CN210894544U

CN210894544U - Transformer comprehensive tester

Info

Publication number: CN210894544U
Application number: CN201921688513.0U
Authority: CN
Inventors: 谢华元
Original assignee: Dongguan Xiangxing Electronic Co ltd
Current assignee: Dongguan Xiangxing Electronic Co ltd
Priority date: 2019-10-10
Filing date: 2019-10-10
Publication date: 2020-06-30
Anticipated expiration: 2029-10-10

Abstract

The utility model discloses a transformer comprehensive tester, which comprises a cabinet, wherein the cabinet is provided with a workbench, the workbench is provided with a conveying mechanism and a control console, one end of the conveying mechanism is provided with a feed chute, the conveying mechanism is provided with a first detection mechanism, a discharge cylinder and a first bad material chute, the first detection mechanism is close to the feed chute, the discharge cylinder and the first bad material chute are respectively and correspondingly arranged at two sides of the feed chute, and the first bad material chute vertically runs through the workbench; the clamping jaw mechanism and the second detection mechanism are fixed on the workbench, and the second bad material groove and the transverse moving cylinder are arranged at one end, far away from the material feeding groove, of the conveying mechanism; the second bad material groove is obliquely embedded into the workbench; a good product groove is formed in the movable end of the transverse moving cylinder, and the movable end of the transverse moving cylinder moves to drive the good product groove to slide on the top of the second bad material groove; the clamping jaw end of the clamping jaw mechanism moves above the conveying mechanism, the second detection mechanism and the good product groove. The utility model provides a transformer comprehensive tester can accurate classified storage bad material.

Description

Transformer comprehensive tester

Technical Field

The utility model relates to a transformer test equipment technical field especially relates to a transformer integrated tester.

Background

With the development of information technology, transformers have been widely used in communication networks. In the process of producing the transformer, the transformer needs to be tested, at present, the tests are independently carried out on respective corresponding instruments, each instrument needs to be operated by a plurality of workers, the production efficiency is low, the product delivery cycle is influenced, and the labor cost is high.

Chinese patent CN201821501484.8 discloses a transformer check out test set, including loading attachment, the transfer chain, unloader and a plurality of function detecting element, be equipped with the microscope carrier that is used for placing the transformer on the transfer chain, function detecting element includes the probe, the probe is connected with detecting instrument, a plurality of charging trays are placed on loading attachment, press from both sides and get the head and press from both sides the transformer clamp that treats the detection and get on the microscope carrier, the microscope carrier will treat the transformer that detects and transport the function detecting element below, the probe moves down contact transformer stitch, detecting instrument detects the transformer, unloader removes the transformer that finishes that will have been detected outside the transfer chain, the material loading of transformer, detect, the unloading is accomplished by this check out test set, need not personnel's intervention and can accomplish the detection fast, the human cost is practiced thrift, and.

However, the above apparatus does not classify and store the bad blanks. The subsequent systematic analysis of the bad materials is difficult, so that the reason for generating the bad materials cannot be quickly and effectively solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a transformer integrated tester can accurate classified storage bad material.

The utility model discloses a technical scheme that transformer integrated test appearance adopted is:

a transformer comprehensive tester comprises a cabinet, wherein a workbench and machine legs are arranged on the cabinet, a conveying mechanism and a control console are fixed on the workbench, a feeding groove is formed in one end of the conveying mechanism, the conveying mechanism is provided with a first detection mechanism, a discharging cylinder and a first bad material groove, the first detection mechanism is close to the feeding groove, the discharging cylinder and the first bad material groove are respectively and correspondingly arranged on two sides of the feeding groove, and the first bad material groove vertically penetrates through the workbench; the clamping jaw mechanism and the second detection mechanism are fixed on the workbench, and the second bad material groove and the transverse moving cylinder are arranged at one end of the conveying mechanism, which is far away from the material feeding groove; the second bad material groove is obliquely embedded into the workbench; the transverse moving cylinder is fixed on the workbench, a good product groove is formed in the movable end of the transverse moving cylinder, and the movable end of the transverse moving cylinder moves to drive the good product groove to slide on the top of the second bad material groove; and the clamping jaw end of the clamping jaw mechanism moves above the conveying mechanism, the second detection mechanism and the good product groove.

Preferably, the feeding chute is a chute, and the inclination angle of the feeding chute is 30-60 degrees.

As a preferred scheme, a positioning cylinder is arranged on the conveying mechanism and arranged between the feeding chute and the first detection mechanism.

Preferably, the console is a touch console.

Preferably, the machine leg comprises a lifting column and a universal wheel.

The utility model discloses a transformer integrated tester's beneficial effect is: the workstation is fixed with transport mechanism and control cabinet, and transport mechanism one end is equipped with the feed chute, and transport mechanism is equipped with first detection mechanism, ejection of compact cylinder and first bad silo, and first detection mechanism is close to the feed chute, and ejection of compact cylinder and first bad silo correspond respectively and locate the feed chute both sides, and first bad silo runs through the workstation perpendicularly. When the first detection mechanism detects that the transformer to be detected is abnormal, the abnormal transformer is pushed into the first bad material groove through the discharging air cylinder for distinguishing. And a clamping jaw mechanism and a second detection mechanism are further fixed on the workbench, and the clamping jaw mechanism and the second detection mechanism are arranged at one end, far away from the feeding chute, of the conveying mechanism. The second bad trough is obliquely embedded into the workbench. The transverse moving cylinder is fixed on the workbench, a non-defective product groove is formed in the movable end of the transverse moving cylinder, and the movable end of the transverse moving cylinder moves to drive the non-defective product groove to slide at the top of the second bad material groove. The clamping jaw end of the clamping jaw mechanism moves above the conveying mechanism, the second detection mechanism and the good product groove. The transformer that finishes through first detection mechanism detection moves to second detection mechanism direction through transport mechanism, and clamping jaw mechanism presss from both sides and gets the transformer and place in second detection mechanism this moment. When the second detection mechanism detects that the transformer is not abnormal, clamping the transformer above the good product groove through the clamping jaw mechanism for classification; when the second detection mechanism detects that the transformer is abnormal, the movable end of the transverse moving cylinder drives the good product groove to move away from the top of the bad material groove of the second, the clamping jaw mechanism clamps the transformer with the detection failure of the second detection mechanism and puts the transformer into the bad material groove of the second, and finally the effect of accurately classifying and storing the bad materials is achieved.

Drawings

Fig. 1 is the structure schematic diagram of the transformer comprehensive tester of the utility model.

Fig. 2 is a schematic structural diagram of a first part of the transformer comprehensive tester of the utility model.

Fig. 3 is a schematic structural diagram of a second part of the transformer comprehensive tester of the present invention.

Fig. 4 is the structure schematic diagram of the transformer comprehensive tester machine foot of the utility model.

Detailed Description

The invention will be further elucidated and described with reference to the following embodiments and drawings in which:

referring to fig. 1-3, a transformer comprehensive tester includes a cabinet 10.

Referring to fig. 4, a worktable 11 and a pedestal 12 are disposed on the cabinet 10. The undercarriage 12 in this embodiment includes a lifting column 121 and a universal wheel 122. The cabinet 10 can be fixed by rotating the lifting column 121; meanwhile, the cabinet 10 may also be moved using the universal wheels 122.

The workbench 11 is fixed with a conveying mechanism 111 and a control console 112, one end of the conveying mechanism 111 is provided with a feeding groove 20, and the conveying mechanism 111 is provided with a first detection mechanism 31, a discharging air cylinder 113 and a first bad material groove 41. In this embodiment, the first detection mechanism 31 detects that the electrical apparatus is bad, that is, whether the contact terminal can be normally conducted. The first detection mechanism 31 is close to the feeding chute 20, the discharging cylinder 113 and the first bad trough 41 are respectively and correspondingly arranged at two sides of the feeding chute 20, and the first bad trough 41 vertically penetrates through the workbench 11. When the first detection mechanism 31 detects that the transformer to be detected is abnormal, the abnormal transformer is pushed into the first bad trough 41 through the discharging cylinder 113 for distinguishing.

The clamping jaw mechanism 50 and the second detection mechanism 32 are further fixed on the working table 11, and the second detection mechanism 32 detects probe detection in this embodiment, that is, detects whether the functions of the contact ends are intact. The clamping jaw mechanism 50 and the second detection mechanism 32 are both arranged at one end of the conveying mechanism 111 far away from the feed chute 20. The second bad material groove 42 is obliquely inserted into the working table 11. The transverse moving cylinder 114 is fixed on the workbench 11, the movable end of the transverse moving cylinder 114 is provided with a good product groove, and the movable end of the transverse moving cylinder 114 moves to drive the good product groove 43 to slide on the top of the second bad material groove 42.

The jaw end of the jaw mechanism 50 moves over the transport mechanism 50, the second detection mechanism 32, and the good product groove 43.

The transformer detected by the first detection mechanism 31 runs towards the second detection mechanism 32 through the transmission mechanism 111, and at this time, the clamping jaw mechanism 50 clamps the transformer and places the transformer on the second detection mechanism 32. When the second detection mechanism 32 detects that the transformer is abnormal, the transformer is clamped above the good product groove 43 through the clamping jaw mechanism 50 for classification; when the second detection mechanism 32 detects that the transformer is abnormal, the movable end of the transverse moving cylinder 114 drives the good product groove 43 to move away from the top of the second bad material groove 42, and the clamping jaw mechanism 50 clamps the transformer with the defect detected by the second detection mechanism 32 and puts the transformer into the second bad material groove 42, so that the effect of accurately storing the bad materials in a classified manner is finally achieved.

The conveying mechanism 111, the first detecting mechanism 31, the second detecting mechanism 32, and the clamping jaw mechanism 50 in this embodiment all belong to the existing mechanisms, and details thereof will not be described in this embodiment.

The feeding chute 20 is a chute, and the inclination angle of the feeding chute 20 is 30-60 degrees. The transformer can be conveniently slid into the conveyor belt.

The conveying mechanism 111 is provided with a positioning cylinder 60, and the positioning cylinder 60 is arranged between the feed chute 20 and the first detection mechanism 31. The transformer with the inclined conveying belt can be positively pushed, and the first detection mechanism 31 can be ensured to detect smoothly.

The console 112 is a touch console 112. The operation of the user is convenient.

The utility model provides a transformer integrated tester, workstation are fixed with transport mechanism and control cabinet, and transport mechanism one end is equipped with the feed chute, and transport mechanism is equipped with first detection mechanism, ejection of compact cylinder and first bad silo, and first detection mechanism is close to the feed chute, and ejection of compact cylinder and first bad silo correspond respectively and locate the feed chute both sides, and first bad silo runs through the workstation perpendicularly. When the first detection mechanism detects that the transformer to be detected is abnormal, the abnormal transformer is pushed into the first bad material groove through the discharging air cylinder for distinguishing. And a clamping jaw mechanism and a second detection mechanism are further fixed on the workbench, and the clamping jaw mechanism and the second detection mechanism are arranged at one end, far away from the feeding chute, of the conveying mechanism. The second bad trough is obliquely embedded into the workbench. The transverse moving cylinder is fixed on the workbench, a non-defective product groove is formed in the movable end of the transverse moving cylinder, and the movable end of the transverse moving cylinder moves to drive the non-defective product groove to slide at the top of the second bad material groove. The clamping jaw end of the clamping jaw mechanism moves above the conveying mechanism, the second detection mechanism and the good product groove. The transformer that finishes through first detection mechanism detection moves to second detection mechanism direction through transport mechanism, and clamping jaw mechanism presss from both sides and gets the transformer and place in second detection mechanism this moment. When the second detection mechanism detects that the transformer is not abnormal, clamping the transformer above the good product groove through the clamping jaw mechanism for classification; when the second detection mechanism detects that the transformer is abnormal, the movable end of the transverse moving cylinder drives the good product groove to move away from the top of the bad material groove of the second, the clamping jaw mechanism clamps the transformer with the detection failure of the second detection mechanism and puts the transformer into the bad material groove of the second, and finally the effect of accurately classifying and storing the bad materials is achieved.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. A transformer comprehensive tester comprises a cabinet, wherein a workbench and machine legs are arranged on the cabinet, a conveying mechanism and a control console are fixed on the workbench, and a feed chute is arranged at one end of the conveying mechanism;

the clamping jaw mechanism and the second detection mechanism are both fixed on the workbench and are arranged at one end, far away from the feed chute, of the conveying mechanism;

the second bad material groove is obliquely embedded into the workbench;

the transverse moving cylinder is fixed on the workbench, a good product groove is formed in the movable end of the transverse moving cylinder, and the movable end of the transverse moving cylinder moves to drive the good product groove to slide on the top of the second bad material groove;

and the clamping jaw end of the clamping jaw mechanism moves above the conveying mechanism, the second detection mechanism and the good product groove.

2. The integrated transformer tester as claimed in claim 1, wherein the feeding chute is a chute, and the feeding chute is inclined at an angle of 30 ° to 60 °.

3. The transformer comprehensive tester as claimed in claim 1, wherein the conveying mechanism is provided with a positioning cylinder, and the positioning cylinder is arranged between the feeding chute and the first detecting mechanism.

4. The transformer comprehensive tester of any one of claims 1 to 3, wherein the console is a touch console.

5. The transformer comprehensive tester as claimed in any one of claims 1 to 3, wherein the machine legs include lifting columns and universal wheels.