CN219016369U - Side position test needle mould module and test equipment - Google Patents

Abstract

The utility model provides a side position test pin die set, which comprises a product positioning insert, a moving platform and a side position pin die; the side needle mould comprises a needle template group which is horizontally arranged and a plurality of probes which penetrate through the needle template group, wherein the needle template group is arranged on the moving platform and is butted to the product positioning insert along with the moving platform; the needle template group is from left to right first needle mould, second needle mould, third needle mould, fourth needle mould and the fifth needle mould that the level was arranged in proper order, and first needle mould is provided with the butt joint mouth in the one side towards product location abaculus, and a plurality of probe passes first needle mould to stretch out by butt joint mouth department. The side position test pin die set provided by the utility model can be used in test equipment of a flexible circuit board and is used for testing the flexible circuit board of a ZIF connector with a side clamping groove. The utility model also provides test equipment, which comprises a carrier plate assembly, a ceiling plate assembly and the side position test pin die set.

Description

Side position test needle mould module and test equipment

Technical Field

The utility model relates to the technical field of automatic testing equipment of flexible circuit boards, in particular to a side position testing pin die set and testing equipment.

Background

With the continuous development of technology, flexible circuit boards are used as core components in more and more electronic devices. After the flexible circuit board is processed, various tests are required to ensure the quality of the processed product and whether each connector on the flexible circuit board works normally. Conventional flexible circuit boards typically have B2B connectors, ZIF connectors, etc. disposed thereon. These connectors are typically slotted on top of the flexible circuit board to facilitate top-to-bottom pin testing of the test equipment. Along with the continuous change of electronic products, more and more connectors of flexible circuit boards are grooved on the side, and the traditional testing equipment cannot meet the accurate needle insertion test of the flexible circuit boards with grooved side.

Disclosure of Invention

The utility model aims to solve the defect that the conventional testing equipment cannot be suitable for testing the side slotting of a connector of a flexible circuit board and cannot automatically perform needle insertion testing on the side slotting connector, and provides a side position testing needle die module.

The technical scheme adopted for solving the technical problems is as follows: a side position test pin die set comprises a product positioning insert for placing a product to be tested, a moving platform arranged on the side surface of the product positioning insert and a side position pin die arranged on the moving platform; the side needle mould comprises a needle template group which is horizontally arranged and a plurality of probes which penetrate through the needle template group, wherein the needle template group is arranged on the moving platform and is butted to the product positioning insert along with the moving platform; the needle template group is from left to right first needle mould, second needle mould, third needle mould, fourth needle mould and the fifth needle mould that the level was arranged in proper order, first needle mould is in the orientation one side of product location abaculus is provided with the butt joint mouth, and a plurality of the probe passes first needle mould, and by the butt joint mouth department stretches out.

In one embodiment, the pin template set further comprises a guide pin arranged on one side surface of the first pin die, which is provided with the butt joint, the side surface of the product positioning insert is provided with a pin guide sleeve which is in butt joint with the guide pin, when the moving platform drives the side position pin die to move to the product positioning insert, the guide pin of the pin template set is inserted into the pin guide sleeve of the product positioning insert.

In one embodiment, the pin template set further comprises a plurality of elastic guide posts, and the first pin die and the second pin die are movably connected through the elastic guide posts.

In one embodiment, the pin template set further comprises a plurality of support columns, and the second pin die and the third pin die are fixedly connected through the support columns.

In one embodiment, the pin template set further includes a pin mold protection plate, one side of which is fixed to the top of the second pin mold, and the other side of which is fixed to the top of the third pin mold.

In one embodiment, the moving platform comprises a horizontal mounting plate, a horizontal guide rail fixed on the horizontal mounting plate, a mounting bracket arranged on the horizontal guide rail and a driving piece fixed below the horizontal mounting plate and used for driving the mounting bracket, and the side needle mold is arranged on the mounting bracket.

In one embodiment, the driving member is a driving cylinder, the driving cylinder is fixed on the bottom surface of the horizontal mounting plate through a cylinder mounting plate, and a driving rod of the driving cylinder is fixedly connected with the mounting bracket through a switching assembly.

In one embodiment, the adapting assembly comprises a floating joint arranged on a driving rod of the driving cylinder, an adapting plate fixedly connected with the floating joint and a connecting seat fixedly connected with the adapting plate and the mounting bracket, and the horizontal mounting plate is provided with a mounting hole for the connecting seat to pass through.

In one embodiment, the mounting bracket comprises a needle die mounting seat fixedly connected with the horizontal guide rail, and a first support frame and a second support frame respectively fixed on two sides of the needle die mounting seat, wherein the first support frame is movably connected with the second needle die, and the second support frame is movably connected with the third needle die.

The side position test pin die set provided by the utility model has the beneficial effects that: this side position test needle mould group can be used for in the test equipment of flexible circuit board for to the test of the flexible circuit board that has the ZIF connector of side draw-in groove use, including side position needle mould and the moving platform of drive side position needle mould to product location abaculus department, in non-test stage, this side position needle mould keeps away from the product location abaculus, avoids the interference of side position needle mould to other processes, in test stage, moves side position needle mould to product location abaculus department through moving platform to dock with the product that awaits measuring in the product location abaculus, make a plurality of probe in the side position needle mould can with the product butt that awaits measuring, thereby realize the puncture test.

The utility model also provides test equipment, which comprises a top plate assembly, a carrier plate assembly and the side position test pin die set on the carrier plate assembly.

The test equipment provided by the utility model has the beneficial effects that: the side position test pin die set is adopted, so that the conventional pin insertion test of the common position to be tested on the flexible circuit board can be realized, and meanwhile, the pin insertion test can be carried out on the ZIF connector with the grooved side surface on the flexible circuit board.

Drawings

FIG. 1 is a schematic perspective view of a side position test pin module according to the present utility model;

FIG. 2 is a schematic perspective view of a side pin removal pin protection plate in a side pin module for testing according to the present utility model;

FIG. 3 is a schematic diagram of a three-dimensional exploded structure of a product positioning insert and a side pin die in a side pin die set for testing according to the present utility model;

FIG. 4 is a schematic diagram of a three-dimensional exploded structure of a mobile platform in a lateral test pin module according to the present utility model;

fig. 5 is a schematic perspective view of a testing apparatus according to the present utility model.

Reference numerals illustrate:

100-side position test pin die set, 10-product positioning insert and 11-pin guide sleeve;

20-moving platform, 21-horizontal mounting plate, 211-mounting hole, 22-horizontal guide rail, 23-mounting bracket, 231-needle mould mounting seat, 232-first support frame, 233-second support frame, 24-driving piece, 25-cylinder mounting plate, 26-switching component, 261-floating joint, 262-switching plate and 263-connecting seat;

30-side needle mould, 31-needle template group, 311-first needle mould, 3111-opposite interface, 3112-guide pin, 312-second needle mould, 313-third needle mould, 314-fourth needle mould, 315-fifth needle mould, 316-elastic guide column, 317-support column, 318-needle mould protecting plate;

200-test equipment, 210-antenna board assembly, 220-carrier board assembly.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1-4, a side test pin module 100 according to the present utility model is provided. The lateral test pin die set 100 is applied to the existing test equipment 200, and can complete the pin insertion test of the ZIF connector with the side slot in the existing test equipment 200.

Fig. 1 is a schematic perspective view of a side-position test pin module 100 according to the present utility model. The side position test pin die set 100 comprises a product positioning insert 10 for placing a product to be tested, a moving platform 20 arranged on the side surface of the product positioning insert 10, and a side position pin die 30 arranged on the moving platform 20. The product positioning insert 10 is used for positioning and fixing a product to be tested, namely a ZIF connector to be tested on a flexible circuit board in a matching manner. The opening of the ZIF connector is arranged on one side surface of the product positioning insert 10 facing the side needle mold 30, so that when the side needle mold 30 is driven to move towards one side of the product positioning insert 10 by the moving platform 20 during testing, the side needle mold 30 can be abutted with the ZIF connector of a product to be tested, and the needle insertion test is realized. The moving platform 20 is arranged on the side surface of the product positioning insert 10, and can drive the side needle mould 30 to translate in the horizontal direction, when the test is needed, the side needle mould 30 is moved to the product positioning insert 10, after the test is finished, the side needle mould 30 is moved out of the product positioning insert 10, so that interference caused by other operations of the side needle mould 30 on a product to be tested on the product positioning insert 10 is avoided.

Fig. 2 is a schematic perspective view of a side pin module 30 in a side pin module 100 according to the present utility model. The side needle mold 30 includes a horizontally disposed needle template set 31 and a plurality of probes 32 penetrating the needle template set 31. The plurality of probes 32 arranged on the needle template group 31 are positioned in the needle template group 31 in an initial state, and only when the needle template group 31 contacts a product to be tested, the plurality of probes 32 extend out of the needle template group 31, so that the probes 32 can directly contact a test surface of the product to be tested, and the test is completed.

In this embodiment, as shown in fig. 1, the pin template set 31 is disposed on the moving platform 20, and along with the butt joint of the moving platform 20 to the product positioning insert 10, the pin template set 31 can move on a horizontal plane along with the driving of the moving platform 20, and when the moving platform 20 drives the pin template set 31 to move to the product positioning insert 10, the side surface of the pin template set 31 abuts against the side surface of the product to be tested, so that the probe 32 in the pin template set 31 protrudes from the pin template set 31 and contacts with the test surface of the product to be tested.

As shown in fig. 2, in the present embodiment, the pin template group 31 in the side test pin module 100 is horizontally arranged from left to right in order of a first pin module 311, a second pin module 312, a third pin module 313, a fourth pin module 314 and a fifth pin module 315. The side test pin die set 100 provided by the utility model is suitable for testing a flexible circuit board with an opening of a ZIF connector facing to a side surface. Therefore, the needle template group 31 provided by the utility model is also correspondingly arranged in a horizontally arranged structure, and is horizontally arranged as a whole, so that a plurality of probes 32 penetrating through the needle template group 31 can also be horizontally arranged. The first pin die 311, the second pin die 312, the third pin die 313, the fourth pin die 314 and the fifth pin die 315 in the pin template set 31 are not only horizontally arranged, but also the thickness of each pin die in the pin template set 31 is reduced as much as possible on the premise of ensuring that the whole function of the pin template set 31 is unchanged in order to reduce the influence on other components on the existing test equipment 200 as much as possible.

Fig. 3 is a schematic diagram showing a three-dimensional exploded structure of the product positioning insert 10 and the side pin mold 30 in the side pin mold 100 according to the present utility model. The first pin die 311 of the side pin die 30 is a part close to the product positioning insert 10, the first pin die 311 is provided with a butt joint 3111 at a side facing the product positioning insert 10, and a plurality of probes 32 penetrate the first pin die 311 and protrude from the butt joint 3111. The interface 3111 includes four probe outlets arranged in parallel at the center of the first pin die 311, and other probe outlets symmetrically arranged at both sides of the four probe outlets. The number of the probes 32 is set according to the test requirement by the plurality of probes 32 disposed in the side pin die 30, and the arrangement of the interface 3111 on the first pin die 311 is also adaptively adjusted according to the actual design requirement. In the initial state of the side pin die 30, all the probes 32 arranged in the test pin die 30 pass through the first pin die 311 and are positioned in the butt joint port 3111 of the first pin die 311, and during testing, the probes 32 extend out from the end part of the butt joint port 3111 and are pricked on the test surface of the product to be tested.

In this embodiment, as shown in fig. 3, when the test pin die 30 is docked with the product positioning insert 10, in order to ensure the accuracy of the docking position of the product positioning insert 10 with the test pin die 30. The pin template set 31 further comprises guide pins 3112 disposed on a side surface of the first pin mold 311 having the abutting port 3111, a pin guide sleeve 11 abutting against the guide pins 3112 is disposed on a side surface of the product positioning insert 10, and when the moving platform 20 drives the side pin mold 30 to move to the product positioning insert 10, the guide pins 3112 of the pin template set 31 are inserted into the pin guide sleeve 11 of the product positioning insert 10. The guide pins 3112 on the pin template set 31 are arranged in one-to-one correspondence with the pin guide sleeves 11 on the product positioning insert 10, so that the pin template set 31 can be accurately abutted with the product positioning insert 10 when the moving platform 20 drives the pin template set 31 to move to the product positioning insert 10.

As shown in fig. 2 and 3, in the test pin die 30 provided by the present utility model, the pin die plate set 31 further includes a plurality of elastic guide posts 316, and the first pin die 311 and the second pin die 312 are movably connected through the elastic guide posts 316. The elastic connection between the first pin die 311 and the second pin die 312 in the pin die plate set 31 can realize that the front ends of the probes 32 can be folded in the butt joint 3111 of the first pin die 311 in the initial state, and only after the side surface of the first pin die 311 with the butt joint 3111 is abutted against the side surface of the product to be tested during testing, the pin die plate set 31 is continuously driven to move towards the product positioning insert 10, so that the second pin die 312 is continuously driven to be fixed towards the first pin die 311, and all the probes 32 are driven to extend out of the butt joint 3111 of the first pin die 311. The elastic guide 316 acts to compress the relative position between the first pin die 311 and the second pin die 312 at this time so that the probe 32 protrudes. In the present embodiment, three elastic guide posts 316 are provided between the first pin die 311 and the second pin die 312, so that smoothness in relative movement between the first pin die 311 and the second pin die 312 is ensured.

As shown in fig. 2, the pin template set 31 in the test pin die 30 provided by the present utility model further includes a plurality of support columns 317, and the second pin die 312 and the third pin die 313 are fixedly connected through the support columns 317. In the present embodiment, two support columns 317 are disposed in the pin template set 31, and during the actual assembly process of the test pin module 30, the second pin module 312 and the third pin module 313 are respectively mounted to two ends of the support columns 317, such that the second pin module 312, the two support columns 317 and the third pin module 313 form a whole, and the second pin module 312 and the third pin module 313 are mounted on the moving platform 20, so as to achieve the fixed connection between the pin template set 31 and the moving platform 20. Then, the first pin die 311 of the pin pattern plate set 31 is mounted on the side of the second pin die 312 through the elastic guide posts 316, and the fourth pin die 314 and the fifth pin die 315 are gradually mounted on the side of the third pin die 313. Finally, a plurality of probes 32 are arranged in a plurality of needle molds which are horizontally arranged in the needle template group 31 one by one.

As shown in fig. 3, the pin template set 31 in the test pin die 30 provided by the present utility model further includes a pin die protecting plate 318, one side of the pin die protecting plate 318 is fixed to the top of the second pin die 312, and the other side is fixed to the top of the third pin die 313. The pin mold protection plate 318 is positioned between the second pin mold 312 and the third pin mold 313, and can effectively protect the plurality of probes 32 positioned between the second pin mold 312 and the third pin mold 313 from various influences of external environments on the probes 32.

Fig. 4 is an exploded view of the movable platform 20 in the side test pin module 100 according to the present utility model. The moving platform 20 is disposed in the testing device 200 and located on the side of the product positioning insert 10, and can drive the test pin die 30 located above it to reciprocate in the horizontal direction. The moving platform 20 comprises a horizontal mounting plate 21, a horizontal guide rail 22 fixed on the horizontal mounting plate 21, a mounting bracket 23 arranged on the horizontal guide rail 22, and a driving piece 24 fixed below the horizontal mounting plate 21 and driving the mounting bracket 23, wherein a side needle mold 30 is arranged on the mounting bracket 23. The horizontal mounting plate 21 may be directly fixed to the carrier plate of the test apparatus 200, and the side pin die 30 is in driving connection with the driving member 24 through the horizontal mounting plate 21. The horizontal guide rail 22 is provided on the top surface of the horizontal mounting plate 21, and the moving direction and the moving distance of the side needle mold 30 are defined by the horizontal guide rail 22. The mounting bracket 23 is fixed on the sliding block of the horizontal guide rail 22 and fixedly connected with the side needle mold 30 and the driving piece 24, thereby realizing transmission connection between the driving piece 24 and the side needle mold 30. The driving member 24 is provided on the bottom surface of the horizontal mounting plate 21 for driving the mounting bracket 23 to move horizontally on the horizontal guide rail 22.

In this embodiment, as shown in fig. 4, the driving member 24 in the moving platform 20 is a driving cylinder, the driving cylinder is fixed on the bottom surface of the horizontal mounting plate 21 through a cylinder mounting plate 25, and the driving rod of the driving cylinder is fixedly connected with the mounting bracket 23 through a switching assembly 26. The side of the driving cylinder is provided with a vacuum gas pipe, and a magnetic switch (not shown in the figure). The driving cylinder is fixed to a cylinder mounting plate 25, and the cylinder mounting plate 25 is directly fixed to the bottom surface of the horizontal mounting plate 21. The extension and retraction direction of the driving rod of the driving cylinder is consistent with the setting direction of the horizontal guide rail 22 positioned on the horizontal mounting plate 21, and the driving rod is fixedly connected with the mounting bracket 23 through the switching component 26. When the drive rod is extended and retracted, the mounting bracket 23 above the horizontal mounting plate 21 is driven to translate relative to the horizontal mounting plate 21.

The adapting assembly 26 in the mobile platform 20 comprises a floating joint 261 arranged on a driving rod of a driving cylinder, an adapting plate 262 fixedly connected with the floating joint 261, and a connecting seat 263 for fixedly connecting the adapting plate 262 with the mounting bracket 23, and a mounting hole 211 for the connecting seat 263 to penetrate is arranged on the horizontal mounting plate 21. The end of the driving rod of the driving cylinder is fixed with a floating joint 261, the other end of the floating joint 261 is fixed on an adapter plate 262, the adapter plate 262 is fixed at the bottom of a connecting seat 263, the connecting seat 263 is provided with a horizontal plate fixedly connected with the adapter plate 262 and two vertical plates arranged on the top surface of the horizontal plate, and the two vertical plates are respectively positioned at two ends of the horizontal plate. Two mounting holes 211 are provided in the horizontal mounting plate 21, and the two mounting holes 211 are located on both sides of the horizontal guide rail 22, respectively. The horizontal plate of the connecting seat 263 is positioned at the bottom of the horizontal mounting plate 21, and two vertical plates extend to the left and right sides of the mounting bracket 23 through two mounting holes 211 of the horizontal mounting plate 21 and are fixedly connected with the horizontal bracket 23.

As shown in fig. 4, in the moving platform 20, the mounting bracket 23 above the horizontal mounting plate 21 includes a pin die mounting seat 231 fixedly connected with the horizontal guide rail 22, and a first supporting frame 232 and a second supporting frame 233 respectively fixed on two sides of the pin die mounting seat 231, wherein the first supporting frame 232 is movably connected with the second pin die 312, and the second supporting frame 233 is movably connected with the third pin die 313. The pin die mounting seat 231 is fixed on a sliding block of the horizontal guide rail 22, and the front side and the rear side are fixedly connected with the first support frame 232 and the second support frame 233, so as to realize the fixed connection with the test pin die 30. Meanwhile, the left and right sides of the needle mold mounting seat 231 are fixedly connected with the connecting seat 263 of the adapting assembly 26, so as to realize the fixed connection with the driving piece 24. The first supporting frame 232 is movably connected with the second needle mold 312 through a movable copper sleeve, so that a certain movable gap is reserved between the first supporting frame 232 and the second needle mold 312; the second supporting frame 233 is movably connected with the third pin die 313 through a movable copper sleeve, so that a certain movable gap is formed between the second supporting frame 233 and the third pin die 313, and movable connection is formed between the pin template set 31 and the mounting bracket 23 in the movable platform 20.

The side test pin die set 100 provided by the utility model can be used in test equipment of a flexible circuit board, is used for testing the flexible circuit board of a ZIF connector with a side clamping groove, comprises a side pin die 30 and a moving platform 20 for driving the side pin die 30 to a product positioning insert 10, wherein the side pin die 30 is far away from the product positioning insert 10 in a non-test stage, interference of the side pin die 30 to other procedures is avoided, and the side pin die 30 is moved to the product positioning insert 10 through the moving platform 20 in the test stage and is in butt joint with a product to be tested in the product positioning insert 10, so that a plurality of probes 32 in the side pin die 30 can be in butt joint with the product to be tested, and the puncture test is realized.

Fig. 5 is a schematic perspective view of a test apparatus 200 according to the present utility model. The utility model also provides a test device 200, which comprises a carrier plate assembly 220, a ceiling plate assembly 210 and the side test pin die set 100 arranged on the carrier plate assembly 220. When the antenna board assembly 210 and the carrier board assembly 220 in the test equipment 200 provided by the utility model are in butt joint with each other, corresponding conventional test operation can be performed on the product placed on the carrier board assembly 220. Meanwhile, the side test pin die set 100 is fixed in the test equipment 200 and on the carrier plate assembly 220, and the ZIF connector with a side slot on the product to be tested on the carrier plate assembly 220 can be used for the needle insertion test through the side test pin die set 100.

After a product to be tested is placed on a product fixing insert 10, a moving platform 20 drives a test pin die 30 to move to the side surface of the product positioning insert 10, and a guide pin 3111 on a first pin die 311 of the test pin die 30 is inserted into a pin guide sleeve 11 of the product positioning insert 10, so that preliminary butt joint of the test pin die 30 and the product positioning insert 10 is realized. Then, after the side surface of the first pin die 311 abuts against the side surface of the product to be tested, the second pin die 312 continuously moves towards the product positioning insert 10, so that the plurality of probes 32 in the pin template set 31 extend out from the abutting port 3111 of the first pin die 311 and then are pricked on the surface to be tested of the product to be tested on the product positioning insert 10, and thus, the side test pin die set 100 is used for realizing the pricking test of the product to be tested. When the test is completed, the moving platform 20 at the bottom of the test pin die 30 drives the test pin die 30 to separate from the product positioning insert 10, so that the test pin die 30 returns to the initial position, and in the separation process, the plurality of probes 32 return to the interface 3111 of the first pin die 311.

The test equipment 200 provided by the utility model adopts the side test pin die module 100, so that the conventional pin insertion test of the common position to be tested on the flexible circuit board can be realized, and the pin insertion test can be performed on the ZIF connector with the slot on the side surface of the flexible circuit board.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The side position test pin die set is characterized by comprising a product positioning insert for placing a product to be tested, a moving platform arranged on the side surface of the product positioning insert and a side position pin die arranged on the moving platform;

the side needle mould comprises a needle template group which is horizontally arranged and a plurality of probes which penetrate through the needle template group, wherein the needle template group is arranged on the moving platform and is butted to the product positioning insert along with the moving platform;

the needle template group is from left to right first needle mould, second needle mould, third needle mould, fourth needle mould and the fifth needle mould that the level was arranged in proper order, first needle mould is in the orientation one side of product location abaculus is provided with the butt joint mouth, and a plurality of the probe passes first needle mould, and by the butt joint mouth department stretches out.

2. The side-position test pin die set according to claim 1, wherein the pin die set further comprises a guide pin arranged on a side surface of the first pin die, which is provided with the butt joint opening, a pin guide sleeve which is in butt joint with the guide pin is arranged on a side surface of the product positioning insert, and when the moving platform drives the side-position pin die to move to the product positioning insert, the guide pin of the pin die set is inserted into the pin guide sleeve of the product positioning insert.

3. The side test pin die set of claim 1, wherein said pin die set further comprises a plurality of resilient guide posts, said first pin die and said second pin die being movably connected by said resilient guide posts.

4. The side test pin die set of claim 1, wherein said pin die set further comprises a plurality of support columns, said second pin die and said third pin die being fixedly connected by said support columns.

5. The side test pin die set of claim 1, wherein the pin die set further comprises a pin die protection plate, one side of the pin die protection plate being fixed to the top of the second pin die and the other side being fixed to the top of the third pin die.

6. The side position test pin die set according to any one of claims 1 to 5, wherein the moving platform comprises a horizontal mounting plate, a horizontal guide rail fixed on the horizontal mounting plate, a mounting bracket arranged on the horizontal guide rail, and a driving member fixed below the horizontal mounting plate for driving the mounting bracket, and the side position pin die is arranged on the mounting bracket.

7. The side position test pin die set of claim 6, wherein the driving member is a driving cylinder, the driving cylinder is fixed on the bottom surface of the horizontal mounting plate through a cylinder mounting plate, and a driving rod of the driving cylinder is fixedly connected with the mounting bracket through a switching assembly.

8. The side position test pin die set according to claim 7, wherein the switching assembly comprises a floating joint arranged on a driving rod of the driving cylinder, an adapter plate fixedly connected with the floating joint, and a connecting seat fixedly connecting the adapter plate with the mounting bracket, and the horizontal mounting plate is provided with a mounting hole for the connecting seat to pass through.

9. The side position test pin die set according to claim 6, wherein the mounting bracket comprises a pin die mounting seat fixedly connected with the horizontal guide rail, and a first supporting frame and a second supporting frame respectively fixed on two sides of the pin die mounting seat, the first supporting frame is movably connected with the second pin die, and the second supporting frame is movably connected with the third pin die.

10. A test apparatus comprising a top plate assembly, a carrier plate assembly, and a side test pin die set according to any one of claims 1-9 disposed on the carrier plate assembly.

Images