CN214622714U - Testing device - Google Patents

Abstract

A testing device comprises a feeding mechanism, a transferring mechanism and a testing mechanism, wherein the feeding mechanism comprises a first sliding table, a discharging carrier, an acquisition module and a push block module, the discharging carrier is arranged on the first sliding table in a sliding mode and used for bearing a product with a clamping groove, and an identification card is arranged in the clamping groove; the collecting module is arranged on one side of the moving direction of the material placing carrier and used for collecting the identification code on the identification card; the ejector pad module is used for pushing the draw-in groove and the identification card of the product after the identification code is collected into the product, the transfer mechanism is arranged above the feeding mechanism and the testing mechanism and used for transferring the product on the discharging carrier to the testing mechanism, the testing mechanism comprises a second sliding table, a testing carrier and a plug module, the testing carrier is arranged on the second sliding table in a sliding mode and used for bearing the product transferred by the transfer mechanism, and the plug module is arranged on the second sliding table in a sliding mode and used for being connected with an interface of the product to test the product. The testing device not only lightens the labor intensity of workers, but also improves the testing efficiency.

Description

Testing device

Technical Field

The application relates to the field of product testing, in particular to a testing device.

Background

In order to ensure the quality of products, the products need to be tested before leaving factories, but the traditional manual test needs to transfer the products manually and carry out plug-in test on the products, so that the labor intensity is high and the test efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a testing apparatus, which can improve testing efficiency.

The embodiment of the application provides a testing device, which comprises a feeding mechanism, a transferring mechanism and a testing mechanism, wherein the feeding mechanism comprises a first sliding table, a discharging carrier, an acquisition module and a push block module, the discharging carrier is arranged on the first sliding table in a sliding mode and used for bearing a product with a clamping groove, and an identification card is arranged in the clamping groove; the acquisition module is used for acquiring the identification code on the identification card; the ejector pad module is located one side of first slip table is used for the identification code of product will after being gathered draw-in groove and identification card push into inside the product, it locates to move the mechanism of carrying material loading mechanism with the accredited testing organization top is used for with product on the blowing carrier is transferred extremely accredited testing organization is last, accredited testing organization includes second slip table, test carrier and plug module, test carrier slides and locates on the second slip table, be used for bearing carry the product that the mechanism of carrying material loading moved, the plug module slides and locates on the second slip table, through the second slip table drives test carrier with the plug module is along first direction or back-to-back motion in opposite directions, so that the plug module is connected or is broken away from the interface of product.

Further, in some embodiments of the present application, the first sliding table includes a first slide rail disposed along a first direction, the discharge carrier is slidably disposed on the first slide rail, and the discharge carrier is driven by the first slide rail to move along the first direction.

Further, in some embodiments of the present application, the pushing block module includes a second sliding rail disposed along a second direction perpendicular to the first direction, a sliding block slidably disposed on the second sliding rail, and a pushing block connected to the sliding block, and the second sliding rail drives the pushing block to move toward the discharging carrier along the second direction through the sliding block, so as to push the card slot and the identification card into the product.

Further, in some embodiments of the present application, the transferring mechanism includes a moving guide rail disposed along the second direction and a clamping portion slidably disposed on the moving guide rail, and the clamping portion is configured to transfer the product on the placing carrier to the test carrier and transfer the tested product to a temporary storage.

Further, in some embodiments of this application, the clamping part includes mounting panel, holder and lifter, the mounting panel slide set up in on the removal guide rail, the lifter install in on the mounting panel and connect in the holder for drive the holder reciprocates.

Further, in some embodiments of this application, the second slip table includes the edge the third slide rail that the first direction set up, test carrier and plug module slide respectively and locate on the third slide rail, the third slide rail can drive test carrier and plug module are in opposite directions or back of the body motion along the first direction, so that the plug module is connected or is broken away from the interface of product.

Further, in some embodiments of the present application, a groove for placing a product is disposed on the test carrier, and a through hole communicated with an interface of the product is disposed on one side of the test carrier, which is close to the plug module.

Further, in some embodiments of this application, the plug module includes that the slip seat that slides and locate on the third slide rail with be fixed in plug spare on the slip seat, the third slide rail passes through the slip seat drives plug spare is followed first direction orientation test carrier removes, makes plug spare passes the through-hole is connected the interface of product.

Further, in some embodiments of this application, gather the module and include support, installation piece and camera, the support is located one side of first slide rail, installation piece one end is connected the support, and the other end extends to the top of first slide rail, the camera install in on the installation piece just the shooting direction perpendicular to of camera the length direction of second slide rail.

Further, in some embodiments of the present application, one of the test carrier and the plugging module is fixed on the second sliding table, and the other is slidably disposed on the second sliding table.

Above-mentioned testing arrangement pushes away the inside of product through the identification card of ejector pad module in with draw-in groove and draw-in groove, and transfer the product to accredited testing organization through moving the mechanism of carrying, realize the transportation of product, test carrier and plug module through accredited testing organization move on the second slip table, accomplish the butt joint of plug module and the interface of product and break away from, carry out the product test, compare in artifical transport product and manual grafting product, artificial intensity of labour has not only been alleviateed, and very big promotion the efficiency of test.

Drawings

FIG. 1 is a schematic diagram of a test apparatus according to an embodiment.

Fig. 2 illustrates a schematic structural diagram of the feeding mechanism in an embodiment.

Fig. 3 illustrates a schematic structural diagram of a transfer mechanism in an embodiment.

FIG. 4 is a schematic diagram of a testing mechanism in one embodiment.

Description of the main elements

Test apparatus 100

Feeding mechanism 10

First slipway 11

First slide rail 111

Emptying carrier 12

Collection module 13

Bracket 131

Mounting block 132

Camera 133

Push block module 14

Second slide rail 141

Sliding block 142

Push block 143

Transfer mechanism 20

Moving guide rail 21

Clamping part 22

Mounting plate 221

Clamping member 222

Lifting member 223

Testing mechanism 30

Second slide table 31

Third slide rail 311

Test carrier 32

Groove 321

Through hole 322

Plug-in module 33

Sliding seat 331

Plug piece 332

Machine table 40

Carrier plate 41

Product 200

Card slot 200a

Identification card 200b

The following specific examples will further illustrate the application in conjunction with the above figures.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

The embodiment of the application provides a testing device which comprises a feeding mechanism, a transferring mechanism and a testing mechanism, wherein the feeding mechanism comprises a first sliding table, a discharging carrier, an acquisition module and a push block module, the discharging carrier is arranged on the first sliding table in a sliding mode and used for bearing a product with a clamping groove, and an identification card is arranged in the clamping groove; the acquisition module is used for acquiring the identification code on the identification card; the ejector pad module is arranged on one side of the first sliding table and used for pushing the clamping groove and the identification card into the product after the identification code of the product is collected, the load transferring mechanism is arranged above the loading mechanism and the testing mechanism and used for transferring the product on the discharging carrier to the testing mechanism, the testing mechanism comprises a second sliding table, a testing carrier and a plug-pull module, the testing carrier is arranged on the second sliding table in a sliding mode and used for bearing the product transferred by the load transferring mechanism, the plug-pull module is arranged on the second sliding table in a sliding mode and used for driving the plug-pull module of the testing carrier to move in opposite directions or back to back along the first direction through the second sliding table, and therefore the plug-pull module is connected with or separated from an interface of the product.

Above-mentioned testing arrangement pushes away the inside of product through the identification card of ejector pad module in with draw-in groove and draw-in groove, and transfer the product to accredited testing organization through moving the mechanism of carrying, realize the transportation of product, test carrier and plug module through accredited testing organization move on the second slip table, accomplish the butt joint of plug module and the interface of product and break away from, carry out the product test, compare in artifical transport product and manual grafting product, artificial intensity of labour has not only been alleviateed, and very big promotion the efficiency of test.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1, the testing apparatus 100 shown in fig. 1 is used for testing a product 200. The testing device 100 comprises a feeding mechanism 10, a transferring mechanism 20 and a testing mechanism 30, wherein the feeding mechanism 10 is used for feeding a product 200 to be tested, and the transferring mechanism 20 is used for transferring the product 200 between the feeding mechanism 10 and the testing mechanism 30 and establishing connection with the product 200 to be tested through the testing mechanism 30. In an embodiment, the testing apparatus 100 further includes a machine 40, the machine 40 is provided with a supporting plate 41, the loading mechanism 10 and the testing mechanism 30 are both disposed on the supporting plate 41, and the transferring mechanism 20 is connected to the machine 40 and located above the loading mechanism 10 and the testing mechanism 30 for transporting the product 200. In one embodiment, the product 200 may be an electronic device with a card slot 200 a.

Referring to fig. 1 and 2, the feeding mechanism 10 includes a first sliding table 11, a material placing carrier 12, a collecting module 13, and a pushing block module 14. The placing carrier 12 is used for carrying the products 200 with the slots 200a, the identification cards 200b are arranged in the slots 200a of the products 200, and the identification cards 200b contain identification codes corresponding to the products 200. The first sliding table 11 is disposed on the bearing plate 41 along a first direction, and the discharging carrier 12 is slidably disposed on the first sliding table 11, and is driven by the first sliding table 11 to move back and forth along the first direction, so as to move the product 200 on the discharging carrier 12 to the position of the collecting module 13 and the grabbing range of the transferring mechanism 20. The collecting module 13 is disposed on one side of the first sliding table 11 and is configured to collect the identification codes corresponding to the products 200 stored on the identification card 200 b. The push block module 14 is disposed on the other side of the first sliding table 11, and is configured to push the card slot 200a and the identification card 200b of the product 200 with the acquired identification code into the product 200.

Referring to fig. 1 and 3, the transfer mechanism 20 includes a moving rail 21 disposed along a second direction perpendicular to the first direction, and a clamping portion 22 slidably disposed on the moving rail 21. The moving guide 21 is fixed on the machine table 40 and located above the feeding mechanism 10 and the testing mechanism 30. One end of the movable guide rail 21 extends to the end of the first slide rail 111 for cooperating with the clamping portion 22 to clamp the product 200 on the placing carrier 12, and the other end extends to the outside of the machine table 40 for moving the tested product 200 to the temporary storage location. In one embodiment, an end of the movable rail 21 away from the first slide rail 111 extends to an upper level for directly transferring the tested product 200 to the upper level for processing.

Referring to fig. 1 and 4, the testing mechanism 30 is disposed on the carrier plate 41 and is located at one side of the feeding mechanism 10. The testing mechanism 30 includes a second sliding table 31, a testing carrier 32 and a plug module 33, the second sliding table 31 is disposed on the bearing plate 41 along the first direction, the testing carrier 32 is slidably disposed on the second sliding table 31 for bearing the product 200 transferred by the transfer mechanism 20, and the plug module 33 is slidably disposed on the second sliding table 31 for interfacing with the product 200, so as to establish connection with the product 200.

The above-mentioned testing apparatus 100 works by placing a product on the placing carrier 12, driving the placing carrier 12 to move along the first direction through the first sliding table 11, when the placing carrier 12 drives the product to move to the position of the collecting module 13, collecting the identification code corresponding to the product 200 stored on the identification card 200b through the collecting module 13, and pushing the card slot 200a and the identification card 200b of the product 200 with the collected identification code into the product 200 through the push block module 14. When the placing carrier 12 drives the product to move to the position under the transferring mechanism 20, the moving guide rail 21 drives the clamping portion 22 to move to the position above the placing carrier 12 along the second direction close to the first sliding table, so that the clamping portion 22 clamps the product 200 on the placing carrier 12, and after the clamping portion 22 clamps the product 200, the moving guide rail 21 drives the clamping portion 22 to move to the position above the second sliding table 31 along the second direction close to the second sliding table. The second sliding table 31 drives the test carrier 32 to move to the lower side of the clamping portion 22 along the first direction, so that the clamping portion 22 transfers the product 200 to the test carrier 32, and the second sliding table 31 drives the test carrier 32 and the plug module 33 to move close to each other along the second direction, so that the plug module 33 is connected with the interface of the product 200, and connection with the product 200 is achieved.

Referring to fig. 2, in an embodiment, the first sliding table 11 of the feeding mechanism 10 includes a first sliding rail 111, the first sliding rail 111 is disposed on the carrier 41 along a first direction, and the discharging carrier 12 is slidably disposed on the first sliding rail 111 and can be driven by the first sliding rail 111 to move along the first direction. The first direction is parallel to the extending direction of the first slide rail. The first slide rail 111 may be a linear slide rail, a linear guide rail, or the like, and can drive the placing carrier 12 to move back and forth along a first direction, so as to feed the product 200.

Further, the collection module 13 includes a bracket 131, a mounting block 132, and a camera 133. The bracket 131 is disposed at one side of the first slide rail 111, and one end of the mounting block 132 is connected to the bracket 131, and the other end extends to the upper side of the first slide rail 111. The camera 133 is installed at one end of the installation block 132 far away from the bracket, and the shooting direction of the camera 133 is perpendicular to the first direction and faces the placing carrier 12, so that when the placing carrier 12 reaches the position below the position of the camera 133, the identification card 200b installed on the product 200 on the placing carrier 12 is shot to obtain the identification code stored by the identification card 200 b. In one embodiment, the mounting block 132 is adjustably mounted to the bracket 131 to facilitate height adjustment of the camera 133 relative to the drop off carrier 12.

When the camera 133 finishes shooting the identification card 200b mounted on the product 200 on the placing carrier 12, the pusher module 14 pushes the card slot 200a mounted on the product 200 and the identification card 200b in the card slot 200a into the product 200. Further, the pushing block module 14 includes a second slide rail 141, a slider 142 and a pushing block 143. The second slide rail 141 is disposed on the bearing plate 41 along the second direction and located on the other side of the first slide rail 111, the extending direction of the length of the second slide rail 141 is perpendicular to the extending direction of the first slide rail 111, and the shooting direction of the camera 133 is perpendicular to the length direction of the second slide rail 141. The sliding block 142 is slidably disposed on the second sliding rail 141, and the pushing block 143 is connected to the sliding block 142. The slider 142 can be driven by the second slide rail 141 to move toward the first slide rail 111 along the second direction, so as to drive the pushing block 143 to move toward the first slide rail 111, and the card slot 200a and the identification card 200b in the card slot 200a are pushed into the product 200 by the pushing block 143. It is understood that the second slide rail 141 can be a linear slide rail, a linear guide rail, or the like, and the pushing block 143 can be driven to push the card slot 200a and the identification card 200b in the card slot 200a into the product 200. In one embodiment, the pushing block 143 is a contour pushing block, and the shape of the side of the pushing block 143 contacting the card slot 200a is the same as the shape of the card slot 200a facing the pushing block 143.

The working mode of the feeding mechanism 10 is as follows: the emptying carrier 12 is driven to move along a first direction through the first sliding rail 111, when the emptying carrier 12 drives the product 200 to move to a shooting position of the camera 133, the camera 133 collects identification code information stored by an identification card 200b installed on the product 200, after the collection is finished, the second sliding rail 141 drives the sliding block 142 to move close to the emptying carrier 12 along a second direction so as to drive the pushing block 143 to move close to the emptying carrier 12, and the clamping groove 200a and the identification card 200b in the clamping groove 200a are pushed into the product 200 through the pushing block 143. After the product is pushed into the card slot, the discharge carrier 12 is driven by the first slide rail 111 to move to the lower side of the transfer mechanism 20 along the first direction.

Referring to fig. 3, in an embodiment, the clamping portion 22 of the transferring mechanism 20 includes a mounting plate 221, a clamping member 222, and a lifting member 223. The mounting plate 221 is slidably disposed on the moving guide rail 21, and the mounting plate 221 can move back and forth along the second direction under the driving of the moving guide rail 21; the lifting member 223 is slidably mounted on the mounting plate 221, the clamping member 222 is connected to the lifting member 223 for clamping the product, the lifting direction of the lifting member 223 is perpendicular to the second direction, and the lifting member 223 can drive the clamping member 222 to move toward the bearing plate 41, so that the clamping member 222 can take and place the product 200. The mounting plate 221 is driven by the moving guide rail 21 to move along the second direction, so that the mounting plate 221 drives the clamping member 222 to move between the first slide rail 111 and the testing mechanism 30 along the second direction, the lifting member 223 drives the clamping member 222 to move towards the first slide rail 111 to clamp the product 200 on the discharge carrier 12, and the moving guide rail 21 drives the mounting plate 221 to move along the second direction to drive the clamping member 222 to the position corresponding to the testing mechanism 30.

The moving guide rail 21 may be an electric guide rail, a linear guide rail, or the like, and can drive the clamping portion 22 to move back and forth along the second direction, so as to transfer the product 200 between the feeding mechanism 10 and the testing mechanism 30.

The transfer mechanism 20 operates in the following manner: firstly, the mounting plate 221 is driven by the moving guide rail 21 to move to the upper side of the first slide rail 111 along the second direction, the lifting member 223 drives the clamping member 222 to descend along the direction facing the first slide rail 111 and clamp the product 200 through the clamping member 222, at this time, the inside of the product 200 is provided with the card slot 200a and the identification card 200b in the card slot 200a, then the lifting member 223 drives the clamping member 222 to ascend to the original position along the direction away from the first slide rail 111, the moving guide rail 21 drives the mounting plate 221 to move to the upper side of the testing mechanism 30 along the second direction, the lifting member 223 drives the clamping member 222 to descend along the direction facing the testing mechanism and loosen the product 200 through the clamping member 222, so that the product 200 is located on the testing carrier 32 of the testing mechanism 30, and the product 200 is conveyed between the loading mechanism 10 and the testing mechanism 30.

Referring to fig. 4, in an embodiment, the second sliding table 31 of the testing mechanism 30 includes a third sliding rail 311 disposed along a first direction, the test carrier 32 and the plugging module 33 are respectively slidably disposed on the third sliding rail 311, and the test carrier 32 and the plugging module 33 can move toward or away from each other along the first direction under the driving of the third sliding rail 311, so that the plugging module 33 is connected to or disconnected from the interface of the product 200.

The test carrier 32 is provided with a groove 321 for placing the product 200, one side of the test carrier 32 facing the plug module 33 is provided with a through hole 322 adapted to the interface of the product 200, and the through hole 322 is communicated with the interface of the product 200 and is used for the plug module 33 to pass through so as to connect the interface of the product 200.

It is understood that, in another embodiment, the plug module 33 is fixed on the third slide rail 311, the test carrier 32 is slidably disposed on the third slide rail 311, the test carrier 32 can move back and forth along the first direction under the driving of the third slide rail 311 to drive the product 200 to move toward or away from the plug module 33, and the plug module 33 passes through the through hole 322 to connect with or disconnect from the interface of the product 200.

It is understood that, in another embodiment, the test carrier 32 is fixed on the third slide rail 311, the plug module 33 is slidably disposed on the third slide rail 311, and the plug module 33 can move back and forth along the first direction under the driving of the third slide rail 311 to pass through the through hole 322 to connect to or disconnect from the interface of the product 200.

Further, the plug module 33 includes a sliding seat 331 slidably disposed on the third sliding rail 311 and a plug member 332 fixed on the sliding seat 331, where the sliding seat 331 drives the plug member 332 to move along the length direction of the third sliding rail 311, so that the plug member 332 passes through the through hole 322 and is connected to the interface of the product 200, thereby achieving connection with the product 200. The plug 332 can be a USB plug, and can be connected with the product 200 in a USB connection manner, so as to facilitate subsequent testing.

When the testing device 100 is used, firstly, the product 200 with the card slot 200a and the identification card 200b is placed in the placing carrier 12, the placing carrier 12 is driven by the first slide rail 111 to move to the pushing block module 14 along the first direction, the identification code on the identification card 200b is collected by the collecting module 13, then the identification card 200b in the card slot 200a and the identification card 200b in the card slot 200a is pushed into the product 200 by the pushing block module 14, then the placing carrier 12 is driven by the first slide rail 111 to continue to drive the product 200 to move along the first direction, when the placing carrier 12 drives the product 200 to move below the transferring mechanism 20, the mounting plate 221 is driven by the moving guide rail 21 to move to the upper part of the first slide rail 111 along the second direction, the lifting piece 223 drives the clamping piece 222 to descend along the direction close to the placing carrier 12 and pass through the clamping piece 222, and then the clamping piece 222 is driven by the lifting piece 223 to ascend along the direction far away from the placing carrier 12 to the original position, the mounting plate 221 is driven by the moving guide rail 21 to move to the upper side of the test carrier 32 along the second direction, the lifting piece 223 drives the clamping piece 222 to descend along the direction close to the test carrier 32 and loosen the product 200 through the clamping piece 222, so that the product 200 is located in the test carrier 32, the test carrier 32 and the plug-in module 33 are driven by the third slide rail 311 to move in opposite directions along the first direction, the plug-in piece 332 of the plug-in module 33 is connected with the interface of the product 200, connection with the product 200 is achieved, and subsequent testing is facilitated.

Above-mentioned testing arrangement 100 pushes away the inside of product 200 through ejector pad module 14 is automatic with the identification card 200b in draw-in groove 200a and the draw-in groove 200a, and transfer the product 200 to accredited testing organization 30 through moving the mechanism 20 that moves, realize the automatic transportation of product 200, test carrier 32 and plug module 33 through accredited testing organization 30 move on the second slip table, accomplish the butt joint and the breaking away from of plug module 33 and the interface of product 200, realize automatically establishing with product 200 and be connected, compare in manual transport product and manual grafting product, artificial intensity of labour has not only been alleviateed, and very big promotion the efficiency of test.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present application and are not to be taken as limiting the present application, and that suitable changes and modifications to the above embodiments are within the scope of the present disclosure as long as they are within the spirit and scope of the present application.

Claims (10)

1. A testing device is characterized by comprising a feeding mechanism, a transferring mechanism and a testing mechanism;

the feeding mechanism comprises a first sliding table, a discharging carrier, an acquisition module and a push block module, wherein the discharging carrier is slidably arranged on the first sliding table and used for bearing a product with a clamping groove, and an identification card is arranged in the clamping groove; the acquisition module is used for acquiring the identification code on the identification card; the push block module is arranged on one side of the first sliding table and used for pushing the clamping groove and the identification card into the product after the identification code of the product is collected;

the transfer mechanism is arranged above the feeding mechanism and the testing mechanism and used for transferring the products on the discharging carrier to the testing mechanism;

the test mechanism includes second slip table, test carrier and plug module, the test carrier slides and locates on the second slip table for bear carry the product that moves the mechanism and transfer, the plug module slides and locates on the second slip table, through the second slip table drives the test carrier with the plug module is along first direction or back-to-back motion in opposite directions, so that the plug module is connected or is broken away from the interface of product.

2. The testing device as claimed in claim 1, wherein the first sliding table includes a first slide rail disposed along a first direction, and the discharge carrier is slidably disposed on the first slide rail, and is driven by the first slide rail to move along the first direction.

3. The testing device as claimed in claim 2, wherein the pushing block module includes a second slide rail disposed along a second direction perpendicular to the first direction, a sliding block slidably disposed on the second slide rail, and a pushing block connected to the sliding block, the second slide rail drives the pushing block to move along the second direction toward the placing carrier through the sliding block, so as to push the card slot and the identification card into the product.

4. The testing apparatus as claimed in claim 3, wherein the transferring mechanism includes a moving rail disposed along the second direction and a clamping portion slidably disposed on the moving rail, the clamping portion being configured to transfer the product on the discharging carrier to the testing carrier and to transfer the tested product to a temporary storage.

5. The testing device as claimed in claim 4, wherein the clamping portion comprises a mounting plate, a clamping member and a lifting member, the mounting plate is slidably disposed on the moving rail, and the lifting member is disposed on the mounting plate and connected to the clamping member for moving the clamping member up and down.

6. The testing device according to claim 3, wherein the second sliding table includes a third slide rail disposed along the first direction, the test carrier and the plugging module are slidably disposed on the third slide rail, respectively, and the third slide rail can drive the test carrier and the plugging module to move toward or away from each other along the first direction, so that the plugging module is connected to or disconnected from the interface of the product.

7. The testing apparatus as claimed in claim 6, wherein the testing carrier has a recess for placing a product thereon, and a through hole communicating with the connector of the product is formed on a side of the testing carrier close to the plugging module.

8. The testing device as claimed in claim 7, wherein the plugging module includes a sliding seat slidably disposed on the third sliding rail and a plugging member fixed on the sliding seat, and the third sliding rail drives the plugging member to move toward the test carrier along a first direction through the sliding seat, so that the plugging member passes through the through hole to connect to the interface of the product.

9. The testing device as claimed in claim 4, wherein the collection module comprises a bracket, a mounting block and a camera, the bracket is disposed on one side of the first slide rail, one end of the mounting block is connected to the bracket, the other end of the mounting block extends above the first slide rail, the camera is mounted on the mounting block, and the shooting direction of the camera is perpendicular to the length direction of the second slide rail.

10. The testing device as claimed in claim 1, wherein one of the test carrier and the plugging module is fixed on the second sliding table, and the other is slidably disposed on the second sliding table.

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