, the stator 70 is shaped and flattened in an automatic mode, the labor cost is reduced, the production efficiency is increased, the productivity is improved to 1200 plus 1500pcs/H, and the method is easy to popularize and apply in manufacturing factories.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, and any modifications, equivalents or improvements that are within the spirit of the present invention are intended to be covered by the following claims.

Claims

1. A shading and flattening system for a central hole of a main stator of a shaded pole motor is characterized by comprising:

a frame;

a table positioned on the frame;

the discharging and pushing mechanism is positioned on the workbench;

2. The system for shaping and flattening the central hole in the main stator of the shaded pole motor according to claim 1, wherein the feeding and pushing mechanism comprises a feeding chute located on the workbench, a first pushing chute located on the workbench and communicated with the feeding chute, and a first pushing cylinder located on the first pushing chute and connected with the control box, and the first pushing chute is provided with a pre-shaping inductor connected with the control box.

3. The system for shaping and flattening the central hole of the main stator of the shaded pole motor according to claim 1, wherein the discharging and pushing mechanism comprises a discharging chute located on the workbench, a second pushing chute located on the workbench and communicated with the discharging chute, and a second pushing cylinder located on the second pushing chute and connected with the control box, and the second pushing chute is provided with a first shaped inductor connected with the control box.

4. The system for shaping and flattening the central hole of the main stator of the shaded pole motor according to claim 3, wherein the discharging and pushing mechanism further comprises a third pushing chute located on the workbench and communicated with the second pushing chute, and a third pushing cylinder located on the third pushing chute and connected with the control box, and the third pushing chute is provided with a second shaped inductor connected with the control box.