CN210037973U

CN210037973U - Zebra stripe multinomial performance automatic checkout device

Info

Publication number: CN210037973U
Application number: CN201920356432.4U
Authority: CN
Inventors: 刘飞; 李海林; 严景琳; 周志全; 兰海; 覃家塔
Original assignee: Guilin University of Electronic Technology
Current assignee: Guilin University of Electronic Technology
Priority date: 2019-03-20
Filing date: 2019-03-20
Publication date: 2020-02-07
Anticipated expiration: 2029-03-20

Abstract

The utility model provides a many item performance automatic checkout device of zebra stripe, includes the shell, its characterized in that: a compression ratio detection device is fixedly installed on the right side in the shell, a conductivity test platform device is fixedly installed on the left side of the compression ratio detection device, a discharging auxiliary device is fixedly installed in the shell below the conductivity test platform device, a central control module is fixedly installed on the right lower side in the shell, a display operation module is fixedly installed on the front shell wall of the shell, and a transverse detection head is fixedly installed on the rear wall in the shell; the method is suitable for the detection requirements required by the current large-scale production; for the detection of surface defects and geometric dimensions, a sensing head mode is adopted, so that zebra stripes are not contacted, and the problems of measurement damage and inaccurate measurement are avoided; the P value of the zebra stripes is accurately measured by adopting a transverse detection sensing head mode, so that the current measuring mode is improved; after the measurement is finished, the parameter values can be analyzed and acquired by the display operation module.

Description

Zebra stripe multinomial performance automatic checkout device

Technical Field

The utility model belongs to zebra stripe performance detection area, concretely relates to zebra stripe multinomial performance automatic checkout device.

Background

The zebra stripes are formed by vulcanizing conductive silica gel and insulating silica gel after being alternately layered and superposed, have stable and reliable performance, are simple, convenient and efficient to produce and assemble, and are widely used for connecting liquid crystal displays of products such as game machines, telephones, electronic watches, calculators, instruments and the like with circuit boards.

The main properties of zebra stripes include: the performance parameters directly affect the display effect of the product and the matching precision after installation, at present, in the production process, aiming at the spot inspection of the performance of the zebra stripes, each performance can be independently detected only, but the detection of a plurality of performance parameters can not be carried out on the product at one time, which causes the one-sidedness of the performance detection result and can not accurately feed back the product quality of the current production batch, thereby reducing the accuracy of the product performance detection; in addition, no relevant testing device exists for the surface defect detection of the zebra stripes, and production enterprises often consider whether products are qualified or not only by detecting the surface defects in the film laminating process step, so that the influence of secondary vulcanization on the surface defects of the zebra stripes is ignored, and the possibility of misjudgment on the performance of the zebra stripes is increased.

In summary, it is necessary to design an automatic detecting device for detecting multiple performances of zebra stripes to improve the efficiency of detecting the performance of zebra stripes, reduce the workload of detecting personnel, and improve the accuracy of performance detection parameters, i.e. to provide integrated detection of multiple performance parameters.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that prior art exists, the utility model provides a zebra stripe multinomial performance automatic checkout device can detect out zebra stripe multinomial key parameter performance to under no human intervention, rational arrangement detection order and perfect detection method obtain one in phase from the detection device that multinomial testing result goes reaction zebra stripe product quality, technical scheme as follows:

the utility model provides a zebra stripe multinomial performance automatic checkout device, includes the shell, right side fixed mounting compression ratio detection device in the shell casing, compression ratio detection device left end fixed mounting electric conductance test platform device, fixed mounting ejection of compact auxiliary device in the shell of electric conductance test platform device below, accuse module in the shell casing right side below fixed mounting, shell front casing wall fixed mounting shows the operation module, back wall fixed mounting is transversely detected the head in the shell casing, electric conductance test platform device left end inside fixed mounting geometry and precision measurement module, accuse module in the demonstration operation module electricity is connected.

The compression ratio detection device is composed of a feeding guide port, a roller group detection device and a fixing mechanism, wherein the feeding guide port is fixedly provided with a right wall plate of the shell, the inner end of the feeding guide port shell is fixedly provided with the roller group detection device, and the upper surface and the lower surface of the roller group detection device are both fixedly provided with the fixing mechanism.

The pan feeding is led the sheet metal component that the mouth is tubaeform, a set of pan feeding auxiliary roller of left end fixed mounting in the mouth is led to the pan feeding, pan feeding auxiliary roller key-type connection is led on mouthful inner wall in the pan feeding.

The fixing mechanism comprises a supporting rod distance retaining piece and a suspended fixing rod, the supporting rod distance retaining piece is fixedly arranged in the middle of the supporting rod, the supporting rod distance retaining piece is an aluminum alloy piece, and the front surface and the rear surface of the supporting rod are fixedly arranged on the suspended fixing rod through screws.

The roller group detection device consists of a driving roller, a driven roller, a support rod, a driving motor and an internal strain gauge, the number of the support rods is four, the support rods are distributed in a matrix, suspended fixed rods are fixedly arranged on the front surfaces of the support rods in front and the rear surfaces of the support rods in rear, a driving roller and a driven roller are rotatably arranged between the two support rods on the upper side, a driving roller and a driven roller are rotatably arranged between the two support rods on the lower side, the driving rollers are vertically corresponding to each other to form a group, the number of the groups is three, the driven rollers are correspondingly arranged in one group up and down, the driving rollers and the driven rollers are arranged at the same side at intervals, a driving motor is fixedly arranged on the front surface of the support rod at the front side, the front end of the driving roller extends out of the support rod and then clamps the output end of the driving motor, and the rear end of the driving roller extends out of the support rod and then clamps the fixing sleeve.

An internal strain gauge is clamped at the contact part of the driven roller and the support rod and is electrically connected with the central control module.

The conductivity testing platform device comprises a rotatable detection working plate device, a worm and gear propulsion plate device, a front detection circuit board, a rear detection circuit board, a front dustproof isolation box and a rear dustproof isolation box, wherein the front dustproof isolation box is fixedly arranged at the upper left corner in the shell, the rear dustproof isolation box is fixedly arranged at the upper left corner in the shell, the outer box bottom of the rear dustproof isolation box is rotatably provided with a rear edge of the rotatable detection working plate, the inner box bottom of the rear dustproof isolation box is fixedly provided with a control motor, the output end of the control motor is in transmission connection with a shaft key of the rotatable detection working plate, the control motor and the rotatable detection working plate form the rotatable detection working plate device, the worm and gear propulsion plate device is fixedly arranged at the bottom of the front dustproof isolation box and comprises two sets of worm and gear components, one propulsion plate and a worm and gear motor, the output end of the worm, the output ends of the two groups of worm and gear assemblies penetrate through a rear box plate of the front dustproof isolation box and then are clamped with the propulsion plate, the worm gear motor is electrically connected with the central control module, the rear surface of the propulsion plate is fixedly installed on the front detection circuit board, the rear detection circuit board is fixedly installed on the front shell wall of the rear dustproof isolation box, the front detection circuit board and the rear detection circuit board are both composed of a plurality of 'golden fingers', the distance between each golden finger is the sum of the thickness of a conductive layer and the thickness of an insulating layer, and the front detection circuit board and the rear detection circuit board are electrically connected with the central control module.

A pair of slide rails has been seted up with dustproof shielded box front cabinet outer wall upper portion symmetry in front of preceding dustproof shielded box rear cabinet outer wall upper portion and the back, sliding fit connects the crossbeam in the slide rail, the dustproof shielded box front cabinet inner wall fixed mounting linear guide motor in back, linear guide motor mechanical transmission connects the connection crossbeam, connect crossbeam lower surface fixed mounting and vertically detect the sensing head, transversely detect the sensing head and vertically detect the sensing head and constitute rubber surface defect detection device, the slide rail constitutes complementary unit with the connection crossbeam.

Compared with the prior art, the beneficial effects of the utility model are that:

the measuring device can integrally complete the measurement of a plurality of performance parameters, meet the design requirement specification of the zebra stripes, and adapt to the detection requirement required by the current large-scale production; for the detection of surface defects and geometric dimensions, a sensing head mode is adopted, so that zebra stripes are not contacted, and the problems of measurement damage and inaccurate measurement are avoided; the P value of the zebra stripes is accurately measured by adopting a transverse detection sensing head mode, so that the current measuring mode is improved; after the measurement is finished, the parameter values can be analyzed and acquired by the display operation module.

Drawings

Fig. 1 is a right-side schematic view of the present invention;

fig. 2 is a front view schematically illustrating the present invention;

fig. 3 is a schematic top view of the present invention;

fig. 4 is a right-side schematic view of the present invention;

fig. 5 is a schematic top view of the compression ratio detection device of the present invention;

fig. 6 is a front view schematically illustrating the compression ratio detecting device of the present invention;

FIG. 7 is a right-view schematic diagram of the compression ratio detecting device of the present invention;

FIG. 8 is a schematic cross-sectional view taken along line B-B of FIG. 5;

FIG. 9 is a schematic axial view of the compression ratio detecting device-feeding inlet of the present invention;

FIG. 10 is a schematic sectional view of the compression ratio detecting device-feeding guide port of the present invention;

FIG. 11 is a right view of the compression ratio detecting device of the present invention, i.e., the feeding guide hole;

fig. 12 is a schematic sectional view of the conductance test platform device of the present invention;

fig. 13 is a schematic cross-sectional view of the conductivity testing platform device of the present invention (testing the conductivity of zebra stripes to be tested);

fig. 14 is a schematic cross-sectional view of the conductance test platform apparatus of the present invention (tested zebra stripe release process);

fig. 15 is a detail view of a portion of fig. 8.

In the figure: 1. a shell, 2, a compression ratio detection device, 21, a feeding guide port, 22, a roller group detection device, 221, a driving roller, 222, a driven roller, 223, a support rod, 224, a driving motor, 225, an internal strain gauge, 23, a fixing mechanism, 231, a distance retaining sheet, 232, a suspended fixed rod, 3, a conductivity test platform device, 31, a rotatable detection working plate device, 311, a rotatable detection working plate, 312, a control motor, 32, a worm and gear propulsion plate device, 321, a worm and gear assembly, 322, a propulsion plate, 323, a worm and gear motor, 33, a front detection circuit board, 34, a rear detection circuit board, 35, a front dustproof isolation box, 36, a rear dustproof isolation box, 4, a discharge auxiliary device, 41, an internal induction sliding plate, 42, an external induction sliding plate, 5, a central control module, 6, a display operation module, 7, a rubber surface defect detection device, 71, a transverse detection head, 72. the device comprises a longitudinal detection position sensing head 73, an auxiliary mechanism 731, a slide rail 732, a connecting beam 733, a linear guide rail motor 8 and a geometric dimension and precision measuring module.

Detailed Description

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

As shown in fig. 1 to 15, the utility model provides an automatic detecting device for the multiple performances of zebra stripes, which comprises a shell 1, an outer main structure of the device, an installation foundation for the inner structure and protection of the inner structure, dust accumulation and collision damage prevention, and the like, wherein a top cover of the shell 1 is made of transparent material, so as to facilitate observation of the inner working condition, a compression ratio detecting device 2 is fixedly installed at the right side in the shell of the shell 1, and is used for detecting the compression ratio value of the zebra stripes, a conductance testing platform device 3 is fixedly installed at the left side of the compression ratio detecting device 2, and is mainly used for detecting the resistivity, the resistance of an insulating layer and the current density of the conducting layer of the zebra stripes, an auxiliary discharging device 4 is fixedly installed in the shell 1 below the conductance testing platform device 3, and the auxiliary discharging device 4 is composed of an inner induction sliding plate 41 and, the inner induction sliding plate 41 is an aluminum alloy plate, the edge of the inner induction sliding plate is provided with a raised flange to prevent the tested zebra stripes from sliding and leaking, the inner induction sliding plate 41 and the outer induction sliding plate 42 form an included angle of 60 degrees with the horizontal plane, the right lower part in the shell of the shell 1 is fixedly provided with a central control module 5 which is an upper computer part formed by PLC and mainly used for coordinating the operation of each function detection device and the processing of signal data, the working principle belongs to the prior art, the front shell wall of the shell 1 is fixedly provided with a display operation module 6, the display operation module 6 is formed by a liquid crystal display and an auxiliary operation control system and is mainly used for displaying various performance parameters of the tested zebra stripes after being detected by a plurality of automatic performance detection devices, the working principle belongs to the prior art, the rear wall in the shell 1 is fixedly provided with a transverse detection head, the specific model is an LJ-V7000 series, and is used for detecting the transverse, the conductivity testing platform device 3 is characterized in that a geometric dimension and precision measuring module 8 is fixedly mounted inside the left end, the geometric dimension and precision measuring module 8 adopts a profile measuring instrument, the profile measuring instrument mainly comprises a dimension sensing head and a processing system thereof, the specific model of the profile measuring instrument is LJ-V7000 series, and the display operation module 6 is electrically connected with the central control module 5.

Compression ratio detection device 2 comprises pan feeding guide port 21, roller train detection device 22, fixed establishment 23, pan feeding guide port 21 fixed mounting shell 1 right wallboard, with zebra strip leading-in device, pan feeding guide port 21 shell inner fixed mounting roller train detection device 22 detects when zebra strip passes through, carries out compression ratio numerical value and detects, roller train detection device 22 upper surface and the equal fixed establishment 23 of lower surface carry out the fixed stay to roller train detection device 22.

The pan feeding is led mouthful 21 and is the sheet metal component of loudspeaker form, through welded fastening in the right side panel surface of shell 1, a set of pan feeding auxiliary roller of fixed mounting in 21 mouths left end is led to the pan feeding, on 21 inner walls are led to the pan feeding auxiliary roller keyed joint, when the zebra stripe that awaits measuring gets into follow-up detection device from the pan feeding is led mouthful 21, plays the effect of guide and supplementary entering.

The fixing mechanism 23 comprises a supporting rod 223 and a retaining piece 231 and a suspended fixing rod 232, the supporting rod 223 is far from the middle of the supporting rod 223 fixedly installed on the retaining piece 231, the supporting rod 223 is far from the retaining piece 231 and is an aluminum alloy part, a screw is fixed to the middle of the supporting rod 223, the distance between the upper supporting rod 223 and the lower supporting rod 223 is mainly kept, the phenomenon of 'middle concave' or 'middle convex' of the whole device is prevented from occurring, and the gap between the front surface and the rear surface of the supporting rod 223 and the outer reserved hole of the supporting rod 223 are in interference fit, so that the effect of fixing the roller set detection device 22 is achieved.

The roller group detection device 22 comprises four support rods 223 distributed in a matrix to provide a mounting base for the driving roller 221, the driven roller 222 and the driving motor 224, and distributed in a matrix to facilitate the formation of a channel, wherein suspended fixed rods 232 are fixedly mounted on the front surface of the support rod 223 in front and the rear surface of the support rod 223 in rear to support the support rods 223 and ensure the effectiveness of the structure, the driving roller 221 and the driven roller 222 are rotatably mounted between the two support rods 223 on upper side, the driving roller 221 and the driven roller 222 are rotatably mounted between the two support rods 223 on lower side, the driving roller 221 is vertically corresponding to one group, the number of groups is three, the driven roller 222 is vertically corresponding to one group, the number of groups is three, and the shapes of the driving roller 221 and the driven roller 222 are the same, the driving rollers 221 and the driven rollers 222 on the same side are arranged at intervals, so that the zebra stripes can provide a constant-speed compression ratio value detection device, the driving motor 224 is fixedly installed on the front surface of the support rod 223 on the front side to provide power for driving of the driving rollers 221, the output end of the driving motor 224 is clamped after the front end of the driving roller 221 extends out of the support rod 223, effective power connection is achieved, the fixing sleeve is clamped after the rear end of the driving roller 221 extends out of the support rod 223 to match with the driving motor 224 to guarantee balance of the driving rollers 221, meanwhile, the driving rollers 221 are limited, and working smoothness is guaranteed.

An internal strain gauge 225 is clamped at the contact part of the driven roller 222 and the support rod 223 and used for sensing and detecting the change of the size of the zebra stripes to be detected at different intervals of the driven roller 222, the internal strain gauge 225 is electrically connected with the central control module 5, strain current generated when the internal strain gauge 225 deforms is analyzed, and then the value of the compression ratio is obtained.

The conductivity testing platform device 3 comprises a rotatable testing working plate device 31, a worm and gear propulsion plate 322 device 32, a front testing circuit board 33, a rear testing circuit board 34, a front dustproof isolation box 35 and a rear dustproof isolation box 36, wherein the front dustproof isolation box 35 is fixedly arranged at the upper left corner in the shell of the shell 1, the rear dustproof isolation box 36 is fixedly arranged at the upper left corner in the shell of the shell 1, the front dustproof isolation box 35 and the rear dustproof isolation box 36 are both provided with mounting bases by structures mounted on the front dustproof isolation box and in the rear dustproof isolation box, meanwhile, an internal mechanical mechanism is used for preventing dust, the stability of mechanical work influenced by dust accumulation is avoided, the rear edge of the rotatable testing working plate 311 is rotatably mounted at the bottom of the outer box of the rear dustproof isolation box 36, the rotatable testing working plate 311 is matched with the front dustproof isolation box 35 and the rear dustproof isolation box 36 to form a controllable zebra stripe testing placement station by rotating along the rear edge, and when the front edge of the, the complete derivation structure is formed, the detected zebra stripe derivation device, a control motor 312 is fixedly installed at the bottom of the rear dustproof isolation box 36 to provide controllable rotating power for the work of the rotatable detection working plate, the output end of the control motor 312 is in transmission connection with a shaft key of the rotatable detection working plate 311 to realize the effective connection of the power transmission structure, the control motor 312 and the rotatable detection working plate 311 form the rotatable detection working plate device 31, the worm and gear propulsion plate 322 device 32 is fixedly installed at the bottom of the front dustproof isolation box 35 to propel the front detection circuit board 33, so that the zebra stripe to be detected can well contact the front detection circuit board 33 and the rear detection circuit board 34, the detection of the front detection circuit board 33 and the rear detection circuit board 34 is convenient, the worm and gear propulsion plate 322 device 32 comprises two sets of worm and gear assemblies 321, a propulsion plate 322 and a worm and gear motor 323, the output end of the worm gear motor 323 is in transmission connection with two groups of worm gear components 321, the output ends of the two groups of worm gear components 321 penetrate through the rear box plate of the front dustproof isolation box 35 and then are clamped with the push plate 322, the worm gear motor 323 is electrically connected with the central control module 5 to realize effective operation control, the front detection circuit board 33 is fixedly arranged on the rear surface of the pushing plate 322, the rear detection circuit board 34 is fixedly arranged on the wall of the front shell 1 of the rear dustproof isolation box 36, the front detection circuit board 33 and the rear detection circuit board 34 are both composed of a plurality of golden fingers, the distance between each golden finger is the sum of the thickness of the conductive layer and the thickness of the insulating layer, the front detection circuit board 33 and the rear detection circuit board 34 are both electrically connected with the central control module 5, the central control module 5 detects different electrical signals through the detection circuit board, measures the resistance value of the zebra stripes to be detected, and obtains the resistivity of the zebra stripes to be detected by combining the geometric dimensions.

The upper portion of the outer wall of the rear box shell of the front dustproof isolation box 35 and the upper portion of the outer wall of the front box shell of the rear dustproof isolation box 36 are symmetrically provided with a pair of slide rails 731, a limited moving station is provided for a connecting cross beam 732, the connecting cross beam 732 is slidably mounted in the slide rails 731, a mounting base is provided for a longitudinal detection sensing head 72, a linear guide motor 733 is fixedly mounted on the inner wall of the front box shell of the rear dustproof isolation box 36, the linear guide motor 733 is connected with the connecting cross beam 732 in a mechanical transmission manner, the longitudinal detection sensing head 72 is fixedly mounted on the lower surface of the connecting cross beam 732, the transverse detection sensing head 71 and the longitudinal detection sensing head 72 form a rubber surface defect detection device 7, the transverse detection sensing head 71 and the longitudinal detection sensing head 72 both adopt LJ-V7000, the slide rails 731 and the connecting cross beam 732 form an.

The working principle is as follows: the zebra stripes to be tested are put into from the feeding guide port 21 by the tester the utility model discloses the device, the zebra stripes to be tested get into the feeding guide port 21 after, receive the power of propelling movement forward, under the auxiliary action of the driven roller 222 of the feeding guide port 21, enter into the compression ratio detection device 2 work area, the zebra stripes to be tested contact the driven roller 222 earlier, distance when the driven roller 222 group here is the non-compression, when the zebra stripes to be tested pass through the first set of driven roller 222, corresponding internal strain foil 225 turns into the signal of telecommunication with the strain and conveys to the central control module 5 record as data 1;

the zebra stripes to be tested continuously enter the first group of driving rollers 221 area, are extruded by the driving rollers 221 with the speed of 1 to be transmitted to the next group of rollers area, and the internal strain gauges 225 of the second group of driven rollers 222 convert the strain force into electric signals and transmit the electric signals to the central control module 5 to be recorded as data 2;

the zebra stripes to be tested continuously enter the second group of driving roller 221 areas, are extruded by the driving roller 221 with the speed of 2 and are transmitted to the next group of roller areas, and the internal strain gauge 225 of the third group of driven rollers 222 converts the strain force into an electric signal and transmits the electric signal to the central control module 5 to be recorded as data 3;

the zebra stripes to be tested continuously enter the third group of active rollers 221 area, namely leave the compression ratio detection device 2 and enter the conductance test platform device 3, when entering the conductance test platform device 3, the speed of the zebra stripes to be tested is 3 provided by the extrusion of the third group of active rollers 221, so that the zebra stripes to be tested finish the detection of product performance-compression ratio, data 1, data 2 and data 3 measured by the three groups of internal strain gauges 225 of the compression ratio detection device 2 are analyzed by the central control module 5, and the result is obtained according to the x ═ (H ═ according to the result that the measured data 1, the measured data 2₁-H₀)/H₀Obtaining compression ratio data by 100%, and displaying the test parameter value in a display operation module 6;

in the process that the zebra stripes to be detected pass through the compression ratio detection device 2, the transverse detection sensing head 71 of the rubber surface defect detection device 7 simultaneously detects the zebra stripes to be detected, and the transverse detection sensing head 71 mainly measures the next performance parameter of the zebra stripes to be detected: the thickness of the conductive layer (TC), the thickness of the insulating layer (TI) and the thickness of the middle conductive layer (CW);

in addition, the rubber surface defect inspection is also carried out on the foaming part of the zebra stripe to be detected, the transverse detection sensing head 71 feeds back the measured data to the central control module 5, and the central control module 5 controls the operation module to display the test parameter value;

the zebra stripes to be detected leave the compression ratio detection device 2 with the speed 3 and can approximately fall in the working area of the rotatable detection working plate 311, in order to prevent the zebra stripes from rushing out of the working area of the rotatable detection working plate 311 at an excessive speed, the rotatable detection working plate 311 is placed horizontally in the test working state, when the zebra stripe to be tested stops moving on the rotatable detection working plate 311, the worm and gear propulsion plate device 32 starts to work, the worm and gear propulsion plate 322 is driven by the worm and gear motor 323 to propel forwards until the front detection circuit board 33 and the rear detection circuit board 34 are in contact with the conducting layer of the zebra stripe to be detected, the clamping state is kept for measurement, the principle that the front detection circuit board 34 and the rear detection circuit board 34 are in contact with the conducting layer to be measured is consistent with the principle that the resistance is measured by an ohmmeter, the front detection circuit board 34 and the rear detection circuit board 34 are controlled by the central control module 5, the front detection circuit board 34 and the central control module 5 transmit measured data by adopting electric signals, and the conductance test platform device 3 mainly: the resistance (PV) of the conducting layer, the resistance (PVZ) of the insulating layer and the current density, the front detection circuit board 33 and the rear detection circuit board 34 feed back the measured data to the central control module 5, and the central control module 5 processes the data and controls the display operation module 6 to display the test parameter values;

the method comprises the following steps that when a conductivity test platform device 3 is used for conducting conductivity test, a rubber surface defect detection device 7 and a geometric dimension and precision measurement module 8 are used for conducting measurement, a longitudinal detection sensing head 72 and an auxiliary mechanism 73 in the rubber surface defect detection device 7 are suspended above the zebra stripes to be tested, the longitudinal detection sensing head 72 is driven by a linear guide rail motor 733 to be connected with a cross beam 732, in addition, the longitudinal detection sensing head 72 is used for measuring the zebra stripes to be tested along a slide rail 731 from left to right and conducting defect detection on the surface of a foaming adhesive layer, the longitudinal detection sensing head 72 feeds back the measured data to a central control module 5, and the central control module 5 is used for controlling a display operation module 6 to display the surface defect condition of the foaming adhesive layer after processing the data;

when rubber surface defect detection device 7 carries out the surface defect to the zebra stripe that awaits measuring and detects, geometric dimensions and precision measurement module 8's profile measuring apparatu begin to scan the zebra stripe that awaits measuring and detect, and profile measuring apparatu carries out the measurement of next parameter to the zebra stripe that awaits measuring: the length, width, height and skewness of the zebra stripes are measured by the profile measuring instrument and fed back to the central control module 5, and the central control module 5 processes the data and controls the display operation module 6 to display the values of the geometric dimension and the precision of the zebra stripes to be measured;

after finishing measuring parameters such as zebra stripe conductance, surface defect, geometry that awaits measuring, can rotate and detect the working plate 311 and drive its rotation 30 by control motor 312 provides power for can rotate and detect the working plate 311 and interior induced slide 41 and close, survey the zebra stripe and receive the action of gravity along can rotate and detect the working plate 311 and interior induced slide 41 in through outer induced slide 42 roll-off the utility model discloses the device.

The above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is intended to be covered by the claims.

Claims

1. The utility model provides a many item performance automatic checkout device of zebra stripe, includes the shell, its characterized in that: the device comprises a shell, a compression ratio detection device, a conductivity test platform device, a discharge auxiliary device, a central control module, a display operation module, a transverse detection head, a geometric dimension and precision measurement module, a central control module and a display operation module, wherein the compression ratio detection device is fixedly installed on the right side in the shell, the conductivity test platform device is fixedly installed on the left end of the compression ratio detection device, the discharge auxiliary device is fixedly installed in the shell below the conductivity test platform device, the central control module is fixedly installed on the right side in the shell, the display operation module is fixedly installed on the front shell wall of the shell, the transverse detection head is fixedly installed on the.

2. The zebra stripe multinomial performance automatic detection device according to claim 1, wherein the compression ratio detection device is composed of a feeding guide port, a roller group detection device and a fixing mechanism, wherein the feeding guide port is fixedly provided with a right wall plate of a shell, the inner end of the feeding guide port shell is fixedly provided with the roller group detection device, and the upper surface and the lower surface of the roller group detection device are both fixedly provided with the fixing mechanism.

3. The automatic zebra stripe multinomial performance detection device of claim 2, wherein the feeding guide port is a horn-shaped sheet metal part, a group of feeding auxiliary rollers are fixedly mounted at the left end in the feeding guide port, and the feeding auxiliary rollers are in key connection with the inner wall of the feeding guide port.

4. The automatic zebra stripe multinomial performance detection device of claim 2, wherein the fixing mechanism comprises a stay distance keeping piece and a suspension fixing rod, the stay distance keeping piece is fixedly installed in the middle of the stay, the stay distance keeping piece is made of aluminum alloy, and the suspension fixing rod is fixedly installed on the front surface and the rear surface of the stay through screws.

5. The automatic zebra stripe multinomial performance detection device according to claim 2, wherein the roller group detection device comprises driving rollers, driven rollers, support rods, a driving motor and internal strain gauges, the number of the support rods is four, the support rods are distributed in a matrix, suspended fixing rods are fixedly arranged on the front surfaces of the front support rods and the rear surfaces of the rear support rods, the driving rollers and the driven rollers are rotatably arranged between the two upper support rods, the driving rollers and the driven rollers are rotatably arranged between the two lower support rods, the driving rollers are vertically arranged in a group, the number of the groups is three, the driven rollers are vertically arranged in a group, the driving rollers and the driven rollers are alternately arranged on the same side, the driving motor is fixedly arranged on the front surface of the front support rod, the front end of the driving roller extends out of the support rods, and the output end of the driving motor is clamped behind the support rods, and the rear end of the driving roller extends out of the support rod and then is clamped with the fixed sleeve.

6. The automatic Zebra stripe multi-performance detection device as claimed in claim 5, wherein an internal strain gauge is clamped on a contact part of the driven roller and the support rod, and the internal strain gauge is electrically connected with a central control module.

7. The automatic zebra stripe multi-performance detection device according to claim 1, wherein the conductivity test platform device comprises a rotatable detection working plate device, a worm gear propulsion plate device, a front detection circuit board, a rear detection circuit board, a front dustproof isolation box and a rear dustproof isolation box, the front dustproof isolation box is fixedly installed at the upper left corner in the outer shell, the rear dustproof isolation box is rotatably installed at the rear bottom of the outer box of the rear dustproof isolation box, a control motor is fixedly installed at the bottom of the inner box of the rear dustproof isolation box, the output end of the control motor is in transmission connection with a shaft key of the rotatable detection working plate, the control motor and the rotatable detection working plate form the rotatable detection working plate device, the worm gear propulsion plate device is fixedly installed at the bottom of the front dustproof isolation box, the worm gear and worm propulsion plate device comprises two sets of worm gears, a propulsion plate and a worm gear motor, wherein the output end of the worm gear motor is in transmission connection with the two sets of worm gears, the output end of each worm gear penetrates through the rear box plate of the front dustproof isolation box and then clamps the propulsion plate, the worm gear motor is electrically connected with the central control module, the rear surface of the propulsion plate is fixedly installed on the front detection circuit board, the front shell wall of the dustproof isolation box is fixedly installed on the rear detection circuit board, the front detection circuit board and the rear detection circuit board are formed by a plurality of 'golden fingers', each golden finger distance is the sum of the thickness of a conductive layer and the thickness of an insulating layer, and the central control module is electrically connected with the rear detection circuit board.

8. The automatic zebra stripe multinomial performance detection device of claim 7, wherein a pair of slide rails are symmetrically arranged on the upper portion of the outer wall of the rear box shell of the front dustproof isolation box and the upper portion of the outer wall of the front box shell of the rear dustproof isolation box, a cross beam is slidably mounted and connected in the slide rails, a linear guide motor is fixedly mounted on the inner wall of the front box shell of the rear dustproof isolation box, the linear guide motor is in mechanical transmission connection with the cross beam, a longitudinal detection sensing head is fixedly mounted on the lower surface of the connection cross beam, the transverse detection sensing head and the longitudinal detection sensing head form a rubber surface defect detection device, and the slide rails and the connection cross beam form an auxiliary mechanism.