CN114383827A

CN114383827A - Separable electric connector testing device

Info

Publication number: CN114383827A
Application number: CN202111496044.4A
Authority: CN
Inventors: 李栋; 韩冬伟; 罗理想; 陈奕斌; 杨斌; 秦野秋
Original assignee: Hangzhou Aerospace Electronic Technology Co Ltd
Current assignee: Hangzhou Aerospace Electronic Technology Co Ltd
Priority date: 2021-12-09
Filing date: 2021-12-09
Publication date: 2022-04-22
Anticipated expiration: 2041-12-09
Also published as: CN114383827B

Abstract

The invention relates to a separable electric connector testing device, which comprises a console, a fixing and separating in-place detection module and a separating force measuring and lifting module, wherein the fixing and separating in-place detection module comprises a socket fixing mechanism and a plug fixing mechanism, and the separable electric connector testing device has the advantages that: realize the fixed of connector socket and connector plug respectively through socket fixed establishment and plug fixed establishment, the separation power is measured and lifting module realizes the test and the angle control of mechanical separation power, because plug fixed establishment swing joint is on socket fixed establishment, therefore, when the connector plug atress, the separation of realization plug and socket that can be quick, and can realize the test and the angle control of mechanical separation power through separation power measurement and lifting module, consequently, the automated inspection of separation power when can realizing the separation, and the inclination that can adjust connector mechanical separation power detects mechanical separation power, satisfy different detection demands.

Description

Separable electric connector testing device

Technical Field

The invention relates to a separable electric connector testing device.

Background

In recent years, with the rapid development of the aerospace field, the number of demands for the separation of the electrical connectors is rapidly increasing and the quality requirements are higher, which requires the connector manufacturing enterprises to improve the production efficiency and the product quality. The test device for the separated electrical connector is a test for mechanical separation and electrical separation of the separated electrical connector. The mechanical separation and the electrical separation of the traditional separation electric connector are completed manually, and the manual test has the following defects: the mechanical separation of the electric connector is manually operated, the manual force is not controlled during the mechanical separation, the manual separation angle is not controllable, and the manual electric separation of the electric connector is not provided with corresponding protective measures.

Disclosure of Invention

The invention aims to provide a testing device of a separable electric connector, which can realize the testing and angle control when the electric connector is separated, thereby improving the testing efficiency of the separable electric connector.

In order to solve the technical problems, the invention is realized by the following technical scheme: a separable electric connector testing device comprises a control console, a fixed and separated in-place detection module for mechanical separation and electrical separation of an electric connector, and a separation force measurement and lifting module for realizing the test of mechanical separation force and angle control, wherein the fixed and separated in-place detection module comprises a socket fixing mechanism and a plug fixing mechanism, the socket fixing mechanism is fixedly connected at one end of the control console, the plug fixing mechanism is movably connected on the socket fixing mechanism, a rebound assembly for preventing the reverse motion of the plug fixing mechanism is arranged on the socket fixing mechanism, the plug fixing mechanism is movably connected on the rebound assembly, a control assembly for controlling the separation of the plug fixing mechanism and the rebound assembly is arranged on the rebound assembly, the plug fixing mechanism can reset to an initial position when the control assembly controls the separation of the plug fixing mechanism and the rebound assembly, the separating force measuring and lifting module comprises a moving module and a lifting force measuring module, the lifting force measuring module is arranged on the moving module, the moving module is fixedly connected to the other end of the console, and a control system connected with the moving module is arranged on the console.

Preferably, the socket fixing mechanism comprises a mounting frame and a socket fixing module, the mounting frame comprises a frame and a first mounting plate arranged on the frame, the frame comprises a left vertical plate, a right vertical plate and a front baffle arranged between the left vertical plate and the right vertical plate, the socket fixing module is fixedly connected to one end of the first mounting plate, a slide rail is arranged on the first mounting plate, the plug fixing mechanism is movably connected to the slide rail, a fixing seat is arranged at the other end of the first mounting plate, a buffer is arranged on the fixing seat, the rebounding assembly is fixedly connected to the first mounting plate and located in the frame, a protective cover is arranged on the frame, and an organ protective cover is arranged on the protective cover.

Preferably, the socket fixing module comprises a socket lower hoop, a socket upper hoop and a first locking screw, the socket lower hoop is fixedly connected onto a first mounting plate, the socket upper hoop is arranged on the socket lower hoop and locked through the first locking screw, a first rubber protection pad is arranged on the inner side wall of the socket lower hoop and the inner side wall of the socket upper hoop, and a positioning block for limiting the fixing position of the connector plug is arranged on the socket lower hoop.

Preferably, the rebounding assembly comprises a bottom plate, a supporting column, a sensor and a rack, one end of the supporting column is fixedly connected to the bottom plate, the other end of the supporting column is fixedly connected to the first mounting plate, the sensor is arranged on the bottom plate, a spring column with a fixed rack is arranged on the bottom plate, a spring is arranged on the spring column, a fixed block connected with the control assembly is arranged on the rack, and a gear connected with the rack is arranged on the plug fixing mechanism.

Preferably, the control assembly comprises a bearing mounting seat, a rotating shaft and a cam bearing, the rotating shaft is arranged on the bearing mounting seat, the cam bearing is fixedly connected to one end of the rotating shaft, a driving handle is arranged at the other end of the rotating shaft, and a connecting hole connected with the cam bearing is formed in the fixing block.

Preferably, the plug fixing mechanism comprises a plug fixing component and a sliding component, the plug fixing component is fixedly connected to the sliding component, the sliding component comprises a second mounting plate and a mounting seat, the mounting seat is fixedly connected to the second mounting plate, a sliding block matched with a sliding rail is arranged on the second mounting plate, an one-way bearing is arranged on the mounting seat, a gear shaft of the mounting gear is arranged on the one-way bearing, and a shading detection sheet is arranged on the mounting seat.

Preferably, the fixed subassembly of plug includes staple bolt under the plug, staple bolt and second locking screw on the plug, staple bolt fixed connection is on the second mounting panel under the plug, the staple bolt setting is locked on the staple bolt under the plug and through second locking screw on the plug, all be equipped with second rubber protection pad on the inside wall of staple bolt under the plug and the inside wall of staple bolt on the plug.

Preferably, the moving module comprises a fixed column, a mounting base plate, a moving module, a motor and a mounting block, the motor is connected with the moving module, the moving module is fixedly connected to the mounting base plate, the mounting block is arranged on the moving module, the fixed column is arranged on the mounting base plate, and the lifting force measuring module is fixedly connected to the mounting block.

Preferably, the lifting force measuring module comprises a lifting platform, a force measuring sensor mounting block, a force measuring sensor, a steel wire rope and a lock hook, wherein the force measuring sensor mounting block is arranged on the lifting platform, the force measuring sensor is fixedly connected to the force measuring sensor mounting block, one end of the steel wire rope is connected with the force measuring sensor, and the lock hook is fixedly connected to the other end of the steel wire rope.

Preferably, the elevating platform includes base plate, rotor arm, digging arm and roof, the bottom of rotor arm is rotated and is connected on the base plate, the top of rotor arm is rotated and is connected on the roof, the rotor arm rotates to be connected on the digging arm, be equipped with the lead screw on the roof, be equipped with the sliding block that links to each other with the lead screw on the digging arm, be equipped with the knob on the lead screw, be equipped with sign connector inclination's sign between base plate and the roof.

In conclusion, the invention has the advantages that: the socket fixing mechanism and the plug fixing mechanism are used for respectively fixing the connector socket and the connector plug, the separating force measurement and the lifting module are used for realizing the test and the angle control of the mechanical separating force, the plug fixing mechanism is movably connected on the socket fixing mechanism, therefore, when the connector plug is stressed, the separation of the plug and the socket can be quickly realized, and the test and the angle control of the mechanical separating force can be realized through the separating force measurement and the lifting module, so that the automatic detection of the separating force can be realized during the separation, the mechanical separating force can be detected by adjusting the inclination angle of the mechanical separating force of the connector, different detection requirements can be met, as the socket fixing mechanism is provided with the rebound component for preventing the reverse motion of the plug fixing mechanism, the plug fixing mechanism can only move in one direction, the reverse motion can not be realized after the separation, and the connector plug can not collide with the connector socket to cause damage, and the plug fixed establishment swing joint is on rebounding the assembly, can improve the stationarity of the fixed establishment activity of plug, secondly, break away from with rebounding the assembly through the control assembly control plug fixed establishment, at this moment, the plug fixed establishment is not restricted by rebounding the assembly, therefore, the fixed assembly of plug can move forward and reset to the initial position on the fixed assembly of socket, thus realize the second separation test of the interface unit, finally, measure and lift the module to set up the separating force into moving module and lifting dynamometry module, when the machinery separates, the moving module drives the backward movement of the lifting module, the lifting dynamometry module can be real-time to measure the mechanical separating force value of the interface unit, and the moving module links to each other with control system, therefore can realize the automation mechanized operation of the moving module, thus has improved the experimental sensitivity.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of a testing apparatus for a separable electrical connector according to the present invention;

FIG. 2 is a schematic structural view of the fixed and separated in-place detection module of the present invention;

FIG. 3 is a schematic structural view of a socket fixing mechanism according to the present invention;

FIG. 4 is a schematic structural view of a mount of the present invention;

FIG. 5 is a schematic structural view of a socket fixing module according to the present invention;

figure 6 is a schematic structural view of the rebound assembly of the present invention;

FIG. 7 is a schematic structural diagram of a control assembly according to the present invention;

FIG. 8 is a schematic structural view of a plug securing mechanism according to the present invention;

FIG. 9 is a schematic view of the sliding assembly of the present invention;

FIG. 10 is a schematic structural view of a separation force measuring and lifting module according to the present invention;

FIG. 11 is a schematic structural diagram of a mobile module according to the present invention;

FIG. 12 is a schematic view of a lifting force-measuring module according to the present invention.

Reference numerals:

1 control console, 11 control system, 2 fixed and separated in-place detection module, 3 separated force measuring and lifting module, 4 socket fixing mechanism, 41 installation rack, 410 frame, 411 first installation plate, 412 left vertical plate, 413 right vertical plate, 414 front baffle, 415 slide rail, 416 fixing seat, 417 buffer, 418 protective cover, 419 protective cover, 42 socket fixing module, 421 socket lower hoop, 422 socket upper hoop, 423 first locking screw rod, 424 first rubber protection pad, 425 positioning block, 5 plug fixing mechanism, 50 gear, 51 plug fixing component, 511 plug lower hoop, 512 plug upper hoop, 513 second locking screw rod, 514 second rubber protection pad, 52 sliding component, 521 second installation plate, 522 installation seat, 523 slide block, 524 one-way bearing, 525 gear shaft, 526 shading detection sheet, 6 rebound component, 60 bottom plate, 61 support column, 62 sensor, 63 rack, 60, 64 spring columns, 65 springs, 66 fixing blocks, 67 connecting holes, 7 control components, 71 bearing mounting seats, 72 rotating shafts, 73 cam bearings, 74 driving handles, 8 moving modules, 81 fixing columns, 82 mounting bottom plates, 83 moving modules, 84 motors, 85 mounting blocks, 9 lifting force measuring modules, 91 lifting platforms, 911 base plates, 912 rotating arms, 913 moving arms, 914 top plates, 915 knobs, 916 marks, 92 force measuring sensor mounting blocks, 93 force measuring sensors, 94 steel wire ropes and 95 locking hooks.

Detailed Description

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12, a separable electrical connector testing apparatus includes a console 1, a fixing and separating-in-place detecting module 2 for mechanical and electrical separation of an electrical connector, and a separating force measuring and lifting module 3 for testing a mechanical separating force and controlling an angle, the fixing and separating-in-place detecting module 2 includes a socket fixing mechanism 4 and a plug fixing mechanism 5, the socket fixing mechanism 4 is fixedly connected to one end of the console 1, the plug fixing mechanism 5 is movably connected to the socket fixing mechanism 4, a rebounding assembly 6 for preventing the plug fixing mechanism 5 from moving in a reverse direction is disposed on the socket fixing mechanism 4, the plug fixing mechanism 5 is movably connected to the rebounding assembly 6, a control assembly 7 for controlling the plug fixing mechanism 5 to separate from the rebounding assembly 6 is disposed on the rebounding assembly 6, when the control component 7 controls the plug fixing mechanism 5 to be separated from the rebounding component 6, the plug fixing mechanism 5 can reset to an initial position, the separating force measuring and lifting module 3 comprises a moving module 8 and a lifting force measuring module, the lifting force measuring module is arranged on the moving module 8, the moving module 8 is fixedly connected to the other end of the control console 1, and a control system 11 connected with the moving module 8 is arranged on the control console 1.

The socket fixing mechanism 4 and the plug fixing mechanism 5 are respectively used for fixing a connector socket and a connector plug, the separating force measuring and lifting module 3 is used for testing and angle controlling the mechanical separating force, the plug fixing mechanism 5 is movably connected on the socket fixing mechanism 4, so when the connector plug is stressed, the separation of the plug and the socket can be quickly realized, and the mechanical separating force testing and angle controlling can be realized through the separating force measuring and lifting module 3, therefore, the automatic detection of the separating force can be realized during the separation, the inclination angle of the mechanical separating force of the connector can be adjusted for detecting the mechanical separating force, different detection requirements are met, and as the rebound assembly 6 for preventing the plug fixing mechanism 5 from moving reversely is arranged on the socket fixing mechanism 4, the plug fixing mechanism 5 can only move in one direction and cannot move reversely after being separated, the connector plug is ensured not to collide with the connector socket to cause damage, the plug fixing mechanism 5 is movably connected on the rebounding assembly 6, the moving stability of the plug fixing mechanism 5 can be improved, secondly, the plug fixing mechanism 5 is controlled to be separated from the rebounding assembly 6 through the control assembly 7, at the moment, the plug fixing mechanism 5 is not limited by the rebounding assembly 6, therefore, the plug fixing assembly 51 can move forwards on the socket fixing assembly and reset to the initial position, so that the second separation test of the connector is realized, finally, the separation force measuring and lifting module 3 is set into the moving module 8 and the lifting force measuring module, when the connector is mechanically separated, the moving module 8 drives the lifting module to move backwards, the lifting force measuring module can measure the force value of the mechanical separation force of the connector in real time, and the moving module 8 is connected with the control system 11, thus, automated operation of the moving module 8 can be achieved, thereby improving the sensitivity of the test.

The socket fixing mechanism 4 comprises a mounting frame 41 and a socket fixing module 42, the mounting frame 41 comprises a frame 410 and a first mounting plate 411 arranged on the frame 410, the frame 410 comprises a left vertical plate 412, a right vertical plate 413 and a front baffle 414 arranged between the left vertical plate 412 and the right vertical plate 413, the socket fixing module 42 is fixedly connected to one end of the first mounting plate 411, a slide rail 415 is arranged on the first mounting plate 411, the plug fixing mechanism 5 is movably connected to the slide rail 415, a fixing seat 416 is arranged at the other end of the first mounting plate 411, a buffer 417 is arranged on the fixing seat 416, the rebounding component 6 is fixedly connected to the first mounting plate 411 and located in the frame 410, a protective cover 418 is arranged on the frame 410, an organ protective cover 419 is arranged on the protective cover 418, and the buffer 417 is arranged, when the connector is separated, the connector plug retreats to play a buffering role so as not to rebound, thereby guarantee that the connector plug can not collide with the socket, the setting of protection casing 418 can avoid dust or debris to get into in the frame 410, has guaranteed the stability of the activity of plug fixed establishment 5.

The fixed module 42 of socket includes staple bolt 421 under the socket, staple bolt 422 and first locking screw 423 on the socket, staple bolt 421 fixed connection is on first mounting panel 411 under the socket, staple bolt 422 sets up under the socket on staple bolt 421 and locks through first locking screw 423, all be equipped with first rubber protection pad 424 on the inside wall of staple bolt 422 under the socket on the inside wall of staple bolt 421 and the socket, be equipped with the locating piece 425 of restriction connector plug fixed position under the socket on staple bolt 421, the restriction location that can realize the fixed position of connector plug of locating piece 425, the surface that first rubber protection pad 424 can protect the connector socket prevents the fish tail, and staple bolt 421, socket on the socket under the socket and the fixed module 42 of socket that staple bolt 422 and first locking screw 423 constitute, the installation is dismantled conveniently, can improve the fixed quality of socket.

Bounce-back subassembly 6 includes bottom plate 60, support column 61, sensor 62 and rack 63, the one end fixed connection of support column 61 is on bottom plate 60, the other end fixed connection of support column 61 is on first mounting panel 411, sensor 62 sets up on bottom plate 60, be equipped with the spring post 64 of fixed rack 63 on bottom plate 60, be equipped with spring 65 on the spring post 64, be equipped with the fixed block 66 that links to each other with control assembly 7 on the rack 63, be equipped with the gear 50 that links to each other with rack 63 on plug fixed establishment 5, sensor 62 can detect the separation condition of plug, and when the plug contacted with sensor 62, plug and socket separation target in place this moment, and support column 61 can realize that whole bounce-back subassembly 6 is steady to be installed on first mounting panel 411, and the setting of spring 65 makes things convenient for rack 63's restoration, control assembly 7 includes

bearing mount

71, 71, The plug fixing mechanism 5 can reset, when the rotating shaft 72 resets the rack 63 after resetting, the meshing of the gear 50 and the rack 63 is ensured, and the driving handle 74 is convenient for an operator to operate.

The plug fixing mechanism 5 comprises a plug fixing component 51 and a sliding component 52, the plug fixing component 51 is fixedly connected to the sliding component 52, the sliding component 52 comprises a second mounting plate 521 and a mounting seat 522, the mounting seat 522 is fixedly connected to the second mounting plate 521, a sliding block 523 matched with the sliding rail 415 is arranged on the second mounting plate 521, a one-way bearing 524 is arranged on the mounting seat 522, a gear shaft 525 for mounting the gear 50 is arranged on the one-way bearing 524, a shading detection sheet 526 is arranged on the mounting seat 522, the sliding block 523 can ensure the straightness of the plug fixing mechanism 5 during sliding, the fixing area of the plug fixing component 51 can be increased by the second mounting plate 521, the fixing quality of the whole plug fixing component 51 is improved, and the one-way bearing 524 can ensure that the plug fixing mechanism 5 can only move in one direction along the rack 63, the connector plug can not move reversely due to the fact that the connector plug cannot roll reversely, the connector cannot rebound after being separated, and the connector socket cannot be damaged by knocking.

Staple bolt 512 and second locking screw 513 on staple bolt 511, the plug under the fixed subassembly 51 of plug includes the plug, staple bolt 511 fixed connection is on second mounting panel 521 under the plug, staple bolt 512 sets up under the plug on staple bolt 511 and through second locking screw 513 locking, all be equipped with second rubber protection pad 514 on the inside wall of staple bolt 512 under the plug on the inside wall of staple bolt 511 and the plug, staple bolt 512 integral erection dismantlement is convenient under the plug on staple bolt 511, the plug, and quick locking can be realized to second locking screw 513, improves the fixed quality when the plug is fixed, the separation of plug and the fixed subassembly 51 of plug when avoiding separating, and the setting of second rubber protection pad 514 can prevent the damage of plug.

The moving module 8 comprises a fixed column 81, an installation bottom plate 82, a moving module 83, a motor 84 and an installation block 85, the motor 84 is connected with the moving module 83, the moving module 83 is fixedly connected to the installation bottom plate 82, the installation block 85 is arranged on the moving module 83, the fixed column 81 is arranged on the installation bottom plate 82, the lifting force measuring module 9 is fixedly connected to the installation block 85 and drives the moving module to move through the rotation of the motor, so that the lifting force measuring module is driven to move synchronously, the installation block can increase the fixed mass of the lifting force measuring module, and the shaking of the lifting force measuring module during moving is avoided.

The lifting force measuring module 9 comprises a lifting platform 91, a force measuring sensor mounting block 92, a force measuring sensor 93, a steel wire rope 94 and a lock hook 95, wherein the force measuring sensor mounting block 92 is arranged on the lifting platform 91, the force measuring sensor 93 is fixedly connected to the force measuring sensor mounting block 92, one end of the steel wire rope 94 is connected with the force measuring sensor 93, the lock hook 95 is fixedly connected to the other end of the steel wire rope 94 and is connected with a connector drag hook through the lock hook, the separating force of the connector mechanical separation can be accurately obtained through the force measuring sensor, secondly, the angle of inclination of the connector mechanical separating force can be adjusted through the lifting platform to realize the up-and-down lifting of the force measuring sensor, the force measuring sensor mounting block can improve the fixing quality of the force measuring sensor, the lifting platform 91 comprises a base plate 911, a rotating arm 912, a movable arm 913 and a top plate 914, the bottom end of the rotating arm is rotatably connected to the base plate, the top of rotor arm is rotated and is connected on the roof, the rotor arm rotates and connects on the digging arm, be equipped with the lead screw on the roof, be equipped with the sliding block that links to each other with the lead screw on the digging arm, be equipped with knob 915 on the lead screw, be equipped with sign connector inclination's sign 916 between base plate and the roof, the rotation through the knob drives the rotation of lead screw to realize the linear motion of sliding block on the lead screw, the digging arm makes the rotor arm rotate along with sliding block synchronous motion, thereby the effectual oscilaltion of having adjusted the roof makes 0 ~ 15 stretch of wire rope, thereby reachs 0 ~ 15 connector mechanical separation power, the setting of sign, the inclination of acquireing connector mechanical separation power that can be quick, whole simple structure, it is convenient to adjust.

Other embodiments of the present invention than the preferred embodiments described above will be apparent to those skilled in the art from the present invention, and various changes and modifications can be made therein without departing from the spirit of the present invention as defined in the appended claims.

Claims

1. A separable electrical connector testing apparatus, comprising: the electric connector separation and separation in-place detection module comprises a control console, a separation force measurement and lifting module, wherein the separation force measurement and lifting module is used for fixing and separating an electric connector and an electric connector, the separation force measurement and lifting module is used for realizing the test of mechanical separation force and angle control, the fixed and separation in-place detection module comprises a socket fixing mechanism and a plug fixing mechanism, the socket fixing mechanism is fixedly connected to one end of the control console, the plug fixing mechanism is movably connected to the socket fixing mechanism, a rebound assembly for preventing the plug fixing mechanism from moving reversely is arranged on the socket fixing mechanism, the plug fixing mechanism is movably connected to the rebound assembly, a control assembly for controlling the plug fixing mechanism to be separated from the rebound assembly is arranged on the rebound assembly, the plug fixing mechanism can reset to an initial position when the control assembly controls the plug fixing mechanism to be separated from the rebound assembly, and the separation force measurement and lifting module comprises a moving module and a lifting force measurement module, the lifting force measuring module is arranged on the moving module, the moving module is fixedly connected to the other end of the console, and a control system connected with the moving module is arranged on the console.

2. The separable electrical connector testing device of claim 1, wherein: the socket fixing mechanism comprises a mounting frame and a socket fixing module, the mounting frame comprises a frame and a first mounting plate arranged on the frame, the frame comprises a left vertical plate, a right vertical plate and a front baffle arranged between the left vertical plate and the right vertical plate, the socket fixing module is fixedly connected to one end of the first mounting plate, a slide rail is arranged on the first mounting plate, the plug fixing mechanism is movably connected to the slide rail, a fixing seat is arranged at the other end of the first mounting plate, a buffer is arranged on the fixing seat, the rebounding assembly is fixedly connected to the first mounting plate and located in the frame, a protective cover is arranged on the frame, and an organ protective cover is arranged on the protective cover.

3. The separable electrical connector testing device of claim 2, wherein: the socket fixing module comprises a socket lower hoop, a socket upper hoop and a first locking screw, the socket lower hoop is fixedly connected onto a first mounting plate, the socket upper hoop is arranged on the socket lower hoop and locked through the first locking screw, a first rubber protection pad is arranged on the inner side wall of the socket lower hoop and the inner side wall of the socket upper hoop, and a positioning block for limiting the fixing position of the connector plug is arranged on the socket lower hoop.

4. The separable electrical connector testing device of claim 3, wherein: the rebounding assembly comprises a bottom plate, a supporting column, a sensor and a rack, one end of the supporting column is fixedly connected to the bottom plate, the other end of the supporting column is fixedly connected to a first mounting plate, the sensor is arranged on the bottom plate, a spring column with a fixed rack is arranged on the bottom plate, a spring is arranged on the spring column, a fixed block connected with the control assembly is arranged on the rack, and a gear connected with the rack is arranged on the plug fixing mechanism.

5. The separable electrical connector testing device of claim 4, wherein: the control assembly comprises a bearing mounting seat, a rotating shaft and a cam bearing, the rotating shaft is arranged on the bearing mounting seat, the cam bearing is fixedly connected to one end of the rotating shaft, a driving handle is arranged at the other end of the rotating shaft, and a connecting hole connected with the cam bearing is formed in the fixing block.

6. The separable electrical connector testing device of claim 4, wherein: the plug fixing mechanism comprises a plug fixing assembly and a sliding assembly, the plug fixing assembly is fixedly connected to the sliding assembly, the sliding assembly comprises a second mounting plate and a mounting seat, the mounting seat is fixedly connected to the second mounting plate, a sliding block matched with a sliding rail is arranged on the second mounting plate, an one-way bearing is arranged on the mounting seat, a gear shaft of the mounting gear is arranged on the one-way bearing, and a shading detection sheet is arranged on the mounting seat.

7. The separable electrical connector testing device of claim 6, wherein: the fixed subassembly of plug includes staple bolt under the plug, on the plug staple bolt and second locking screw, staple bolt fixed connection is on the second mounting panel under the plug, the staple bolt setting is locked through second locking screw under the plug on the staple bolt, all be equipped with second rubber protection pad under the plug on the inside wall of staple bolt and the inside wall of staple bolt on the plug on the inside wall of staple bolt.

8. The separable electrical connector testing device of claim 6, wherein: the movable module comprises a fixed column, a mounting bottom plate, a movable module, a motor and a mounting block, the motor is connected with the movable module, the movable module is fixedly connected onto the mounting bottom plate, the mounting block is arranged on the movable module, the fixed column is arranged on the mounting bottom plate, and the lifting force measuring module is fixedly connected onto the mounting block.

9. The separable electrical connector testing device of claim 8, wherein: the lifting force measuring module comprises a lifting platform, a force measuring sensor mounting block, a force measuring sensor, a steel wire rope and a lock hook, wherein the force measuring sensor mounting block is arranged on the lifting platform, the force measuring sensor is fixedly connected onto the force measuring sensor mounting block, one end of the steel wire rope is connected with the force measuring sensor, and the lock hook is fixedly connected to the other end of the steel wire rope.

10. The separable electrical connector testing device of claim 9, wherein: the elevating platform includes base plate, rotor arm, digging arm and roof, the bottom of rotor arm is rotated and is connected on the base plate, the top of rotor arm is rotated and is connected on the roof, the rotor arm rotates to be connected on the digging arm, be equipped with the lead screw on the roof, be equipped with the sliding block that links to each other with the lead screw on the digging arm, be equipped with the knob on the lead screw, be equipped with sign connector inclination's sign between base plate and the roof.