CN115166365A

CN115166365A - Automatic detection equipment for conductive shoes

Info

Publication number: CN115166365A
Application number: CN202211096464.8A
Authority: CN
Inventors: 于丰源; 于仟慧; 常树全
Original assignee: Yangzhou Tianyu Shoes Co ltd
Current assignee: Yangzhou Tianyu Shoes Co ltd
Priority date: 2022-09-08
Filing date: 2022-09-08
Publication date: 2022-10-11
Anticipated expiration: 2042-09-08
Also published as: CN115166365B

Abstract

The invention discloses automatic detection equipment for conductive shoes, which relates to the technical field of conductive shoe detection and comprises a test box body and an auxiliary detection assembly, wherein the surface of the test box body is connected with a test wire, one end of the test wire, far away from the test box body, is connected with the test assembly, the auxiliary assembly is installed on the right side of the test box body and is connected with the outer surface of the test assembly, and the auxiliary detection assembly comprises an insulating frame, an anti-slip film, a plastic block, heating metal and expansion metal. The pressure-bearing seat is arranged in a matched mode, the pressure-bearing seat can be abutted to the inside of the conductive shoe for measurement, heat generated by the pressure-bearing seat in the measurement process is conducted to heating metal and expansion metal in the insulating frame through the heat conducting fins to enable the heating metal and the expansion metal to be heated and expanded, the inner wall of the conductive shoe is extruded, the monitoring assembly is used for detecting whether the surface of the conductive shoe is damaged or not, function detection is further enriched, and detection accuracy is improved.

Description

Automatic detection equipment for conductive shoes

Technical Field

The invention relates to the technical field of conductive shoe detection, in particular to automatic detection equipment for conductive shoes.

Background

The classified antistatic shoes and conductive shoes of the electric performance protection shoes can be divided into leather shoes and cloth cover rubber sole shoes according to materials, and the leather shoes can be classified into adhesive shoes, injection shoes and mould pressing shoes according to the manufacturing process. The electric insulation shoes can be divided into leather shoes, cloth rubber shoes, rubber shoes and plastic shoes according to the material quality. Leather shoes can be classified into adhesive shoes, mold pressing shoes, injection shoes and seam shoes according to the manufacturing process, and the conductive shoes must be ensured to perform the design function of dissipating static charges in the whole service life for the safety of users, and the processing of the conductive shoes also needs to detect the static charges.

The utility model discloses a portable electrically conductive shoes direct current resistance tester as application number is CN201821324814.0, including setting up RFID label, the box on electrically conductive shoes and setting up DC power supply, RFID module, the module of stepping up, control module, display module, storage module, print module, the measuring module in the box, control module is connected with RFID module, storage module, display module, print module, acquisition circuit electricity, and this control module includes treater and master control board, print module is miniature thermal printer, DC power supply is the lithium cell, measuring module is including setting up at box on the groove and test steel ball, and the test groove bottom is equipped with the electrode bottom plate, is equipped with the power output interface that is used for testing electrically conductive shoes resistance on the box. The system has the functions of carrying, field detection, RFID label scanning, field inquiry, historical data analysis, cumulative use hour recording, detection data printing and the like.

The portable conductive shoe direct current resistance tester similar to the above application has the following defects at present

One is that the detection of electrical property can only be carried out, and because the use of electrically conductive shoes can be influenced equally to the quality of electrically conductive shoes surface, the market is common all need the surface of artifical observation electrically conductive shoes before detecting electrically conductive shoes simultaneously, has not only influenced detection efficiency and has increaseed detection personnel's intensity of labour simultaneously.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and an automatic detection device for conductive shoes is provided to achieve the purpose of higher practical value.

Disclosure of Invention

The invention aims to provide automatic detection equipment for conductive shoes, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an automatic check out test set of electrically conductive shoes, includes test box and supplementary inspection subassembly, test box surface is connected with the test wire, just the test wire is kept away from test box's one end is connected with test subassembly, test box installs on the right side auxiliary assembly, just the auxiliary assembly both sides all are connected with the elasticity card strip, supplementary inspection subassembly connect in the test subassembly surface, just supplementary inspection subassembly includes insulating frame, anti-slip film, plastic block, heating metal and expanded metal, insulating frame bottom is connected with anti-slip film, just the insulating frame surface is provided with the plastic block, heating metal connect in inside the insulating frame, just the heating metal surface is connected with expanded metal.

Furthermore, the testing assembly comprises a connecting frame, a rotating shaft, arc pieces, a ball head rod and a pressure bearing seat, the surface of the connecting frame is connected with the rotating shaft, the arc pieces are arranged on the outer surface of the rotating shaft, the ball head rod is arranged inside the connecting frame and the arc pieces, and the bottom of the ball head rod is connected with the pressure bearing seat.

Furthermore, the test assembly further comprises a clamping ring and a heat conducting fin, the clamping ring is connected to the outer surface of the pressure bearing seat, and the outer surface of the clamping ring is connected with the heat conducting fin.

Further, the auxiliary assembly includes the pull seat, rotates seat, outer block tooth, drive gear, servo motor and shielding seat, just pull seat middle part is provided with rotate the seat, it is provided with to rotate the seat surface outer block tooth, just outer block tooth surface mesh is connected with drive gear, the drive gear middle part is provided with servo motor, just the servo motor surface is provided with the shielding seat.

Furthermore, the auxiliary assembly further comprises an isolation plate, a rubber insulation plate and anti-skid bumps, the isolation plate is connected to the upper surface of the rotating seat, the rubber insulation plate is arranged on the upper surface of the isolation plate, and the anti-skid bumps are arranged on the surface of the rubber insulation plate.

Furthermore, a storage groove is formed in the surface of one side of the drawing seat, and a monitoring assembly is arranged in the storage groove.

Further, the monitoring assembly comprises a damping rotating shaft, a telescopic straight rod, a monitoring seat, a shielding cover and a monitoring camera, wherein the surface of the damping rotating shaft is connected with the telescopic straight rod, the telescopic straight rod is far away from one end of the damping rotating shaft and is connected with the monitoring seat, the bottom of the monitoring seat is connected with the shielding cover, and the shielding cover is internally provided with the monitoring camera.

Furthermore, the monitoring seat and the telescopic straight rod are vertically distributed, and the monitoring seat is in a circular structure.

Furthermore, the heating metal and the expansion metal are connected with the heat conducting sheet, the expansion metal penetrates through the inside of the shaping block, and the shaping block is of a flexible structure.

Furthermore, the drawing seat is elastically connected with the test box body through the elastic clamping strip, and the external size of the drawing seat is smaller than the internal size of the test box body.

The invention provides automatic detection equipment for conductive shoes, which has the following beneficial effects: according to the automatic detection equipment for the conductive shoes, the plurality of components are matched with one another, so that the pressure bearing seat can be abutted to the inside of the conductive shoes for measurement, heat generated by the pressure bearing seat in the measurement process is transmitted to heating metal and expansion metal in the insulating frame through the heat conducting sheet to be heated and expanded, the inner walls of the conductive shoes are extruded, the monitoring components are used for detecting whether the surfaces of the conductive shoes are damaged or not, the function detection is further enriched, and the detection accuracy is improved;

1. according to the invention, through the mutual matching arrangement between the test assembly and the test box body, the connecting frame in the test assembly is connected to the outer end of the test wire, the arc sheet can be elastically and rotatably connected with the connecting frame by utilizing the rotating shaft, the ball head rod is limited in the connecting frame by utilizing the arc sheet to complete connection, the conductive metal layer in the connecting frame is connected and conducted with the ball head rod, the pressure bearing seat can be placed in the conductive shoe to test the voltage resistance of the conductive shoe by utilizing the test box body, and the connecting frame can be connected with the heat conducting sheet and the insulating frame in a clamping manner by utilizing the clamping ring on the outer surface, so that the equipment is convenient to assemble and disassemble.

2. According to the invention, through the mutual matching arrangement between the auxiliary inspection assembly and the pressure-bearing seat, the pressure-bearing seat is connected with the insulating frame in a clamping manner by utilizing the clamping ring on the outer surface and the heat conducting sheet, the heat conducting sheet is contacted with the heating metal after the connection, the heat is transferred to the expansion metal by utilizing heat conduction, and the expansion metal generates elastic deformation when being heated so as to push the plastic block to prop open the conductive shoe from the inner wall of the conductive shoe, so that the surface of the conductive shoe can be conveniently found to be cracked, and the detection precision is improved.

3. According to the invention, through the mutually matched arrangement of the auxiliary assembly and the test box body, the drawing seat in the auxiliary assembly is connected in the test box body in a sliding manner and is connected in the test box body in a clamping manner by utilizing the elastic clamping strip, and through the arrangement of the rotating seat on the surface of the drawing seat, the servo motor drives the driving gear to synchronously rotate with the outer clamping tooth, so that the rotating seat can rotate, the conductive shoes can be conveniently displayed in all directions by rotating on the surface of the rotating seat, and the detection on the conductive shoes is convenient.

4. According to the invention, the influence of voltage on the drawing seat during detection is reduced by utilizing the isolation plate, the rubber insulation plate and the anti-skid salient points, and meanwhile, the friction coefficient of contact with the conductive shoe is improved, so that the detection stability is further improved.

5. According to the invention, through the mutual matching arrangement of the monitoring assembly and the drawing seat, the telescopic straight rod can be hidden in the storage groove on the surface of the drawing seat by using the damping rotating shaft, and the telescopic straight rod is drawn out and rotated when in use, so that the monitoring seat is aligned to the rotating seat below the rotating seat, the conductive shoes on the surface of the rotating seat are detected by using the monitoring camera, the monitoring camera shoots detailed pictures on the surface of the conductive shoes and transmits the pictures to the external monitoring display screen by using the transmission module, the surface integrity of the conductive shoes is detected by using the computer, and the detection precision of the conductive shoes is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of an automatic detection device for conductive shoes according to the present invention;

FIG. 2 is an enlarged schematic view of the inspection apparatus for conductive shoes of the present invention at A in FIG. 1;

FIG. 3 is a schematic top view of an insulating frame of an automatic detecting apparatus for conductive shoes according to the present invention;

FIG. 4 is a schematic top view of a drawing seat of the automatic detecting apparatus for conductive shoes according to the present invention;

FIG. 5 is a schematic view of a partial cross-sectional structure of an insulation frame of an automatic detection device for conductive shoes according to the present invention;

FIG. 6 is a schematic view of a monitoring assembly of an automated conductive shoe inspection apparatus of the present invention;

fig. 7 is a schematic side view of a telescopic straight rod of the automatic detection equipment for conductive shoes according to the present invention.

In the figure: 1. testing the box body; 2. a test line; 3. testing the component; 301. a connecting frame; 302. a rotating shaft; 303. an arc sheet; 304. a ball-head rod; 305. a pressure bearing seat; 306. a clamping ring; 307. a heat conductive sheet; 4. an auxiliary component; 401. a drawing seat; 402. a rotating seat; 403. external clamping teeth; 404. a drive gear; 405. a servo motor; 406. a shielding seat; 407. a separator plate; 408. a rubber insulating plate; 409. anti-skid bumps; 5. an elastic clamping strip; 6. an auxiliary inspection component; 601. an insulating frame; 602. an anti-slip film; 603. a shaping block; 604. heating the metal; 605. an expanded metal; 7. a storage tank; 8. a monitoring component; 801. a damping rotating shaft; 802. a telescopic straight rod; 803. a monitoring seat; 804. a shield case; 805. and monitoring the camera.

Detailed Description

Referring to fig. 1-7, the present invention provides a technical solution: the automatic detection equipment for the conductive shoes comprises a test box body 1 and an auxiliary detection assembly 6, wherein the surface of the test box body 1 is connected with a test wire 2, one end, far away from the test box body 1, of the test wire 2 is connected with a test assembly 3, the right side of the test box body 1 is provided with the auxiliary assembly 4, two sides of the auxiliary assembly 4 are respectively connected with an elastic clamping strip 5, the auxiliary detection assembly 6 is connected to the outer surface of the test assembly 3, the auxiliary detection assembly 6 comprises an insulating frame 601, an anti-slip film 602, a shaping block 603, heating metal 604 and expansion metal 605, the bottom of the insulating frame 601 is connected with the anti-slip film 602, the outer surface of the insulating frame 601 is provided with the shaping block 603, the heating metal 604 is connected to the inside of the insulating frame 601, and the surface of the heating metal 604 is connected with the expansion metal 605;

referring to fig. 1-3, the testing assembly 3 includes a connecting frame 301, a rotating shaft 302, an arc piece 303, a ball head rod 304 and a pressure-bearing seat 305, wherein the surface of the connecting frame 301 is connected with the rotating shaft 302, the outer surface of the rotating shaft 302 is provided with the arc piece 303, the ball head rod 304 is arranged inside the connecting frame 301 and the arc piece 303, the bottom of the ball head rod 304 is connected with the pressure-bearing seat 305, the testing assembly 3 further includes a clamping ring 306 and a heat-conducting strip 307, the clamping ring 306 is connected with the outer surface of the pressure-bearing seat 305, and the outer surface of the clamping ring 306 is connected with the heat-conducting strip 307;

the specific operation is as follows, through the mutual matching arrangement between the testing component 3 and the testing box 1, the connecting frame 301 in the testing component 3 is connected to the outer end of the testing line 2, the arc piece 303 can be elastically and rotatably connected with the connecting frame 301 by using the rotating shaft 302, the arc piece 303 with an arc shape is used for limiting the ball head rod 304 in the connecting frame 301 to complete the connection, the conductive metal layer in the connecting frame 301 is connected and conducted with the ball head rod 304, the pressure bearing seat 305 can be placed in the conductive shoe to test the voltage resistance of the conductive shoe by using the testing box 1, the connecting frame 301 can be connected with the insulating frame 601 by using the clamping ring 306 and the heat conducting piece 307 on the outer surface in a clamping manner, and the equipment is convenient to assemble and disassemble;

referring to fig. 1, 3 and 5, the auxiliary inspection assembly 6 includes an insulation frame 601, an anti-slip film 602, a shaping block 603, a heating metal 604 and an expansion metal 605, the bottom of the insulation frame 601 is connected with the anti-slip film 602, the outer surface of the insulation frame 601 is provided with the shaping block 603, the heating metal 604 is connected inside the insulation frame 601, the surface of the heating metal 604 is connected with the expansion metal 605, the heating metal 604 and the expansion metal 605 are connected with the heat conducting strip 307, the expansion metal 605 penetrates through the shaping block 603, and the shaping block 603 is of a flexible structure;

the specific operation is as follows, through the mutual matching arrangement between the auxiliary inspection assembly 6 and the pressure-bearing seat 305, the pressure-bearing seat 305 is connected with the insulating frame 601 through the clamping ring 306 and the heat-conducting sheet 307 on the outer surface in a clamping manner, after the connection, the heat-conducting sheet 307 is in contact with the heating metal 604, heat is transferred to the expansion metal 605 through heat conduction, and the expansion metal 605 is elastically deformed when being heated so as to push the plastic block 603 to prop the conductive shoe from the inner wall of the conductive shoe, so that the surface of the conductive shoe can be conveniently found to be cracked, and the detection precision is improved;

referring to fig. 1 and 4, the auxiliary assembly 4 includes a drawing base 401, a rotating base 402, external engaging teeth 403, a driving gear 404, a servo motor 405 and a shielding base 406, the rotating base 402 is disposed in the middle of the drawing base 401, the external engaging teeth 403 are disposed on the outer surface of the rotating base 402, the driving gear 404 is engaged with the outer surface of the external engaging teeth 403, the servo motor 405 is disposed in the middle of the driving gear 404, the shielding base 406 is disposed on the outer surface of the servo motor 405, the auxiliary assembly 4 further includes a partition plate 407, a rubber insulating plate 408 and anti-slip bumps 409, the partition plate 407 is connected to the upper surface of the rotating base 402, the rubber insulating plate 408 is disposed on the upper surface of the partition plate 407, and the anti-slip bumps 409 are disposed on the surface of the rubber insulating plate 408;

the concrete operation is as follows, set up through the mutually supporting between auxiliary assembly 4 and the test box 1, pull seat 401 sliding connection in this auxiliary assembly 4 is inside test box 1, and utilize 5 block connections of elasticity card strip inside test box 1, the setting of seat 402 is rotated on pull seat 401 surface, make servo motor 405 drive gear 404 and outer block tooth 403 synchronous rotation, can make and rotate seat 402 and rotate, make electrically conductive shoes rotate on seat 402 surface and be convenient for all-round show electrically conductive shoes rotating, the convenient detection to electrically conductive shoes, and utilize division board 407, the influence of voltage to pull seat 401 when rubber insulation board 408 and anti-skidding bump 409 reduce the detection, can also promote the coefficient of friction with electrically conductive shoes contact simultaneously, further promote the stability that detects.

Referring to fig. 4, 6 and 7, a storage groove 7 is formed on a surface of one side of the drawing seat 401, and a monitoring assembly 8 is disposed inside the storage groove 7, the monitoring assembly 8 includes a damping rotating shaft 801, a telescopic straight rod 802, a monitoring seat 803, a shielding cover 804 and a monitoring camera 805, the telescopic straight rod 802 is connected to the surface of the damping rotating shaft 801, the monitoring seat 803 is connected to one end of the telescopic straight rod 802 away from the damping rotating shaft 801, the shielding cover 804 is connected to the bottom of the monitoring seat 803, the monitoring camera 805 is disposed inside the shielding cover 804, the monitoring seat 803 and the telescopic straight rod 802 are vertically distributed, and the monitoring seat 803 is in a circular structure;

the operation is as follows, through the mutually supporting setting between monitoring subassembly 8 and the pull seat 401, flexible straight-bar 802 utilizes damping pivot 801 can hide in the storage groove 7 on pull seat 401 surface, and pull out flexible straight-bar 802 and rotate when using, make monitoring seat 803 aim at the rotation seat 402 of rotation below, utilize monitoring camera 805 to detect the electrically conductive shoes that rotate seat 402 surface, this monitoring camera 805 shoots the detailed picture on electrically conductive shoes surface, and utilize transmission module transmission to the outside to monitor in the display screen, utilize the computer to detect the surface integrity of electrically conductive shoes, promote the detection precision of electrically conductive shoes.

In conclusion, when the automatic detection equipment for the conductive shoes is used, firstly, the test box body 1 is opened, then the test wire 2 is inserted into the slot at the right side of the test box body 1, and simultaneously the drawing seat 401 is pulled to be drawn out, the drawing seat 401 is clamped and connected in the test box body 1 by the elastic clamping strip 5, so that the installation and the disassembly of the drawing seat 401 are facilitated, then the conductive shoes to be tested are placed on the isolation plate 407, the rubber insulation plate 408 and the anti-slip salient points 409 on the upper surface of the rotating seat 402, so that the influence of voltage on the drawing seat 401 during detection is reduced, then through the arrangement of the test component 3, the pressure bearing seat 305 is clamped and connected with the insulation frame 601 by the clamping ring 306 on the outer surface, the heat conducting sheet 307 is contacted with the heating metal 604 after connection, the pressure bearing seat 305 and the insulation frame 601 are placed in the conductive shoes, and the test box body 1 is opened to be electrified, so that the resistance voltage value of the conductive shoes is tested by the test box body 1, and heat is transferred to the expanded metal 605 by heat conduction in the electrifying process, the expanded metal 605 is elastically deformed when being heated so as to push the plastic blocks 603 to prop open the conductive shoes from the inner walls of the conductive shoes, thereby being convenient to find cracks on the surfaces of the conductive shoes, then through the arrangement of the monitoring assembly 8, the telescopic straight rod 802 can be hidden in the storage groove 7 on the surface of the drawing seat 401 by using the damping rotating shaft 801, and the telescopic straight rod 802 is drawn out to rotate when being used, so that the monitoring seat 803 is aligned to the rotating seat 402 below the rotation, and the servo motor 405 drives the driving gear 404 to synchronously rotate with the outer engaging teeth 403 by using the arrangement of the rotating seat 402 on the surface of the drawing seat 401, so that the rotating seat 402 can rotate, the conductive shoes can be conveniently displayed in all directions by rotating the surface of the rotating seat 402, and a detail picture on the surface of the conductive shoes is shot by combining the monitoring camera 805, and utilize the transmission module to transmit to outside control display screen in, utilize the computer to detect the surface integrity of electrically conductive shoes, promote the detection precision of electrically conductive shoes.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an automatic check out test set of electrically conductive shoes, characterized in that, includes test box (1) and supplementary inspection subassembly (6), test box (1) surface connection has test wire (2), just test wire (2) are kept away from the one end of test box (1) is connected with test subassembly (3), auxiliary assembly (4) are installed on test box (1) right side, just elastic card strip (5) are all connected to auxiliary assembly (4) both sides, supplementary inspection subassembly (6) connect in test subassembly (3) surface, just supplementary inspection subassembly (6) include insulating frame (601), anti-skidding film (602), moulding piece (603), heating metal (604) and inflation metal (605), insulating frame (601) bottom is connected with anti-skidding film (602), just insulating frame (601) surface is provided with mould piece (603), heating metal (604) connect in inside insulating frame (601), just heating metal (604) surface connection has inflation metal (605).

2. The automatic detection equipment for the conductive shoes according to claim 1, characterized in that the test component (3) comprises a connecting frame (301), a revolving shaft (302), an arc piece (303), a ball head rod (304) and a bearing seat (305), the surface of the connecting frame (301) is connected with the revolving shaft (302), the outer surface of the revolving shaft (302) is provided with the arc piece (303), the connecting frame (301) and the inside of the arc piece (303) are provided with the ball head rod (304), and the bottom of the ball head rod (304) is connected with the bearing seat (305).

3. The automatic detection equipment of an electric conduction shoe as claimed in claim 2, wherein the testing assembly (3) further comprises a snap ring (306) and a heat conduction sheet (307), and the snap ring (306) is connected to the outer surface of the pressure bearing seat (305), and the heat conduction sheet (307) is connected to the outer surface of the snap ring (306).

4. The automatic detection equipment of a conductive shoe according to claim 1, wherein the auxiliary assembly (4) comprises a drawing seat (401), a rotating seat (402), outer clamping teeth (403), a driving gear (404), a servo motor (405) and a shielding seat (406), the rotating seat (402) is arranged in the middle of the drawing seat (401), the outer clamping teeth (403) are arranged on the outer surface of the rotating seat (402), the driving gear (404) is connected to the outer surface of the outer clamping teeth (403) in a meshed mode, the servo motor (405) is arranged in the middle of the driving gear (404), and the shielding seat (406) is arranged on the outer surface of the servo motor (405).

5. The automatic detection equipment for the conductive shoes according to claim 4, characterized in that the auxiliary assembly (4) further comprises a separation plate (407), a rubber insulation plate (408) and anti-slip bumps (409), wherein the separation plate (407) is connected to the upper surface of the rotating base (402), the rubber insulation plate (408) is arranged on the upper surface of the separation plate (407), and the anti-slip bumps (409) are arranged on the surface of the rubber insulation plate (408).

6. The automatic detection equipment for the conductive shoes according to claim 1, characterized in that a storage groove (7) is formed in one side surface of the drawing seat (401), and a monitoring assembly (8) is arranged inside the storage groove (7).

7. The automatic detection equipment of the conductive shoes according to claim 6, characterized in that the monitoring assembly (8) comprises a damping rotating shaft (801), a telescopic straight rod (802), a monitoring seat (803), a shielding cover (804) and a monitoring camera (805), the telescopic straight rod (802) is connected to the surface of the damping rotating shaft (801), the monitoring seat (803) is connected to one end, away from the damping rotating shaft (801), of the telescopic straight rod (802), the shielding cover (804) is connected to the bottom of the monitoring seat (803), and the monitoring camera (805) is arranged inside the shielding cover (804).

8. The automatic detection equipment of claim 7, wherein the monitoring seat (803) is perpendicular to the telescopic straight rod (802), and the monitoring seat (803) has a circular structure.

9. The apparatus for automatically inspecting the conductive shoes according to claim 3, characterized in that said heating metal (604) and said expansion metal (605) are connected to said heat-conducting plate (307), said expansion metal (605) penetrates inside said shaped block (603), and said shaped block (603) is of a flexible structure.

10. The automatic detection equipment for the conductive shoes according to claim 4, characterized in that the drawing seat (401) is elastically connected with the test box body (1) through the elastic clamping strip (5), and the external dimension of the drawing seat (401) is smaller than the internal dimension of the test box body (1).