CN216385552U

CN216385552U - Height detection system for main stator of shaded pole motor

Info

Publication number: CN216385552U
Application number: CN202122942112.7U
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: 2022-04-26
Anticipated expiration: 2031-11-26

Abstract

The utility model discloses a system for detecting the height of a main stator of a shaded pole motor, which comprises: a frame; a worktable on the frame; a feeding area, a discharging area and a defective product area which are positioned on the workbench and are communicated in sequence; a detection device; the defective air cylinder is positioned on the workbench and used for pushing the stator detected to be unqualified in the discharging area into a defective area; and the control box is positioned on the rack and is respectively connected with the depth detection sensor and the defective air cylinder. According to the utility model, the height of the stator is detected in an automatic mode, only the starting switch is needed to be pressed after the stator is debugged, manual operation is not needed, the productivity is improved to 1200 plus 1500pcs/H, the problems of high labor cost, low efficiency and the like are solved, the stator is easy to popularize and apply in a manufacturing factory, and enterprise development is facilitated.

Description

Height detection system for main stator of shaded pole motor

Technical Field

The utility model belongs to the technical field of detection of a main stator of a shaded pole motor, and particularly relates to a height detection system of the main stator of the shaded pole motor.

Background

At present, after a plurality of stator openings are placed towards the same direction, the height detection of the stator is carried out, the stator is generally taken and placed manually at present, and then the simple mechanical go-no go gauge detection is used, wherein the manual capacity can only achieve 600 plus 800PCS/H, the labor cost is high, the working efficiency is low easily, and the requirement of enterprise development cannot be met.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a system for detecting the height of the main stator of a shaded pole motor, which can solve the above problems.

A shaded pole motor main stator height detection system comprising:

a frame;

a table positioned on the frame;

the feeding area, the discharging area and the defective product area are positioned on the workbench and are communicated in sequence;

the detection device comprises a detection seat positioned on the workbench, a driving block movably connected with the detection seat up and down, a detection cylinder positioned on the detection seat and used for driving the driving block to move up and down, a depth detection sensor positioned on the driving block and a pressure head positioned at one end of the depth detection sensor, wherein the pressure head is abutted against a stator in the feeding area, and the depth detection sensor is used for detecting the stator;

the defective product cylinder is positioned on the workbench and used for pushing the stator which is detected to be unqualified in the discharging area into the defective product area; and

and the control box is positioned on the rack and is respectively connected with the depth detection sensor and the defective product cylinder.

Furthermore, the system for detecting the height of the main stator of the shaded pole motor further comprises a material waiting area which is positioned on the workbench and communicated with the material discharging area, and a material waiting cylinder which is positioned on the workbench and used for pushing qualified stators in the material discharging area into the material waiting area, wherein the material waiting cylinder is connected with the control box.

Further, the system for detecting the height of the main stator of the shaded pole motor further comprises a material blocking edge and a material blocking cylinder, wherein the material blocking edge is located between the discharging area and the material waiting area and is movably connected with the workbench vertically, the material blocking cylinder is located on the rack and is used for driving the material blocking edge to move up and down, and the material blocking cylinder is connected with the control box.

Furthermore, a material waiting inductor is arranged in the material waiting area.

Further, a defective inductor is arranged in the defective area.

Further, the system for detecting the height of the main stator and the stator of the shaded pole motor further comprises a control display screen which is positioned on the workbench and connected with the control box.

Compared with the prior art, the height detection system for the main stator of the shaded pole motor can detect the height of the stator in an automatic mode, only needs to press a starting switch after debugging, does not need manual operation, improves the productivity to 1200 plus 1500pcs/H, solves the problems of high labor cost, low efficiency and the like, is easy to popularize and apply in manufacturing factories, and is beneficial to enterprise development.

Drawings

Fig. 1 is a schematic structural diagram of a system for detecting the height of a main stator of a shaded-pole motor according to the present invention.

FIG. 2 is a cross-sectional view of the flooring body when not engaged.

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 fig. 2 are schematic structural diagrams of a system for detecting the height of a main stator of a shaded-pole motor according to the present invention. A shaded pole motor main stator height detection system comprising:

a frame 10;

a table 20 on the frame 10;

a feeding area 21, a discharging area 22 and a defective area 23 which are positioned on the workbench 20 and communicated in sequence;

the detection device 30 comprises a detection seat 31 positioned on the workbench 20, a driving block 32 vertically movably connected with the detection seat 31, a detection cylinder 33 positioned on the detection seat 31 and used for driving the driving block 32 to move up and down, a depth detection sensor 34 positioned on the driving block 32 and a pressure head 35 positioned at one end of the depth detection sensor 34, wherein the pressure head 35 abuts against a stator 80 in the feeding area 21, and the depth detection sensor 34 is used for detecting the stator 80;

a defective air cylinder 40 which is positioned on the workbench 20 and is used for pushing the stator 80 which is detected to be unqualified in the discharging area 22 into the defective area 23; and

and a control box 50 on the frame 10, the control box 50 being connected to the depth detection sensor 34 and the reject cylinder 40, respectively.

Specifically, during the detection operation, the feeding area 21 is connected to a feeding mechanism, the feeding mechanism feeds the stator 80 onto the feeding area 21 (and simultaneously transmits a feedback signal to the control box 50), so that one stator 80 is located below the pressure head 35 of the detection device 30, the control box 50 drives the detection cylinder 33 to move downward to drive the driving block 32 to move downward, so that the depth detection sensor 34 moves downward until the pressure head 35 abuts against the stator 80, the depth sensor detects the height of the stator 80 and transmits a signal to the control box 50 to judge whether the detection result is qualified (and stores the judgment result in the memory of the control box 50), and meanwhile, the detection cylinder 33 drives the driving block 32, the depth detection sensor 34 and the pressure head 35 to reset, and then detects the second stator 80;

the second tested stator 80 pushes the first tested stator 80 to move a product position to the discharging area 22, and then a third stator 80 is tested;

the third stator 80 which is detected completely pushes the second stator 80 which is detected completely to move a product position to the discharging area 22, at the moment, the second stator 80 which is detected completely pushes the first stator 80 which is detected completely to the communicating part of the discharging area 22 and the defective area 23, if the first stator 80 which is detected completely is judged to be qualified, the control box 50 does not control the defective cylinder 40 to start, the qualified stators 80 which are detected completely push the discharging area 22 to enter the equipment of the next step, if the first stator 80 which is detected completely is judged to be unqualified, the control box 50 controls the defective cylinder 40 to start, the defective cylinder 40 pushes the stator 80 to the defective area 23, and then the defective cylinder 40 resets;

the stator 80 is highly detected in an automatic mode, only a starting switch is needed to be pressed after debugging is finished, manual operation is not needed, the productivity is improved to 1200 plus 1500pcs/H, the problems of high labor cost, low efficiency and the like are solved, the method is easy to popularize and apply in a manufacturing factory, and enterprise development is facilitated.

The system for detecting the height of the main stator 80 of the shaded pole motor further comprises a material waiting area 24 which is positioned on the workbench 20 and communicated with the material discharging area 22, and a material waiting cylinder 60 which is positioned on the workbench 20 and used for pushing the stator 80 qualified by detection in the material discharging area 22 into the material waiting area 24, wherein the material waiting cylinder 60 is connected with the control box 50. When the equipment connected with the next step procedure of the discharging area 22 has a problem (for example, when the beats are inconsistent), the feedback signal is transmitted to the control box 50, the control box 50 controls the material waiting cylinder 60 to push the stator 80 qualified for detection in the material waiting area 24, that is, the stator 80 qualified for detection does not enter the equipment of the next step procedure, and the height detection system of the main stator 80 of the shaded pole motor can also continue to detect the height of the stator 80. It should be noted that the material waiting cylinder 60 can push a row of 10 products in the discharging area 22 into the material waiting area 24.

The system for detecting the height of the main stator 80 of the shaded pole motor further comprises a material blocking edge 25 and a material blocking cylinder 70, wherein the material blocking edge 25 is located between the discharging area 22 and the material waiting area 24 and is vertically and movably connected with the workbench 20, the material blocking cylinder 70 is located on the rack 10 and is used for driving the material blocking edge 25 to move up and down, and the material blocking cylinder 70 is connected with the control box 50. In the initial state, the material blocking edge 25 separates the discharging area 22 from the material waiting area 24, and when a problem occurs in the equipment connected with the next step of the discharging area 22, the control box 50 controls the material blocking cylinder 70 to drive the material blocking edge 25 to move downwards (the upper surface of the material blocking edge 25 is flush with the upper surface of the discharging area 22 and the upper surface of the material waiting area 24), so that the discharging area 22 is communicated with the material waiting area 24.

The material waiting area 24 is provided with a material waiting sensor 241. When 60 products in the 6 th row appear in the waiting area 24, the waiting sensor 241 sends out a prompt after sensing that the waiting area 24 is full of 60 product stators 80, so that the worker can move the 60 product stators 80 in the waiting area 24.

The defective area 23 is provided with a defective sensor 231. When 6 products appear in the defective area 23, the defective sensor 231 gives a prompt after sensing that the defective area 23 is full of 6 product stators 80, so that the worker can remove the 6 product stators 80 in the waiting area 24.

The system for detecting the height of the main stator 80 of the shaded pole motor further comprises a control display screen 26 which is positioned on the workbench 20 and connected with the control box 50.

Compared with the prior art, the height detection system for the main stator 80 of the shaded pole motor, provided by the utility model, can be used for detecting the height of the stator 80 in an automatic mode, only needs to press a starting switch after debugging is finished, manual operation is not needed, the productivity is improved to 1200 plus 1500pcs/H, the problems of high labor cost, low efficiency and the like are solved, and the height detection system is easy to popularize and apply in manufacturing factories and is beneficial to enterprise development.

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 system for detecting the height of a main stator of a shaded pole motor is characterized by comprising:

a frame;

a table positioned on the frame;

2. The system for detecting the height of the main stator of the shaded pole motor of claim 1, further comprising a material waiting area which is positioned on the workbench and communicated with the material discharging area, and a material waiting cylinder which is positioned on the workbench and used for pushing the qualified stator detected in the material discharging area into the material waiting area, wherein the material waiting cylinder is connected with the control box.

3. The system for detecting the height of the main stator of the shaded pole motor of claim 2, further comprising a material blocking edge which is located between the discharging area and the material waiting area and is vertically and movably connected with the workbench, and a material blocking cylinder which is located on the frame and is used for driving the material blocking edge to move up and down, wherein the material blocking cylinder is connected with the control box.

4. The system for detecting the height of the main stator of the shaded pole motor as claimed in claim 2, wherein the material waiting area is provided with a material waiting inductor.

5. The system of claim 1, wherein the defective area is provided with a defective sensor.

6. The system of claim 1, further comprising a control display screen positioned on the table and connected to the control box.