CN111229640A

CN111229640A - Rotary disc testing equipment

Info

Publication number: CN111229640A
Application number: CN202010066283.5A
Authority: CN
Inventors: 包克兵; 赵继伟
Original assignee: Xiamen Hongxin Electronic Technology Group Co Ltd
Current assignee: Xiamen Hongxin Electronic Technology Group Co Ltd
Priority date: 2020-01-20
Filing date: 2020-01-20
Publication date: 2020-06-05

Abstract

The invention discloses a turntable testing device, which comprises a turntable testing mechanism and a material receiving and placing mechanism, wherein the turntable testing mechanism comprises a turntable testing mechanism body and a material receiving and placing mechanism; the turntable testing mechanism comprises a base box, a workbench, a rotating motor module, a multi-station turntable, a first press assembly, a second press assembly, a first bearing assembly, a second bearing assembly, a lower jig, a testing jig and an identification module or a second testing jig; receive material balance mechanism including the base, the control box, remove the module, balance layer board, vacuum material receiving assembly and defective products box, wherein, first press subassembly forms test function module with the combination of test fixture, second press subassembly forms identification function module with the combination of identification module, second press module forms second test function module with the combination of second test fixture, it can to change test fixture or identification module according to the product, can switch in a flexible way and be applicable to test + sign product preparation, these two kinds of circumstances of once test + secondary test product preparation, realize equipment multifunctionalization, reduce fixed asset input.

Description

Rotary disc testing equipment

Technical Field

The invention relates to the technical field of circuit board detection equipment, in particular to rotary table test equipment.

Background

Before the printed circuit board is delivered, functional test is required, according to customer requirements, part of model products need to be marked aiming at test OK (qualified) products so as to prevent NG (unqualified) products from flowing out to a client side, part of model products do not have marking requirements, but the functional test cannot be integrated to a test fixture for testing, and two test fixtures are required for secondary test. The existing automatic turntable testing equipment has the functions that: the CCD camera is aligned, tested, turned over, marked and placed to receive materials, the test is a single function test, if the capacity is expanded, if the quantity of the same equipment is increased, the fixed asset investment is high, and the test is only suitable for the product of one-time test plus the marked, if the test is carried out on the product which needs to be tested twice, the jig is replaced to carry out the test again after the test is carried out for the first time, the equipment is occupied, the production efficiency is low, and therefore, a small-sized and low-cost turntable test device needs to be developed to be suitable for the product test of the.

In view of the above, the present inventors have made extensive studies and research on various defects and inconveniences caused by the imperfect structural design and functional aspects of the conventional automatic turntable testing apparatus.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides the turntable test equipment which can replace a test fixture or an identification module according to the product requirement, is flexibly switched and suitable for two conditions of test + identification product manufacturing, primary test + secondary test product, realizes equipment multifunction and reduces the investment of fixed assets.

In order to achieve the above purpose, the solution of the invention is:

a rotary table test device comprises a rotary table test mechanism and a material receiving and placing mechanism;

the turntable testing mechanism comprises a base box, a workbench, a rotating motor module, a multi-station turntable, a first press assembly, a second press assembly, a first bearing assembly, a second bearing assembly, a lower jig, a testing jig and an identification module or a second testing jig; the workbench is arranged on the base box, the output end of the rotary motor module is arranged on the workbench in a penetrating manner, the multi-station turntable is arranged at the output end of the rotary motor module and drives the multi-station turntable to rotate, the multi-station turntable is in a disc shape, the front side, the rear side, the left side and the right side of the multi-station turntable are respectively in a hollow design, the front side forms a feeding station, the left side forms a testing station, the rear side forms a marking station or a second testing station, the right side forms a receiving station, the first press assembly is arranged on the workbench and positioned on the left side of the multi-station turntable, the second press assembly is arranged on the workbench and positioned on the rear side of the multi-station turntable, the four lower jigs are respectively arranged on the feeding station, the testing station, the marking station or the second testing station and the stations of the multi-station turntable, and the testing jigs are arranged at, the first press machine component drives the test fixture to move up and down, the identification module or the second test fixture is arranged at the movable end of the second press machine component, the second press machine component drives the identification module or the second test fixture to move up and down, the first bearing component is arranged on the workbench in a penetrating mode and is located at the position, below one side of the multi-station turntable, corresponding to the first press machine component, when the press-down test is executed, the first bearing component pushes up the positioning sleeve to lower the fixture, the second bearing component is arranged on the workbench in a penetrating mode and is located at the position, below one side of the multi-station turntable, corresponding to the second press machine component, and when the identification or the secondary test is executed, the second bearing component pushes up the positioning sleeve to lower the fixture.

Receive material balance mechanism including the base, the control box, the X axle module, the Y axle module, the balance layer board, vacuum material receiving assembly and defective products box, the base sets up multistation carousel one side at carousel accredited testing organization, the Y axle module vertically erects on the base, the rear end of Y axle module stretches into the control box and erects on the base, the balance layer board sets up on the sliding block of Y axle module, place the charging tray on the balance layer board, Y axle module drives balance layer board back-and-forth movement, the X axle module sets up the top at the control box, vacuum material receiving assembly sets up on the sliding block of X axle module, defective products box erects on the base, be located one side of balance layer board, place test product NG in the defective products box.

Further, the first press machine assembly comprises a portal frame, a guide pillar, a bearing, a lower pressing support frame and a lower pressing cylinder; the portal frame is arranged on the workbench and positioned on the left side of the multi-station turntable, the two guide pillars are arranged on two sides below the portal frame, the bottom ends of the two guide pillars are arranged on the workbench, the top ends of the two guide pillars are arranged below the portal frame, the two bearings are respectively sleeved on the two guide pillars, the left side and the right side of one side of the downward pressing support frame are sleeved on the two bearings, the downward pressing air cylinder vertically penetrates through the portal frame, the tail end of a movable rod of the downward pressing air cylinder is connected to the downward pressing support frame, and the downward pressing air cylinder drives the downward pressing support frame to move up and down along the direction of; the second press assembly has the same structure as the first press assembly.

Further, the first bearing assembly comprises an upper jacking cylinder, a bearing, a guide pillar, a bearing seat, a bearing pillar and a positioning pin; the upper jacking cylinder is inversely arranged on the workbench in a penetrating manner and located below the multi-station turntable corresponding to the first press machine module, the two bearings are sleeved on the workbench and located on two sides of the upper jacking cylinder, the two guide pillars are respectively sleeved in the two bearings, the bearing seat is arranged at the top end of the movable rod of the upper jacking cylinder and at the top ends of the two guide pillars, the plurality of bearing columns are distributed above the bearing seat, the top end of each bearing column is provided with a positioning pin, and the upper jacking cylinder drives the bearing seat to move up and down so as to enable the positioning pin to be sleeved with or separated from the lower jig positioning; the second bearing component has the same structure as the first bearing component.

Further, the vacuum material receiving assembly comprises a module fixing plate, a grabbing cylinder, a cylinder fixing plate, a rotating cylinder, a sucking disc, a suction nozzle and a vacuum control module; the module fixed plate sets up on the sliding block of X axle module, it sets up on the module fixed plate to snatch the cylinder, the cylinder fixed plate sets up at the movable rod end of snatching the cylinder, revolving cylinder sets up in cylinder fixed plate below, the sucking disc sets up at the movable rod end of revolving cylinder, one or more suction nozzle distribute and set up in the sucking disc below, it drives the up-and-down motion of suction nozzle to snatch the cylinder, revolving cylinder drives the rotatory product direction of suction nozzle, vacuum control module sets up on the module fixed plate, vacuum control module control suction nozzle absorbs the product or releases the product.

Further, the vacuum control module comprises a vacuum electromagnetic valve, a vacuum generator and a vacuum digital display; vacuum solenoid valve, vacuum generator set up respectively on the module fixed plate, and vacuum solenoid valve, vacuum generator, vacuum digital display form electric circuit with a plurality of suction nozzles and are connected, and vacuum solenoid valve triggers or closes vacuum generator, and vacuum generator passes through the suction nozzle evacuation and absorbs the product or release the vacuum and place the product, and vacuum digital display shows and feedback vacuum degree and vacuum solenoid valve.

Furthermore, receive material balance mechanism still including the touch-control screen, on the outside of touch-control screen setting control box, the touch-control screen realizes the human-computer operation interface function.

After the scheme is adopted, the rotary disc testing mechanism and the material receiving and placing mechanism are mutually independent and are separately controlled in a matched manner; two groups of independent press modules are adopted, a first press module and a test fixture are combined to form a test function module, a second press module and an identification module are combined to form an identification function module, the second press module and a second test fixture are combined to form a second test function module, the test fixture or the identification module can be replaced according to a product, the two conditions of testing, identification product manufacturing, primary testing and secondary testing product manufacturing can be flexibly switched and applied, the multifunctional equipment is realized, and the fixed asset investment is reduced; by adopting the bearing assembly, when the press-down test is executed, the upper top of the bearing assembly and the lower jig are stressed simultaneously, so that the problem that the service life of the multi-station turntable is influenced due to the long-term stress of the lower jig and the multi-station turntable in the press-down test process is solved; the rotation of the multi-station turntable can generate angular tolerance, the upper jacking bearing mode of the bearing assembly can enable the lower jig and the bearing seat to be accurately positioned, the problem of angular tolerance is solved, the test jig and the lower jig are accurately superposed when a pressing test is executed, the test accuracy is improved, and the accuracy of the marking position is improved when the marking is executed; the vacuum material receiving assembly adopts the matching action of the grabbing cylinder and the rotating cylinder, so that the direction of a product can be rotated after the product is sucked, and the product can be distributed and placed on the material tray conveniently; the invention has simple structure, convenient operation, flexible function and relatively low cost.

Drawings

FIG. 1 is a perspective view of a carousel testing apparatus;

FIG. 2 is a front side view of the carousel testing apparatus;

FIG. 3 is a top view of the carousel testing apparatus;

FIG. 4 is a perspective view of the turntable testing mechanism;

FIG. 5 is a front side view of the turntable testing mechanism;

FIG. 6 is a top view of the turntable testing mechanism;

FIG. 7 is a left side view of the turntable testing mechanism;

FIG. 8 is a front side view of the turntable testing mechanism (with the base housing removed);

FIG. 9 is a perspective view of the receiving turntable mechanism;

FIG. 10 is a front side view of the receiving turntable mechanism;

FIG. 11 is a top view of the receiving turntable mechanism;

FIG. 12 is a left side view of the receiving turntable mechanism;

FIG. 13 is a top view of an exemplary turret test apparatus;

FIG. 14 is a flowchart illustrating operations of a turret test apparatus according to an embodiment;

FIG. 15 is a plan view of a second rotary testing apparatus according to an embodiment;

FIG. 16 is a flowchart illustrating operation of the second embodiment of the apparatus for testing a turntable.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 3, the present invention is a turntable testing device 1, which includes a turntable testing mechanism 10 and a material receiving and placing mechanism 20.

As shown in fig. 4 to 8, the turntable testing mechanism 10 includes a base box 11, a workbench 12, a rotating electrical machine module 13, a multi-station turntable 14, a first press module 15, a second press module 16, a first carrying module 17, a second carrying module 18, a lower fixture 19, a testing fixture 110, and an identification module 111; a workbench 12 is arranged on a base box 11, the output end of a rotary motor module 13 is arranged in the middle area of the workbench 12 in a penetrating way, a multi-station turntable 14 is in a disc shape, the front side, the left side and the right side of the multi-station turntable 14 are respectively in a hollow design, a feeding station 101 is formed at the front side, a testing station 102 is formed at the left side, a marking station 103 is formed at the rear side, a receiving station 104 is formed at the right side, the multi-station turntable 14 is arranged at the output end of the rotary motor module 13, the rotary motor module 13 drives the multi-station turntable 14 to rotate, a first press machine assembly 15 is arranged on the workbench 12 and positioned at the left side of the multi-station turntable 14, a second press machine assembly 16 is arranged on the workbench 12 and positioned at the rear side of the multi-station turntable 14, four lower tools 19 are respectively arranged on the feeding station 101, the testing station 102, the marking station 103 and the receiving station 104 of, the first press machine component 15 drives the test fixture 110 to move up and down, the identification module 111 is arranged at the movable end of the second press machine component 16, the second press machine component 16 drives the identification module 111 to move up and down, the first bearing component 17 is arranged on the workbench 12 in a penetrating mode and located below the left side of the multi-station turntable 14, when the press-down test is executed, the first bearing component 17 pushes up the lower fixture 19 of the positioning sleeve, the second bearing component 18 is arranged on the workbench 12 in a penetrating mode and located below the rear side of the multi-station turntable 14, and when the identification is executed, the second bearing component 18 pushes up the lower fixture 19 of the positioning sleeve.

The first press assembly 15 comprises a portal frame 151, a guide post 152, a bearing 153, a lower pressure support bracket 154 and a lower pressure cylinder 155; the gantry 151 is arranged on the workbench 12 and located on the left side of the multi-station turntable 14, the two guide columns 152 are arranged on two sides below the gantry 151, the bottom ends of the two guide columns 152 are arranged on the workbench 12, the top ends of the two guide columns are arranged below the gantry 151, the two bearings 153 are respectively sleeved on the two guide columns 152, the left side and the right side of one side of the downward pressing support frame 154 are sleeved on the two bearings 153, the downward pressing cylinder 155 is vertically arranged on the gantry 151 in a penetrating manner, the tail end of a movable rod of the downward pressing cylinder 155 is connected to the downward pressing support frame 154, and the downward pressing cylinder 155 drives the downward pressing support frame 154 to move up and down along the direction of the guide columns; the second press unit 16 has the same structure as the first press unit 15, and will not be described further.

The first bearing assembly 17 comprises an upper top cylinder 171, a bearing 172, a guide post 173, a bearing seat 174, a bearing post 175 and a positioning pin 176; the upper ejection cylinder 171 is inversely arranged on the workbench 12 in a penetrating manner and located below the left side of the multi-station turntable 14, the two bearings 172 are sleeved on the workbench 12 and located at two sides of the upper ejection cylinder 171, the two guide posts 173 are respectively sleeved in the two bearings 172, the bearing seat 174 is arranged at the top end of the movable rod of the upper ejection cylinder 171 and the top ends of the two guide posts 173, the plurality of bearing posts 175 are distributed and arranged above the bearing seat 174, the top end of each bearing post 175 is provided with a positioning pin 176, and the upper ejection cylinder 171 drives the bearing seat 174 to move up and down, so that the positioning pins 176 are sleeved with or separated from the lower jig 19; the second bearing assembly 18 has the same structure as the first bearing assembly 17, and will not be described further.

As shown in fig. 9 to 12, the material receiving tray mechanism 20 includes a base 21, a control box 22, a Y-axis module 23, a tray placing plate 24, an X-axis module 25, a vacuum material receiving assembly 26 and a defective product box 27; the base 21 sets up and corresponds one side at the material taking station 104 of carousel accredited testing organization 10, be provided with control box 22 in base 21 top rear side, middle part fretwork design around control box 22, Y axle module 23 vertically erects on base 21, the rear end of Y axle module 23 stretches into control box 22 and erects on base 21, balance layer board 24 sets up on the sliding block of Y axle module 23, place the thing charging tray on balance layer board 24, Y axle module 23 drives balance layer board 24 back-and-forth movement, X axle module 25 sets up on the front side top of control box 22, vacuum material collecting component 26 sets up on the sliding block of X axle module 25, defective products box 27 erects on base 21, be located one side of balance layer board 24, place the test NG product in the defective products box 27.

The vacuum receiving assembly 26 comprises a module fixing plate 261, a grabbing cylinder 262, a cylinder fixing plate 263, a rotary cylinder 264, a suction cup 265, a suction nozzle 266 and a vacuum control module 267; module fixed plate 261 sets up on the sliding block of X axle module 25, it sets up on module fixed plate 261 to grab cylinder 262, cylinder fixed plate 263 sets up at the movable rod end of grabbing cylinder 262, revolving cylinder 264 sets up in cylinder fixed plate 263 below, sucking disc 265 sets up at the movable rod end of revolving cylinder 264, one or more suction nozzle 266 distributes and sets up in sucking disc 265 below, it drives suction nozzle 266 up-and-down motion to grab cylinder 262, revolving cylinder 264 drives suction nozzle 266 rotation product direction, vacuum control module 267 sets up on module fixed plate 261, vacuum control module 267 controls suction nozzle 266 and absorbs the product or releases the product.

The vacuum control module 267 comprises a vacuum solenoid valve 2671, a vacuum generator 2672 and a vacuum digital display 2673; vacuum solenoid valve 2671, vacuum generator 2672 set up respectively on the module fixed plate, and vacuum solenoid valve 2671, vacuum generator 2672, vacuum digit display 2673 form the electric circuit with a plurality of suction nozzles 266 and are connected, and vacuum solenoid valve 2671 triggers or closes vacuum generator 2672, and vacuum generator 2672 draws the product or releases the vacuum through suction nozzle 266 evacuation, and the vacuum digit display shows and feeds back vacuum degree and vacuum solenoid valve 2671.

The material receiving and placing plate mechanism 20 further comprises a touch screen 28, the touch screen 28 is arranged on the outer side of the control box 22, and the touch screen 28 realizes the function of a man-machine operation interface.

As shown in fig. 13 and 14, in the first embodiment of the turntable testing apparatus of the present invention, in the first embodiment, the turntable testing apparatus performs testing and marking, when in use, a material tray 200 is placed on the swing tray supporting plate 24 and placed on the loading station 101, the present invention is started, the multi-station turntable 14 rotates, the lower fixture 19 rotates to the testing station 102, the first bearing component 17 pushes up and positions the lower fixture 19, the first press machine component 15 drives the testing fixture 110 to press down, a product function test is performed, the testing is completed, the first bearing component 17 and the first press machine component 15 are respectively reset, if a test result is obtained, the multi-station turntable 14 rotates, the lower fixture 19 directly rotates to the material taking station 104, and the X-axis module 25 drives the vacuum material receiving component 26 to carry a product to the defective product receiving box 27; if the test result is OK, the multi-station turntable 14 rotates, the lower jig 19 rotates to the identification station 103, the second bearing assembly 18 pushes up the positioning sleeve to be sleeved with the lower jig 19, the second press assembly 16 drives the identification module 111 to press downwards to identify a product, after the identification is finished, the second bearing assembly 18 and the second press assembly 16 return to the original positions respectively, the multi-station turntable 14 rotates, the lower jig 19 rotates to the material taking station 104, the X-axis module 25 drives the vacuum material receiving assembly 26 to carry the product, the Y-axis module 23 drives the material tray 200 and the X, Y-axis module to perform linkage action to finish product placing; at this point, the one-turn operation is finished, and the multi-station turntable 14 rotates once to perform the feeding operation more than once, and the operation is circulated in sequence as above.

As shown in fig. 15 and 16, in a second embodiment of the turntable testing apparatus according to the present invention, in this embodiment, the turntable testing apparatus can perform two functional testing operations, a second testing fixture 112 is disposed at the end of the pressing cylinder of the second press module 16 in place of the identification module 111, and the identification station 103 of the corresponding lower multi-station turntable 14 is replaced with a second testing station 105, and other structures are not changed.

As shown in fig. 15 and 16, in use, a material tray 200 is placed on the balance tray 24 and placed on the feeding station 101, the multi-station turntable 14 is started, the lower fixture 19 is rotated to the testing station 102, the first bearing component 17 is pushed up and positioned to be sleeved on the lower fixture 19, the first press component 15 drives the testing fixture 110 to press down to perform a product function test, the product function test is completed after the product function test, the first bearing component 17 and the first press component 15 are respectively reset, if the test result is NG, the multi-station turntable 14 is rotated, the lower fixture 19 is directly rotated to the material taking station 104, and the X-axis module 25 drives the vacuum material receiving component 26 to carry the product to the defective product box 27; if the test result is OK, the multi-station turntable 14 rotates, the lower jig 19 rotates to the second test station 105, the second bearing assembly 18 pushes up the positioning sleeve to be sleeved on the lower jig 19, the second press machine assembly 16 drives the second test jig 112 to press downwards to perform secondary function test on the product, after the test is completed, the second bearing assembly 18 and the second press machine assembly 16 respectively return to the original positions, if the test result is NG, the multi-station turntable 14 rotates, the lower jig 19 rotates to the material taking station 104, and the X-axis module 25 drives the vacuum material receiving assembly 26 to carry the product to the defective product box 27; if the test result is OK, the multi-station turntable 14 rotates, the lower jig 19 rotates to the material taking station 104, the X-axis module 25 drives the vacuum material receiving assembly 26 to carry products, and the Y-axis module 23 drives the material tray 200 and the X, Y-axis module to perform linkage action to complete product arrangement; at this point, the one-turn operation is finished, and the multi-station turntable 14 rotates once to perform the feeding operation more than once, and the operation is circulated in sequence as above.

After the scheme is adopted, the turntable testing mechanism 10 and the material receiving and placing mechanism 20 are mutually independent and are separately controlled in a matched manner; two groups of

independent press modules

15 and 16 are adopted, the first press module 15 and the test fixture are combined to form a test function module, the second press module 16 and the identification module 111 are combined to form an identification function module, the second press module 16 and the second test fixture 112 are combined to form a second test function module, the test fixture or the identification module can be replaced according to the product, the two conditions of testing + identification product manufacturing, primary testing + secondary testing product manufacturing can be flexibly switched and adapted, the equipment is multifunctional, and the fixed asset investment is reduced; by adopting the

bearing assemblies

17 and 18, when the press-down test is executed, the upper tops of the

bearing assemblies

17 and 18 and the lower jig 19 are stressed simultaneously, so that the problem that the service life of the multi-station turntable 14 is influenced due to the long-term stress of the lower jig 19 and the multi-station turntable 14 in the press-down test process is solved; the rotation of the multi-station turntable 14 can generate angular tolerance, the

bearing components

17 and 18 can be pushed upwards to precisely position the lower jig 19 and the bearing seat 174, so that the problem of angular tolerance is solved, the test jig 110 and the lower jig 19 are precisely superposed when a press-down test is executed, the test accuracy is improved, and the accuracy of the marking position is improved when marking is executed; the vacuum material receiving assembly 26 adopts a grabbing cylinder and a rotating cylinder to act in a matched mode, so that the direction of a product can be rotated after the product is sucked, and the product can be distributed and placed on a material tray conveniently; the invention has the advantages of simple structure, convenient operation, flexible function switching and relatively low cost.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims

1. A carousel test apparatus, characterized in that: comprises a turntable testing mechanism and a material receiving and placing mechanism;

the turntable testing mechanism comprises a base box, a workbench, a rotating motor module, a multi-station turntable, a first press assembly, a second press assembly, a first bearing assembly, a second bearing assembly, a lower jig, a testing jig and an identification module or a second testing jig; the workbench is arranged on the base box, the output end of the rotary motor module is arranged on the workbench in a penetrating manner, the multi-station turntable is arranged at the output end of the rotary motor module and drives the multi-station turntable to rotate, the multi-station turntable is in a disc shape, the front side, the rear side, the left side and the right side of the multi-station turntable are respectively in a hollow design, the front side forms a feeding station, the left side forms a testing station, the rear side forms a marking station or a second testing station, the right side forms a receiving station, the first press assembly is arranged on the workbench and positioned on the left side of the multi-station turntable, the second press assembly is arranged on the workbench and positioned on the rear side of the multi-station turntable, the four lower jigs are respectively arranged on the feeding station, the testing station, the marking station or the second testing station and the stations of the multi-station turntable, and the testing jigs are arranged at, the first press machine component drives the test fixture to move up and down, the identification module or the second test fixture is arranged at the movable end of the second press machine component, the second press machine component drives the identification module or the second test fixture to move up and down, the first bearing component is arranged on the workbench in a penetrating mode and is located at the position, below one side, corresponding to the first press machine component, of the multi-station turntable, when the press-down test is executed, the first bearing component pushes up the positioning sleeve to lower the fixture, the second bearing component is arranged on the workbench in a penetrating mode and is located at the position, below one side, corresponding to the second press machine component, of the multi-station turntable, and when the identification or the secondary test is executed, the second bearing component pushes up the positioning sleeve to lower the fixture.

2. The rotary turret test apparatus of claim 1, wherein: the first press machine assembly comprises a portal frame, a guide pillar, a bearing, a lower pressing support frame and a lower pressing cylinder; the portal frame is arranged on the workbench and positioned on the left side of the multi-station turntable, the two guide pillars are arranged on two sides below the portal frame, the bottom ends of the two guide pillars are arranged on the workbench, the top ends of the two guide pillars are arranged below the portal frame, the two bearings are respectively sleeved on the two guide pillars, the left side and the right side of one side of the downward pressing support frame are sleeved on the two bearings, the downward pressing air cylinder vertically penetrates through the portal frame, the tail end of a movable rod of the downward pressing air cylinder is connected to the downward pressing support frame, and the downward pressing air cylinder drives the downward pressing support frame to move up and down along the direction of; the second press assembly has the same structure as the first press assembly.

3. The rotary disk testing apparatus as claimed in claim 1 or 2, wherein: the first bearing assembly comprises an upper jacking cylinder, a bearing, a guide pillar, a bearing seat, a bearing pillar and a positioning pin; the upper jacking cylinder is inversely arranged on the workbench in a penetrating manner and located below the multi-station turntable corresponding to the first press machine module, the two bearings are sleeved on the workbench and located on two sides of the upper jacking cylinder, the two guide pillars are respectively sleeved in the two bearings, the bearing seat is arranged at the top end of the movable rod of the upper jacking cylinder and at the top ends of the two guide pillars, the plurality of bearing columns are distributed above the bearing seat, the top end of each bearing column is provided with a positioning pin, and the upper jacking cylinder drives the bearing seat to move up and down so as to enable the positioning pin to be sleeved with or separated from the lower jig positioning; the second bearing component has the same structure as the first bearing component.

4. The rotary turret test apparatus of claim 1, wherein: the vacuum material receiving assembly comprises a module fixing plate, a grabbing cylinder, a cylinder fixing plate, a rotating cylinder, a sucking disc, a suction nozzle and a vacuum control module; the module fixed plate sets up on the sliding block of X axle module, it sets up on the module fixed plate to snatch the cylinder, the cylinder fixed plate sets up at the movable rod end of snatching the cylinder, revolving cylinder sets up in cylinder fixed plate below, the sucking disc sets up at the movable rod end of revolving cylinder, one or more suction nozzle distribute and set up in the sucking disc below, it drives the up-and-down motion of suction nozzle to snatch the cylinder, revolving cylinder drives the rotatory product direction of suction nozzle, vacuum control module sets up on the module fixed plate, vacuum control module control suction nozzle absorbs the product or releases the product.

5. The rotary turret test apparatus of claim 4, wherein: the vacuum control module comprises a vacuum electromagnetic valve, a vacuum generator and a vacuum digital display; vacuum solenoid valve, vacuum generator set up respectively on the module fixed plate, and vacuum solenoid valve, vacuum generator, vacuum digital display form electric circuit with a plurality of suction nozzles and are connected, and vacuum solenoid valve triggers or closes vacuum generator, and vacuum generator passes through the suction nozzle evacuation and absorbs the product or release the vacuum and place the product, and vacuum digital display shows and feedback vacuum degree and vacuum solenoid valve.

6. The rotary turret test apparatus of claim 1, wherein: the material receiving and placing plate mechanism further comprises a touch screen, and the touch screen is arranged on the outer side of the control box.