CN212722459U - Dual-drive four-groove automatic visual scrub-resistant tester - Google Patents

Abstract

The application provides an automatic visual scrub resistant tester in four grooves of dual drive, it includes: a chassis; a work table; the test plate fixture is provided with at least four notches for placing a sample plate to be subjected to a washing resistance test; the automatic vision device comprises an intelligent network identification module, a shooting assembly and a network terminal, wherein the intelligent network identification module is arranged on a case, the shooting assembly is arranged above a workbench, the shooting assembly is used for shooting a picture of the degree of washing and brushing resistance of a brush of a first brush holder to a sample plate and a picture of the degree of washing and brushing resistance of a brush of a second brush holder to the sample plate, the intelligent network identification module is electrically connected with the shooting assembly, so that the shooting assembly transmits comparison information of the degree of washing and brushing resistance of the sample plate with two notches as a group to the intelligent network identification module, and the network terminal is connected to the intelligent network identification module through wireless communication. Compared with the prior art, the remote identification, checking and control can be realized, excessive checking and brushing-resistant test work is not needed, the automation degree is high, and the use is convenient.

Description

Dual-drive four-groove automatic visual scrub-resistant tester

Technical Field

The utility model belongs to the technical field of resistant scrubbing test equipment, a resistant scrubbing tester of automatic vision of four grooves of dual drive is related to.

Background

Currently, in the coatings industry, it is often desirable to perform a scrub resistance test on the coating of a sample panel. The existing two-groove scrubbing-resistant tester can only be used for placing two brushes, and tests the scrubbing-resistant performance of the coating of a sample plate through a single motor driving structure, and has the following problems: the efficiency is low, and the structure operates at the same speed, so that the scrubbing resistance of the test sample plate can not be compared at different speeds in real time; and the washing and brushing resistance of the template is required to be checked manually and visually on site, so that the use is inconvenient.

Therefore, the utility model provides a dual-drive four-groove automatic visual scrub-resistant tester.

SUMMERY OF THE UTILITY MODEL

In view of the above problems in the prior art, the present invention provides a dual-drive four-slot automatic visual scrub-resistant tester, which can simultaneously place four brushes and perform a contrast test on two groups of samples; the remote identification, viewing and control can be realized, excessive manual viewing and scrubbing-resistant test work is not needed, the automation degree is high, and the use is convenient.

The purpose of the utility model can be realized by the following technical proposal:

a dual-drive four-groove automatic visual scrub-resistant tester comprises:

a chassis;

a workbench arranged on the case;

the test plate clamp is arranged on the upper surface of the workbench;

a first drive mechanism and a second drive mechanism;

the first brush holder is provided with at least two brushes, the first brush holder is arranged at the rear side of the workbench, and the first brush holder moves left and right along the axial direction of the workbench through a first driving mechanism;

the second brush holder is provided with at least two brushes, the second brush holder is arranged on the front side of the workbench, and the second brush holder moves left and right along the axial direction of the workbench through a second driving mechanism;

also comprises the following components in part by weight,

the test plate fixture is provided with at least four notches, the notches are used for placing a sample plate to be subjected to a washing resistance test, and the brushes of the first brush holder and the brushes of the second brush holder are respectively matched with the coatings of the sample plates arranged in the corresponding notches in a washing manner;

the automatic vision device comprises an intelligent network identification module, a shooting assembly and a network terminal, wherein the intelligent network identification module is arranged on a case, the shooting assembly is arranged above a workbench, the shooting assembly is used for shooting a picture of the degree that a brush of a first brush holder is resistant to washing of a sample plate and a picture of the degree that a brush of a second brush holder is resistant to washing of the sample plate, the intelligent network identification module is electrically connected with the shooting assembly so that the shooting assembly can transmit contrast information of the degree that two notches are resistant to washing of a set of sample plates to the intelligent network identification module, and the network terminal is connected to the intelligent network identification module through wireless communication.

The dual-drive four-groove automatic visual scrub-resistant tester is characterized in that: the first driving mechanism and the second driving mechanism respectively comprise a mounting plate, a first speed reducing motor, a first speed reducer, a first slider-crank assembly, a second speed reducing motor, a second speed reducer, a second slider-crank assembly, two alternate first optical axes arranged in an upper opening cavity on the front side of the case along the axial direction, and two alternate second optical axes arranged in an upper opening cavity on the rear side of the case along the axial direction; wherein the content of the first and second substances,

the left end and the right end of the mounting plate are arranged on the left cavity wall and the right cavity wall of the upper opening cavity, the first speed reduction motor base and the second speed reduction motor base are both fixed on the mounting plate, the first speed reduction motor is connected with the first slider-crank assembly through the first speed reducer fixed on the mounting plate, and the first slider-crank assembly is in sliding fit with a first brush holder which is arranged on the front side of the workbench and moves along the left-right direction through two first optical axes; the second speed reducing motor is connected with a second slider-crank assembly through a second speed reducer fixed on the mounting plate, and the second slider-crank assembly is in sliding fit with a second brush holder which is arranged on the front side of the workbench and moves along the left-right direction through two second optical axes;

the control mechanism, two response pieces, inductor and control scheme board, control scheme board respectively with be fixed in two response pieces of mounting panel, be fixed in the inductor, first gear motor, the second gear motor electricity of upper opening cavity wall and be connected.

The dual-drive four-groove automatic visual scrub-resistant tester is characterized in that: first slider-crank subassembly includes first rocker, first preceding slider, first backward slider, transverse plate, removal connecting plate, first rocker one end is fixed in first gear motor output shaft, the other end pin joint in the front end of transverse plate, transverse plate rear end is fixed at the first backward slider that the second optical axis was located to the slip cap, first preceding slider slip cap is established and is located the below first optical axis, it is first preceding slider to remove connecting plate one end and be fixed in first preceding slider, it meets with first brush yoke to remove the connecting plate other end.

The dual-drive four-groove automatic visual scrub-resistant tester is characterized in that: second slider-crank subassembly includes that second rocker, second are preceding to slider, second to slider, rocking arm, second rocker one end is fixed in up and wears to locate mounting panel top plane the second gear motor output shaft, other end pin joint in the front end of rocking arm, the lower fixed surface of rocking arm rear end is located the second of second optical axis and is followed the slider at the slip cap, the second is preceding to the slider slip cap establish be located the top first optical axis, the upper surface of rocking arm rear end is connected with the second brush yoke.

The dual-drive four-groove automatic visual scrub-resistant tester is characterized in that: the test plate clamp comprises an upper plate, a lower plate, a first hand-screwed screw, a second hand-screwed screw, a clamp plate, a clamp column, a spring, a screw and a pressure test plate, wherein the clamp plate, the upper plate and the lower plate are stacked together from top to bottom in sequence;

the clamp column penetrates through the clamp plate and the upper plate along the longitudinal direction, the first hand-screwed screw is screwed on the clamp plate, the upper plate and the lower plate from top to bottom, the second hand-screwed screw is screwed on the clamp column through the spring, and the trial pressing plate is fixed on the top plane of the clamp plate.

The dual-drive four-groove automatic visual scrub-resistant tester is characterized in that: the first brush holder and the second brush holder both comprise longitudinal plate bodies and brush assemblies, and the lower surfaces of the longitudinal plate bodies are fixed to the first slider-crank assembly or the second slider-crank assembly;

the brush assembly comprises a rotating arm and a brush body arranged at the end part of the rotating arm, and the rotating arm is pivoted in pivoting holes in two side walls of the embedding opening of the longitudinal plate body.

The dual-drive four-groove automatic visual scrub-resistant tester is characterized in that: the light source comprises a longitudinal frame, a frame plate, a light emitting tube and two connecting blocks, and the lower end of the longitudinal frame is arranged on the first crank block component; the frame plate is fixed on the side wall of the longitudinal frame, the light-emitting tubes are embedded into the frame plate so that the light-emitting tubes irradiate the workbench after being electrified, and the two connecting blocks are arranged at the corners of the frame plate.

The dual-drive four-groove automatic visual scrub-resistant tester is characterized in that: the shooting assembly comprises a connecting seat and a camera, one end of the connecting seat is fixed on the longitudinal frame above the frame plate, the other end of the connecting seat extends towards the direction of the workbench, the camera seat is fixed at the end part of the connecting seat far away from the longitudinal frame, and the conductive part of the camera is electrically connected with the intelligent network identification module.

As mentioned above, the utility model relates to a dual drive four groove automatic vision scrub resistant tester has following beneficial effect:

after the dual-drive four-groove automatic vision scrubbing-resistant tester is utilized, compared with the prior art, due to the adoption of the structure, four brushes can be placed simultaneously by arranging at least four notches and an automatic vision device and combining the dual drives of the first driving mechanism and the second driving mechanism, and the comparison test of two groups of samples is carried out simultaneously; the scrub resistance of the scrubbing sample plate coating is compared and tested under the parameters of different speeds, times and the like of the first driving mechanism and the second driving mechanism, the scrub resistance of the sample plate coating can be monitored in real time by using the automatic vision device, the defect of manual visual observation in the prior art is overcome, remote identification, checking and control can be realized, excessive manual checking and scrub resistance testing work is not needed, the automation degree is high, and the use is convenient.

The present invention will be further described with reference to the following embodiments.

Drawings

FIG. 1 is a perspective view of a dual-drive four-slot automatic visual scrub resistant tester;

FIG. 2 is a side view of a dual drive four slot automatic vision scrub resistant tester;

FIG. 3 is a schematic view of a portion of a dual-drive four-slot automatic visual scrub resistant tester;

FIG. 4 is a control block diagram of an automated vision apparatus of a dual drive four-bath automated vision scrub resistant tester;

FIG. 5 is a partial exploded view of the panel clamp in the dual drive four slot automatic vision scrub resistant tester;

fig. 6 is a schematic view of another view angle of fig. 3.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

It should be understood that the structures, ratios, sizes, etc. shown in the drawings of the present application are only used for matching with the contents disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any modification of the structures, change of the ratio relationship or adjustment of the sizes should still fall within the scope of the present invention without affecting the functions and the achievable purposes of the present invention. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description only, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof are considered as the scope of the present invention without substantial changes in the technical content. The specific structure can be explained with reference to the drawings of the patent application.

In the following embodiments, the left side of the paper surface is the left direction, the right side of the paper surface is the right direction, the upper side of the paper surface is the upper direction, the lower side of the paper surface is the lower direction, the front side perpendicular to the paper surface is the front direction, and the rear side perpendicular to the paper surface is the rear direction.

The utility model provides a dual drive four groove automatic vision scrubbing resistant tester, please refer to fig. 1 to 6 and show, it includes:

a chassis 1;

the workbench 2 is arranged on the top of the case;

a test board clamp 5 arranged on the upper surface of the workbench 2;

a first drive mechanism 3A and a second drive mechanism 3B;

a first brush holder 33b having at least two brushes 330, the first brush holder 33b being disposed at a rear side of the table 2, the first brush holder 33b being moved left and right in an axial direction of the table 2 by a first driving mechanism 3A;

a second brush holder 33d having at least two brushes 330, the second brush holder 33d being disposed at a front side of the table 2, the second brush holder 33d being moved left and right in an axial direction of the table 2 by a second driving mechanism 3B;

also comprises the following components in part by weight,

the test plate clamp 5 is provided with at least four notches 5a for placing a sample plate to be subjected to a wash-resistant test (not shown in the figure, hereinafter, the notches are all the same), and the brush 330 of the first brush holder 33b and the brush 330 of the second brush holder 33d are respectively matched with the coating of the sample plate placed in the corresponding notches 5a in a washing way;

the automatic vision device 7A comprises an intelligent network identification module 7A, a shooting assembly 7 and a network terminal 7b, wherein the intelligent network identification module 80 is arranged on the case 1, the shooting assembly 7 is arranged above the workbench 2, the shooting assembly 7 is used for shooting a picture of the degree of washing and brushing resistance of the brush 330 of the first brush holder 33b to a sample plate and a picture of the degree of washing and brushing resistance of the brush 330 of the second brush holder 33d to the sample plate, the intelligent network identification module 7A is electrically connected with the shooting assembly 7, so that the shooting assembly 7 transmits comparison information of the degree of washing and brushing resistance of the sample plate with two notches 5a as a group to the intelligent network identification module 7A, and the network terminal 7b is connected to the intelligent network identification module 7A through wireless communication. Compared with the prior art, the utility model adopts the structure, and through the arrangement of at least four notches 5a and the automatic vision device 7A and the combination of the double drives of the first driving mechanism 3A and the second driving mechanism 3B, four brushes can be placed simultaneously, and the comparison test of two groups of samples can be carried out simultaneously; the scrub resistance of the scrubbing sample plate coating is compared and tested under the parameters of different speeds, times and the like of the first driving mechanism 3A and the second driving mechanism 3B, the scrub resistance of the sample plate coating can be monitored in real time by using an automatic vision device, the defect of manual observation by naked eyes in the prior art is overcome, remote identification, checking and control can be realized, excessive checking and scrub resistance testing work is not needed, the automation degree is high, and the use is convenient.

It should be noted that: the intelligent network identification module 7a may be a control main board, and the network terminal 7b may be a desktop PC or a mobile phone or other intelligent operation terminal device.

In this embodiment, as shown in fig. 1 and fig. 3, each of the first driving mechanism 3A and the second driving mechanism 3B includes a mounting plate 30, a first speed reduction motor 31, a first speed reducer 32, a first slider-crank assembly 33A, a second speed reduction motor 33, a second speed reducer 34, a second slider-crank assembly 33c, two alternate first optical axes 35 disposed in the upper open cavity of the front side of the chassis 1 along the axial direction, and two alternate second optical axes 36 disposed in the upper open cavity 10 of the rear side of the chassis 1 along the axial direction, wherein the left and right ends of the mounting plate 30 are disposed on the left and right cavity walls of the upper open cavity 10, the bases of the first speed reduction motor 31 and the second speed reduction motor 33 are fixed to the mounting plate 30, the first speed reduction motor 31 is connected to the first slider-crank assembly 33A through the first speed reducer 32 fixed to the mounting plate 30, and the first slider-crank assembly 33A is connected to the left and right cavities disposed in the front side of the worktable 2 through the two first optical axes The movable first brush holder 33b is in sliding fit; the second speed reduction motor 33 is connected with a second slider-crank assembly 33c through a second speed reducer 34 fixed on the mounting plate 30, and the second slider-crank assembly 33c is in sliding fit with a second brush holder 33d which is arranged at the front side of the workbench 2 and moves along the left-right direction through two second optical axes 36;

the control mechanism 4, the two sensing sheets 40, the sensor 41 and the control circuit board 42, wherein the control circuit board 42 is electrically connected to the two sensing sheets 40 fixed on the mounting plate 30, the sensor 41 fixed on the cavity wall of the upper open cavity 10, the first speed reduction motor 31 and the second speed reduction motor 33 respectively. By adopting the structure, the brushing resistance of the test sample plate can be contrasted, the work is not interfered with each other, and the test efficiency is high.

It should be noted that: the automatic scrub resistance tester provided with the first driving mechanism 3A and the second driving mechanism 3B can rotate the first speed reduction motor 31 and the second speed reduction motor 33 at the same speed or different speeds through program control, so that the first brush holder 33B and the second brush holder 33d respectively perform scrub resistance components at the same speed or different speeds, and the scrub resistance of the brush 300 of the first brush holder 33B and the brush 300 of the second brush holder 33d driven at the same speed or different speeds to the coating of the sample plate can be better compared.

It should be noted that, the above-mentioned structure may also be replaced by a driving motor combined with a crank-slider structure and a gear (or a belt, a synchronous belt, etc.), so as to make a double-driving structure as in the existing structure, and the driving form may be a constant speed or an equal-ratio differential speed (the gear ratio forms a constant speed and equal-ratio differential speed effect); in addition, the double-screw reciprocating structure with double motors and double drives can also be adopted.

Referring to fig. 1, 2 and 3, in this embodiment, in order to realize transmission, the first slider-crank assembly 33a includes a first rocker 330, a first forward slider 331, a first backward slider 332, a transverse plate 333 and a moving connecting plate 334, one end of the first rocker 330 is fixed to the output shaft of the first reduction motor 31, the other end of the first rocker 330 is pivoted to the front end of the transverse plate 333, the rear end of the transverse plate 333 is fixed to the first backward slider 332 slidably sleeved on the second optical axis 36, the first forward slider 331 is slidably sleeved on the first optical axis 35 located below, one end of the moving connecting plate 334 is fixed to the first forward slider 331, and the other end of the moving connecting plate 334 is connected to the first brush holder 33 b. By providing the first slider-crank assembly 33a of the aforementioned structure, transmission is achieved between the first reduction motor 31 and the first brush holder 33 b.

As shown in fig. 1, fig. 2 and fig. 3, in this embodiment, in order to realize transmission, the second slider-crank assembly 33c includes a second rocker 335, a second forward slider 336, a second backward slider 337, and a rocker 338, one end of the second rocker 335 is fixed to the output shaft of the second reduction motor 33 that is upward inserted into the top plane of the mounting plate 30, the other end of the second rocker is pivoted to the front end of the rocker 338, the lower surface of the rear end of the rocker 338 is fixed to the second backward slider 337 that is slidably sleeved on the second optical axis 36, the second forward slider 336 is slidably sleeved on the first optical axis 335 located above, and the upper surface of the rear end of the rocker 338 is connected to the second brush holder 33 d. By providing the second slider-crank assembly 33c of the aforementioned structure, transmission is achieved between the second reduction motor 33 and the second brush holder 33 d.

Referring to fig. 1, 3 and 5, in this embodiment, the test board fixture 5 includes an upper board 50, a lower board 51, a first hand screw 52, a second hand screw 53, a fixture board 54, a fixture column 55, a spring 56, a screw 57 and a test board 58, the fixture board 54, the upper board 50 and the lower board 51 are sequentially stacked from top to bottom, the fixture column 55 is longitudinally inserted through the fixture board 54 and the upper board 50, the first hand screw 52 is screwed to the fixture board 54, the upper board 50 and the lower board 51 from top to bottom, the second hand screw 53 is screwed to the fixture column 55 through the spring 56, and the test board 58 is fixed to a top plane of the fixture board 54.

Referring to fig. 3 and 6, in this embodiment, each of the first brush holder 33b and the second brush holder 33d includes a longitudinal plate 339a and a brush assembly 339c, a lower surface of the longitudinal plate 339a is fixed to the first slider-crank assembly 33a or the second slider-crank assembly 33c, the brush assembly 339c includes a rotating arm 3390 and a brush body 3391 disposed at an end of the rotating arm 3390, and the rotating arm 3690 is pivoted in pivot holes of two sidewalls of the insertion opening of the longitudinal plate 339 a.

Referring to fig. 1 and 3, in the present embodiment, the present invention further includes a light source 6, where the light source 6 includes a longitudinal frame 60, a frame plate 61, a light emitting tube 62, and two connecting blocks 63, and a lower end of the longitudinal frame 60 is disposed on the first slider-crank assembly 33 a; the frame plate 61 is fixed on the side wall of the longitudinal frame 60, the light emitting tube 62 is embedded in the frame plate 61, so that the light emitting tube 62 irradiates the workbench 2 after power is on, and the two connecting blocks 63 are arranged at the corners of the frame plate 61.

Referring to fig. 1, 3 and 4, in this embodiment, in order to monitor the washing-resistant state in real time for the washing-resistant work, the shooting assembly 7 includes a connection seat 70 and a camera 71, one end of the connection seat 70 is fixed to the longitudinal frame 60 located above the frame plate 61, the other end of the connection seat 70 extends toward the direction of the workbench 2, the base of the camera 71 is fixed to the end of the connection seat 70 far away from the longitudinal frame 60, and the conductive part of the camera 71 is electrically connected to the intelligent network identification module 7 a. The camera device with the structure can shoot the washing-resistant condition of the washing-resistant component (namely the coating on the surface of the sample plate) on the workbench 2 below the camera 71 in real time by utilizing the camera 71, and can transmit the shot image to the intelligent network identification module 7a, and can transmit the shot image to the network terminal 7b in combination with wireless communication after being processed by the intelligent network identification module 7a, so that real-time monitoring is realized, excessive manual checking and washing-resistant testing work is not needed, and the camera device has the technical effects of high automation degree and convenience in use.

As mentioned above, the utility model relates to a dual drive four groove automatic vision scrub resistant tester has following beneficial effect:

after the dual-drive four-groove automatic vision scrubbing-resistant tester is utilized, compared with the prior art, due to the adoption of the structure, four brushes can be placed simultaneously by arranging at least four notches and an automatic vision device and combining the dual drives of the first driving mechanism and the second driving mechanism, and the comparison test of two groups of samples is carried out simultaneously; the scrub resistance of the scrubbing sample plate coating is compared and tested under the parameters of different speeds, times and the like of the first driving mechanism and the second driving mechanism, the scrub resistance of the sample plate coating can be monitored in real time by using the automatic vision device, the defect of manual visual observation in the prior art is overcome, remote identification, checking and control can be realized, excessive manual checking and scrub resistance testing work is not needed, the automation degree is high, and the use is convenient.

To sum up, the utility model discloses various shortcomings in the prior art have effectively been overcome and high industry value has.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (8)

1. A dual-drive four-groove automatic visual scrub-resistant tester comprises:

a chassis;

a workbench arranged on the case;

the test plate clamp is arranged on the upper surface of the workbench;

characterized by also comprising the following components,

a first drive mechanism and a second drive mechanism;

the first brush holder is provided with at least two brushes, the first brush holder is arranged at the rear side of the workbench, and the first brush holder moves left and right along the axial direction of the workbench through a first driving mechanism;

the second brush holder is provided with at least two brushes, the second brush holder is arranged on the front side of the workbench, and the second brush holder moves left and right along the axial direction of the workbench through a second driving mechanism;

the test plate fixture is provided with at least four notches, the notches are used for placing a sample plate to be subjected to a washing resistance test, and the brushes of the first brush holder and the brushes of the second brush holder are respectively matched with the coatings of the sample plates arranged in the corresponding notches in a washing manner;

the automatic vision device comprises an intelligent network identification module, a shooting assembly and a network terminal, wherein the intelligent network identification module is arranged on a case, the shooting assembly is arranged above a workbench, the shooting assembly is used for shooting a picture of the degree that a brush of a first brush holder is resistant to washing of a sample plate and a picture of the degree that a brush of a second brush holder is resistant to washing of the sample plate, the intelligent network identification module is electrically connected with the shooting assembly so that the shooting assembly can transmit contrast information of the degree that two notches are resistant to washing of a set of sample plates to the intelligent network identification module, and the network terminal is connected to the intelligent network identification module through wireless communication.

2. The dual-drive four-slot automatic visual scrub-resistant tester according to claim 1, wherein: the first driving mechanism and the second driving mechanism respectively comprise a mounting plate, a first speed reducing motor, a first speed reducer, a first slider-crank assembly, a second speed reducing motor, a second speed reducer, a second slider-crank assembly, two alternate first optical axes arranged in an upper opening cavity on the front side of the case along the axial direction, and two alternate second optical axes arranged in an upper opening cavity on the rear side of the case along the axial direction; wherein the content of the first and second substances,

the left end and the right end of the mounting plate are arranged on the left cavity wall and the right cavity wall of the upper opening cavity, the first speed reduction motor base and the second speed reduction motor base are both fixed on the mounting plate, the first speed reduction motor is connected with the first slider-crank assembly through the first speed reducer fixed on the mounting plate, and the first slider-crank assembly is in sliding fit with a first brush holder which is arranged on the front side of the workbench and moves along the left-right direction through two first optical axes; the second speed reducing motor is connected with a second slider-crank assembly through a second speed reducer fixed on the mounting plate, and the second slider-crank assembly is in sliding fit with a second brush holder which is arranged on the front side of the workbench and moves along the left-right direction through two second optical axes;

the control mechanism, two response pieces, inductor and control scheme board, control scheme board respectively with be fixed in two response pieces of mounting panel, be fixed in the inductor, first gear motor, the second gear motor electricity of upper opening cavity wall and be connected.

3. The dual-drive four-slot automatic visual scrub-resistant tester according to claim 2, wherein: first slider-crank subassembly includes first rocker, first preceding slider, first backward slider, transverse plate, removal connecting plate, first rocker one end is fixed in first gear motor output shaft, the other end pin joint in the front end of transverse plate, transverse plate rear end is fixed at the first backward slider that the second optical axis was located to the slip cap, first preceding slider slip cap is established and is located the below first optical axis, it is first preceding slider to remove connecting plate one end and be fixed in first preceding slider, it meets with first brush yoke to remove the connecting plate other end.

4. The dual-drive four-slot automatic visual scrub-resistant tester according to claim 2, wherein: second slider-crank subassembly includes that second rocker, second are preceding to slider, second to slider, rocking arm, second rocker one end is fixed in up and wears to locate mounting panel top plane the second gear motor output shaft, other end pin joint in the front end of rocking arm, the lower fixed surface of rocking arm rear end is located the second of second optical axis and is followed the slider at the slip cap, the second is preceding to the slider slip cap establish be located the top first optical axis, the upper surface of rocking arm rear end is connected with the second brush yoke.

5. The dual-drive four-slot automatic visual scrub-resistant tester according to claim 1, wherein: the test plate clamp comprises an upper plate, a lower plate, a first hand-screwed screw, a second hand-screwed screw, a clamp plate, a clamp column, a spring, a screw and a pressure test plate, wherein the clamp plate, the upper plate and the lower plate are stacked together from top to bottom in sequence;

the clamp column penetrates through the clamp plate and the upper plate along the longitudinal direction, the first hand-screwed screw is screwed on the clamp plate, the upper plate and the lower plate from top to bottom, the second hand-screwed screw is screwed on the clamp column through the spring, and the trial pressing plate is fixed on the top plane of the clamp plate.

6. The dual-drive four-slot automatic visual scrub-resistant tester according to claim 2, wherein: the first brush holder and the second brush holder both comprise longitudinal plate bodies and brush assemblies, and the lower surfaces of the longitudinal plate bodies are fixed to the first slider-crank assembly or the second slider-crank assembly;

the brush assembly comprises a rotating arm and a brush body arranged at the end part of the rotating arm, and the rotating arm is pivoted in pivoting holes in two side walls of the embedding opening of the longitudinal plate body.

7. The dual-drive four-slot automatic visual scrub resistance tester according to any one of claims 2 to 4, wherein: the light source comprises a longitudinal frame, a frame plate, a light emitting tube and two connecting blocks, and the lower end of the longitudinal frame is arranged on the first crank block component; the frame plate is fixed on the side wall of the longitudinal frame, the light-emitting tubes are embedded into the frame plate so that the light-emitting tubes irradiate the workbench after being electrified, and the two connecting blocks are arranged at the corners of the frame plate.

8. The dual-drive four-slot automatic visual scrub-resistant tester according to claim 7, wherein: the shooting assembly comprises a connecting seat and a camera, one end of the connecting seat is fixed on the longitudinal frame above the frame plate, the other end of the connecting seat extends towards the direction of the workbench, the camera seat is fixed at the end part of the connecting seat far away from the longitudinal frame, and the conductive part of the camera is electrically connected with the intelligent network identification module.

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