CN216696567U - HSBP backplate and PCIE Switch board multi-mode compatibility testing arrangement - Google Patents

Abstract

The utility model relates to the technical field of server board testing, and discloses an HSBP (high speed Back-plate) and PCIE Switch board multi-mode compatibility testing device which comprises a machine table and an operation platform arranged at the machine table, wherein a detection assembly, an HSBP carrier plate assembly and a PCIE Switch carrier plate assembly are arranged at the operation platform; by adopting the HSBP clamping plate and the PCIE Switch clamping plate which are arranged in a split mode, the testing tool and the testing steps are reduced under different testing modes, the testing time and the testing tool cost are saved, and the testing efficiency is greatly improved.

Description

HSBP backplate and PCIE Switch board multi-mode compatibility testing arrangement

Technical Field

The utility model relates to the technical field of server board testing, in particular to a multi-mode compatibility testing device for an HSBP (high speed Back-propagation) back board and a PCIE Switch board.

Background

For the joint test of the HSBP backplane and the PCIE Switch board, three test modes are required: 1. the HSBP backplane is a DUT, the PCIE Switch board is a test assistant board, the PCIE Switch board 2 is a DUT, the HSBP backplane is a test assistant board, and the HSBP backplane 3, the HSBP backplane and the PCIE Switch board are DUTs, and are kept as a whole without separation after testing. For the above three test modes, the existing fixture can be realized in two steps: firstly, the HSBP backplane and the PCIE Switch board are connected into a whole in a butt-plug mode on a simple tool, a butt-connection connector adopted in connection is a high-density connector, the plugging force is large, secondly, the combined body is placed into a test fixture, a 24x hard disk interface is plugged in a butt-plug mode through a quick clamp, then power-on test is carried out, the actions are repeated in each test, the operation actions of operators are increased, the test efficiency is influenced, and therefore improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a multi-mode compatibility testing device for an HSBP (high speed Back-plane) and a PCIE Switch board, which can quickly detect the HSBP and the PCIE Switch board in different modes and improve the detection efficiency.

In order to achieve the purpose, the utility model provides an HSBP back plate and PCIE Switch plate multi-mode compatibility testing device, which includes a machine platform, a machine platform operation platform, a detection assembly, an HSBP carrier plate assembly and a PCIE Switch carrier plate assembly are arranged at the operation platform, the detection assembly is electrically connected to the HSBP carrier plate assembly and the PCIE Switch carrier plate assembly respectively, the HSBP carrier plate assembly includes an HSBP clamp plate, the PCIE Switch carrier plate assembly includes a PCIE Switch clamp plate, the HSBP clamp plate and the PCIE Switch clamp plate are separately arranged, the HSBP clamp plate is vertically arranged at the operation platform, the PCIE Switch clamp plate is horizontally arranged at the operation platform, a positioning column for fixing an external butting connector is arranged at one side of the PCIE Switch clamp plate, and an open clamp surface of the HSBP clamp plate is abutted against one side of the PCIE Switch clamp plate where the positioning column is arranged.

Specifically, the detecting component is equipped with including detecting mounting panel, hard disk module, plug control, the detection mounting panel the rear portion of operation platform's upper surface detects the mounting panel and is close to the one end of HSBP splint is equipped with the plug mounting panel, and the plug mounting panel is located plug mounting panel department and is inserted the first setting towards HSBP splint direction of plug, and the upper surface that detects the mounting panel is located to the hard disk module, and the hard disk module is connected with plug module electricity, and plug control detects the mounting panel and is close to or keeps away from to HSBP splint.

Specifically, the plugging control piece comprises a plugging handle, a plugging transmission rod, a plugging transmission head, a plugging slide rail and a plugging slide block, the plugging handle is arranged at the front side of the machine table, one end of the plugging handle is in transmission connection with the front end of the plugging transmission rod, the rear end of the plugging transmission rod is connected with the lower end of the plugging transmission head, the plugging slide rail is arranged on the upper surface of the operation platform, the plugging slide rail extends towards the direction of the HSBP clamping plate, the plugging slide block is arranged on the plugging slide rail in a sliding manner, a plugging transmission hole corresponding to the plugging transmission head is arranged at the operation platform, the upper surface of the plugging transmission head is positioned in the plugging transmission hole and is flush with the operation platform, the middle part of the lower surface of the detection mounting plate is connected with the upper surface of the plug transmission head, the side edge of the lower surface of the detection mounting plate is connected with the upper surface of the plug sliding block, and the plug handle drives the detection mounting plate to be close to or far away from the HSBP clamping plate.

Specifically, the HSBP carrier plate assembly further comprises a clamp plate mounting plate, the clamp plate mounting plate is arranged in the middle of the upper surface of the operation platform, a mounting surface is arranged on one side, facing the PCIE Switch clamp plate, of the clamp plate, and the HSBP clamp plate is arranged on one side of the mounting surface.

Specifically, the HSBP clamp plate comprises an HSBP backup plate and an HSBP clamp plate, the back surface of the HSBP backup plate is fixedly connected with the mounting surface, the HSBP clamp plate is hinged to the upper end of the HSBP backup plate, the front side of the HSBP backup plate and the rear side of the HSBP clamp plate form a fixing space of the HSBP backup plate, the upper end of the clamp plate mounting plate is provided with a position avoiding hole corresponding to the hinged position of the HSBP clamp plate and the HSBP backup plate, and the HSBP backup plate is provided with a plugging hole corresponding to the detection assembly.

Specifically, PCIE Switch carrier plate subassembly still includes splint mounting plate and assembly control spare, and the splint mounting plate is located the front portion of operation platform's upper surface, the upper surface of splint mounting plate is located at the back of PCIE Switch splint, and assembly control spare control splint mounting plate is close to or is kept away from to HSBP splint.

Specifically, the assembly control piece includes assembly handle, assembly transfer line, assembly slide rail and assembly slider, the front side of work platform is equipped with the handle assembly seat that corresponds with the assembly handle, and the one end of assembly handle is connected with the front end transmission of assembly transfer line, the rear end of assembly transfer line with the splint assembly plate is connected, and the upper surface of work platform and to HSBP splint orientation extension are located to the assembly slide rail, and the assembly slide rail is located in the assembly slider slip, and the lower surface of splint assembly plate and the upper surface connection of assembly slider, assembly handle drive splint assembly plate are close to or keep away from towards HSBP splint orientation.

Specifically, the upper surface of PCIE Switch splint is equipped with the standing groove, and the tip of PCIE Switch splint is equipped with the pressure and buckles, presses to buckle including pressing the seat, pressing the upper surface of PCIE Switch splint, presses the seat to locate the upper surface of PCIE Switch splint, presses to articulate with pressing the seat, and the pressure head is located the one end of pressing the one end that is close to the standing groove, and the one end that the standing groove was kept away from to the clamp plate extends to outside the PCIE Switch splint.

Specifically, the board includes the under casing, and under casing department is equipped with the installing port that an opening upwards set up, operation platform locates the upper end of under casing and closes with the installing port lid and form the cavity, and the lateral wall of under casing is equipped with the louvre, and the louvre communicates with each other with the cavity, and the drill way department of louvre is equipped with radiator fan.

Specifically, the side wall of the bottom box is provided with a lifting handle, and the lifting handle is fixedly connected with the bottom box.

According to the technical scheme, the detection assembly, the HSBP carrier plate assembly and the PCIE Switch carrier plate assembly are placed through the operation platform, and the HSBP clamping plate and the PCIE Switch clamping plate which are separately arranged are adopted, so that testing tools and testing steps are reduced under different testing modes, testing time and tool cost are saved, and testing efficiency is greatly improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is an enlarged schematic view of fig. 1 at a.

Fig. 3 is a schematic perspective view of the detecting assembly of the present invention.

Fig. 4 is a perspective view of the HSBP splint according to the present invention.

Fig. 5 is a schematic perspective view of a PCIE Switch splint according to the present invention.

Fig. 6 is an enlarged schematic view at a of fig. 5.

Fig. 7 is a schematic perspective view of a work platform according to the present invention.

Fig. 8 is a second schematic perspective view of the work platform of the present invention.

The reference numerals include: 10. a machine platform; 11. an operation platform; 12. a bottom box; 13. heat dissipation holes; 14. a heat radiation fan; 15. lifting the hand; 20. a detection component; 21. detecting the mounting plate; 22. a hard disk module; 23. plugging and unplugging the module; 24. plugging and unplugging a handle; 25. plugging and pulling the transmission rod; 26. plugging and pulling the transmission head; 27. plugging and unplugging the slide rail; 28. plugging and unplugging the sliding block; 30, an HSBP carrier assembly; HSBP splint; 32. a splint mounting plate; HSBP backup plate; an HSBP platen; 35. avoiding holes; a PCIE Switch carrier board assembly; PCIE Switch splint; 42. a clamping plate assembly plate; 43. assembling a handle; 44. assembling a transmission rod; 45. assembling a slide rail; 46. assembling a sliding block; 47. a placement groove; 48. pressing a base; 49. pressing the handle; 50. and (4) pressing head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that if directional indications (such as … …, which is up, down, left, right, front, back, top, bottom, inner, outer, vertical, transverse, longitudinal, counterclockwise, clockwise, circumferential, radial, axial) are provided in the embodiments of the present invention, the directional indications are only used for explaining the relative position relationship, motion condition, etc. of the components at a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first" or "second", etc. in the embodiments of the present invention, the description of "first" or "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 8, an HSBP backplane and PCIE Switch board multi-mode compatibility testing apparatus includes a machine platform 10, a work platform 11 is located at the machine platform 10, a detection assembly 20, an HSBP carrier board assembly 30 and a PCIE Switch carrier board assembly 40 are located at the work platform 11, the detection assembly 20 is electrically connected to the HSBP carrier board assembly 30 and the PCIE Switch carrier board assembly 40 respectively, the HSBP carrier board assembly 30 includes an HSBP clamp plate 31, the PCIE Switch carrier board assembly 40 includes a PCIE Switch clamp plate 41, the HSBP clamp plate 31 and the PCIE Switch clamp plate 41 are separately arranged, the HSBP clamp plate 31 is vertically arranged at the work platform 11, the PCIE Switch clamp plate 41 is horizontally arranged at the work platform 11, a positioning column for fixing an external docking connector is arranged at one side of the PCIE Switch clamp plate 41, and an open clamp surface of the HSBP clamp plate 31 abuts against one side of the PCIE Switch clamp plate 41 where the positioning column is arranged. When the HSBP back board is a DUT and the PCIE Switch board is a test accompanying board, the HSBP back board is mainly replaced, the HSBP back board to be tested is placed at the HSBP clamp plate 31, the PCIE Switch board to be tested is placed at the PCIE Switch clamp plate 41, when the first HSBP back board is tested, the testing component 20 is separated from the HSBP carrier board component 30, the PCIE Switch carrier board component 40 is separated from the HSBP carrier board component 30, the HSBP back board is taken out from the HSBP clamp plate 31, a new HSBP back board to be tested is placed at the HSBP clamp plate 31 again, the PCIE Switch carrier board component 40 is connected with the HSBP carrier board component 30, and finally the testing component 20 is connected with the HSBP carrier board component 30 to realize the testing; when the HSBP back plate is the accompanied test plate and the PCIE Switch plate is the DUT, the PCIE Switch plate is mainly replaced, the HSBP back plate to be tested is placed at the HSBP clamp plate 31, the accompanied test PCIE Switch plate is placed at the PCIE Switch clamp plate 41, when the first PCIE Switch clamp completes the test, the test component 20 is separated from the HSBP carrier plate component 30, the PCIE Switch carrier plate component 40 is separated from the HSBP carrier plate component 30, the PCIE Switch plate is taken out from the PCIE Switch clamp plate 41, the PCIE Switch plate to be tested is placed again at the PCIE Switch clamp plate 41, the PCIE Switch carrier plate component 40 is connected with the HSBP carrier plate component 30, and finally the test component 20 is connected with the HSBP carrier plate component 30 to realize the test; when the HSBP backplane and the PCIE Switch board are both DUTs, the combination of the HSBP backplane and the PCIE Switch board is exchanged, the connector is placed at the positioning column, the HSBP backplane to be tested and the PCIE Switch board to be tested are respectively placed in the HSBP clamping plate 31 and the PCIE Switch clamping plate 41, the HSBP backplane and the PCIE Switch board are connected by the connector to form the combination, when the first combination is tested, the testing component 20 is separated from the HSBP carrier plate component 30, the clamping piece at the HSBP clamping plate 31 is opened, the PCIE Switch carrier plate component 40 is separated from the HSBP carrier plate component 30, the HSBP backplane is separated from the HSBP clamping plate 31, the PCIE Switch board is taken out from the PCIE Switch clamping plate 41, the combination is taken out, the next combination can be tested continuously by repeating the steps, the testing tool and the testing steps can be reduced under different testing modes, the testing time and the testing cost are saved, the testing efficiency is greatly improved.

The detection assembly 20 comprises a detection mounting plate 21, a hard disk module 22, a plug-in module 23 and a plug-in control element, wherein the detection mounting plate 21 is arranged at the rear part of the upper surface of the operation platform 11, one end, close to the HSBP clamping plate 31, of the detection mounting plate 21 is provided with a plug-in assembling plate, the plug-in module 23 is arranged at the plug-in assembling plate, a plug-in head is arranged towards the HSBP clamping plate 31, the hard disk module 22 is arranged on the upper surface of the detection mounting plate 21, the hard disk module 22 is electrically connected with the plug-in module 23, and the plug-in control element controls the detection mounting plate 21 to be close to or far away from the HSBP clamping plate 31; the plugging control piece comprises a plugging handle 24 and a plugging transmission rod 25, the detection device comprises a plug transmission head 26, a plug slide rail 27 and a plug slide block 28, wherein the plug handle 24 is arranged on the front side of the machine table 10, one end of the plug handle 24 is in transmission connection with the front end of the plug transmission rod 25, the rear end of the plug transmission rod 25 is connected with the lower end of the plug transmission head 26, the plug slide rail 27 is arranged on the upper surface of the operation platform 11, the plug slide rail 27 extends towards the direction of the HSBP clamp plate 31, the plug slide block 28 is arranged on the plug slide rail 27 in a sliding manner, a plug transmission hole corresponding to the plug transmission head 26 is formed in the operation platform 11, the upper surface of the plug transmission head 26 is positioned in the plug transmission hole and flush with the operation platform 11, the middle of the lower surface of the detection mounting plate 21 is connected with the upper surface of the plug transmission head 26, the side of the lower surface of the detection mounting plate 21 is connected with the upper surface of the plug slide block 28, and the plug handle 24 drives the detection mounting plate 21 to approach or leave towards the direction of the HSBP clamp plate 31. During detection, the detection mounting plate 21 is driven by the plugging handle 24 to move towards the direction close to the HSBP clamp plate 31 along the plugging slide rail 27, and then the plugging head is inserted into the jack at the HSBP back plate located at the HSBP clamp plate 31, so that the detection assembly 20 is electrically connected with the HSBP back plate and the PCIE Switch plate, and meanwhile, after detection is completed, the detection mounting plate 21 is driven by the plugging handle 24 to move towards the direction away from the HSBP clamp plate 31 along the plugging slide rail 27, so that the plugging head is driven to be separated from the jack at the HSBP back plate, so that disconnection between the detection assembly 20 and the HSBP back plate and the PCIE Switch plate is realized, and thus the HSBP back plate, the PCIE Switch plate or the combination body can be taken out or placed conveniently.

The HSBP carrier plate assembly 30 further comprises a clamp plate mounting plate 32, the clamp plate mounting plate 32 is arranged in the middle of the upper surface of the operation platform 11, a mounting surface is arranged on one side of the clamp plate mounting plate 32 facing the PCIE Switch clamp plate 41, and the HSBP clamp plate 31 is arranged on one side of the mounting surface; the HSBP clamping plate 31 comprises an HSBP backup plate 33 and an HSBP pressing plate 34, the back surface of the HSBP backup plate 33 is fixedly connected with a mounting surface, the HSBP pressing plate 34 is hinged to the upper end of the HSBP backup plate 33, the front side of the HSBP backup plate 33 and the rear side of the HSBP pressing plate 34 form a fixing space of the HSBP backup plate, a position avoiding hole 35 corresponding to the hinged position of the HSBP pressing plate 34 and the HSBP backup plate 33 is formed in the upper end of the clamping plate mounting plate 32, and the HSBP backup plate 33 is provided with a plugging hole corresponding to the detection assembly 20. When the HSBP back plate is detected, the HSBP pressure plate 34 is firstly opened upwards, the HSBP back plate is placed into the HSBP backup plate 33, then the HSBP pressure plate 34 is downwards covered, and the HSBP back plate is fixed in a fixed space so as to be convenient for fast and stable multiple HSBP back plates to be taken and placed.

The PCIE Switch carrier board assembly 40 further includes a clamp board assembly board 42 and an assembly control element, the clamp board assembly board 42 is disposed at the front portion of the upper surface of the working platform 11, the back surface of the PCIE Switch clamp board 41 is disposed on the upper surface of the clamp board assembly board 42, and the assembly control element controls the clamp board assembly board 42 to approach or leave the HSBP clamp board 31; the assembly control part comprises an assembly handle 43, an assembly transmission rod 44, an assembly sliding rail 45 and an assembly sliding block 46, a handle assembly seat corresponding to the assembly handle 43 is arranged on the front side of the operation platform 11, one end of the assembly handle 43 is in transmission connection with the front end of the assembly transmission rod 44, the rear end of the assembly transmission rod 44 is connected with the clamp plate assembly plate 42, the assembly sliding rail 45 is arranged on the upper surface of the operation platform 11 and extends towards the direction of the HSBP clamp plate 31, the assembly sliding block 46 is arranged on the assembly sliding rail 45 in a sliding manner, the lower surface of the clamp plate assembly plate 42 is connected with the upper surface of the assembly sliding block 46, and the assembly handle 43 drives the clamp plate assembly plate 42 to approach or leave towards the direction of the HSBP clamp plate 31. When detecting, move towards the splint 31 direction of being close to HSBP through assembly handle 43 drive splint assembled plate 42 along assembly slide rail 45, and then realize the electric connection between PCIE Switch board and the HSBP backplate, so that detect HSBP backplate and PCIE Switch board, accomplish the back that detects simultaneously, move towards keeping away from HSBP splint 31 direction along assembly slide rail 45 by assembly handle 43 drive splint assembled plate 42, realize the separation between PCIE Switch splint 41 and the HSBP splint 31, so that take out HSBP backplate or PCIE Switch board or complex or place the operation.

The upper surface of PCIE Switch splint 41 is equipped with standing groove 47, and the tip of PCIE Switch splint 41 is equipped with the pressure and buckles, presses to buckle including pressing seat 48, pressing 49 and pressure head 50, presses the upper surface that PCIE Switch splint 41 was located to seat 48, presses 49 and presses seat 48 articulated, and pressure head 50 is located the one end that the pressure is close to standing groove 47 to 49, and the one end that standing groove 47 was kept away from to the clamp plate extends to PCIE Switch splint 41 outside. The PCIE Switch board in the placing groove 47 is fixed through the pressing head 50, when the PCIE Switch board in the placing groove 47 needs to be taken out, the pressing head 49 is pressed downwards to enable the pressing head 50 to be lifted, and then the PCIE Switch board is convenient to take and place.

The machine table 10 comprises a bottom case 12, a mounting opening with an upward opening is formed in the bottom case 12, the operation platform 11 is arranged at the upper end of the bottom case 12 and covers the mounting opening to form a cavity, heat dissipation holes 13 are formed in the side wall of the bottom case 12, the heat dissipation holes 13 are communicated with the cavity, and heat dissipation fans 14 are arranged at the hole openings of the heat dissipation holes 13. The cavity is cooled by the heat dissipation holes 13 and the heat dissipation fan 14, and the detection assembly 20, the HSBP carrier plate assembly 30, and the PCIE Switch carrier plate assembly 40 on the operation platform 11 are cooled.

The side wall of the bottom box 12 is provided with a lifting handle 15, and the lifting handle 15 is fixedly connected with the bottom box 12. By arranging the lifting handle 15 to facilitate moving the bottom case 12, multi-scene efficient application is achieved.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention, which are made by using the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A multi-mode compatible testing device for an HSBP (high speed Back Board) and a PCIE Switch board is characterized in that: including the board, board department operation platform, operation platform department is equipped with the determine module, HSBP support plate subassembly and PCIE Switch support plate subassembly, the determine module is connected with HSBP support plate subassembly and PCIE Switch support plate subassembly electricity respectively, HSBP support plate subassembly includes the HSBP splint, PCIE Switch support plate subassembly includes PCIE Switch splint, HSBP splint and PCIE Switch splint components of a whole that can function independently set up, operation platform department is located perpendicularly to the HSBP splint, operation platform department is located to PCIE Switch splint level, one side of PCIE Switch splint is equipped with the reference column that is used for fixed outside butting connector, the face of opening the clamp of HSBP splint offsets with one side that PCIE Switch splint was equipped with the reference column.

2. The device of claim 1, wherein the device comprises: the utility model discloses a detection platform, including detection mounting panel, hard disk module, plug control, the detection mounting panel is equipped with the rear portion of operation platform's upper surface detects the mounting panel and is close to the one end of HSBP splint is equipped with the plug mounting panel, and the plug mounting panel department is located to the plug module and plug the head towards HSBP splint direction setting, and the upper surface that detects the mounting panel is located to the hard disk module, and the hard disk module is connected with plug module electricity, and plug control detects the mounting panel and is close to or keeps away from to HSBP splint.

3. The device of claim 2, wherein the device comprises: the plugging control piece comprises a plugging handle, a plugging transmission rod, a plugging transmission head, a plugging slide rail and a plugging slide block, the plugging handle is arranged at the front side of the machine table, one end of the plugging handle is in transmission connection with the front end of the plugging transmission rod, the rear end of the plugging transmission rod is connected with the lower end of the plugging transmission head, the plugging slide rail is arranged on the upper surface of the operation platform, the plugging slide rail extends towards the direction of the HSBP clamping plate, the plugging slide block is arranged on the plugging slide rail in a sliding manner, a plugging transmission hole corresponding to the plugging transmission head is arranged at the operation platform, the upper surface of the plugging transmission head is positioned in the plugging transmission hole and is flush with the operation platform, the middle part of the lower surface of the detection mounting plate is connected with the upper surface of the plug transmission head, the side edge of the lower surface of the detection mounting plate is connected with the upper surface of the plug sliding block, and the plug handle drives the detection mounting plate to be close to or far away from the HSBP clamping plate.

4. The device of claim 1, wherein the device comprises: the HSBP support plate assembly further comprises a clamp plate mounting plate, the clamp plate mounting plate is arranged in the middle of the upper surface of the operation platform, a mounting surface is arranged on one side, facing the PCIE Switch clamp plate, of the clamp plate mounting plate, and the HSBP clamp plate is arranged on one side of the mounting surface.

5. The HSBP backplane and PCIE Switch board multi-mode compatibility test device of claim 4, wherein: the HSBP clamping plate comprises an HSBP backup plate and an HSBP pressing plate, the back face of the HSBP backup plate is fixedly connected with the mounting face, the HSBP pressing plate is hinged to the upper end of the HSBP backup plate, the front side of the HSBP backup plate and the rear side of the HSBP pressing plate form a fixing space of the HSBP back plate, a position avoiding hole corresponding to the hinged position of the HSBP pressing plate and the HSBP backup plate is formed in the upper end of the clamping plate mounting plate, and the HSBP backup plate is provided with a plugging hole corresponding to the detection assembly.

6. The device of claim 1, wherein the device comprises: the PCIE Switch carrier plate assembly further comprises a clamping plate assembly plate and an assembly control piece, the clamping plate assembly plate is arranged on the front portion of the upper surface of the operation platform, the back face of the PCIE Switch clamping plate is arranged on the upper surface of the clamping plate assembly plate, and the assembly control piece controls the clamping plate assembly plate to be close to or far away from the HSBP clamping plate.

7. The device of claim 6, wherein the device comprises: the assembly control part comprises an assembly handle, an assembly transmission rod, an assembly sliding rail and an assembly sliding block, the front side of the operation platform is provided with a handle assembly seat corresponding to the assembly handle, one end of the assembly handle is in transmission connection with the front end of the assembly transmission rod, the rear end of the assembly transmission rod is connected with the clamping plate assembly plate, the assembly sliding rail is arranged on the upper surface of the operation platform and extends towards the direction of the HSBP clamping plate, the assembly sliding block is arranged in a sliding mode and is connected with the upper surface of the assembly sliding block, and the assembly handle drives the clamping plate assembly plate to be close to or far away from the direction of the HSBP clamping plate.

8. The device of claim 7, wherein the HSBP backplane and the PCIE Switch board are configured to be compatible with each other in a multimode manner, and the device further comprises: the upper surface of PCIE Switch splint is equipped with the standing groove, and the tip of PCIE Switch splint is equipped with the pressure and buckles, presses to buckle including pressing the seat, pressing with the pressure head, presses the seat and locates the upper surface of PCIE Switch splint, presses to articulate with pressing the seat, and the pressure head is located the pressure and is close to the one end of standing groove, and the one end that the standing groove was kept away from to the pressure plate extends to outside the PCIE Switch splint.

9. The device of claim 1, wherein the device comprises: the machine table comprises a bottom case, a mounting opening with an upward opening is formed in the bottom case, the operation platform is arranged at the upper end of the bottom case and covers the mounting opening to form a cavity, heat dissipation holes are formed in the side wall of the bottom case and are communicated with the cavity, and heat dissipation fans are arranged at orifices of the heat dissipation holes.

10. The HSBP backplane and PCIE Switch board multi-mode compatibility test apparatus according to claim 9, wherein: the side wall of the bottom box is provided with a lifting handle, and the lifting handle is fixedly connected with the bottom box.

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