CN208282775U - A kind of automation follow-on test equipment - Google Patents

Abstract

The utility model relates to automatization testing technique fields, disclose a kind of automation follow-on test equipment.The automation follow-on test equipment includes workbench；XY is set to the workbench to driving mould group；Camera mould group and the test mould group being set to below the camera mould group, the camera mould group are used to acquire the test information of the test mould group；The camera mould group and the test mould group are all set in XY in driving mould group, and the XY can drive the camera mould group and the test mould group to move back and forth along X to Y-direction to driving mould group；Controller, the XY are all connected to the controller to driving mould group, the camera mould group and the test mould group.When the utility model solves testing product, the problem of labor workload is big, and working efficiency is low, high production cost.

Description

A kind of automation follow-on test equipment

Technical field

The utility model relates to automatization testing technique field more particularly to a kind of automation follow-on test equipment.

Background technique

It is by manually being detected to the size detection of product, in traditional mode, and the mode of artificial detection is often Need a large amount of artificial, and detection efficiency is low, leads to high production cost.Meanwhile artificial detection is there are inter-individual difference, error compared with Greatly, the product quality after detection can not be completely secured.

In addition, being detected in the prior art using detection device, it is still desirable to product are manually placed into detection device On, it can be detected, and can only once detect a product, the efficiency that single detects a product is still not able to meet Production requirement, and artificial workload is still very big.

Utility model content

The purpose of this utility model is to provide a kind of automation follow-on test equipment, when for solving testing product, people The problem of work heavy workload, working efficiency is low, high production cost.

For this purpose, the utility model uses following technical scheme:

A kind of automation follow-on test equipment is provided, comprising:

Workbench；

XY is set to the workbench to driving mould group；

Camera mould group and the test mould group being set to below the camera mould group, the camera mould group is for acquiring the survey The test information of die trial group；

The camera mould group and the test mould group are all set in XY in driving mould group, and the XY drives to driving mould group The camera mould group and the test mould group can be moved back and forth along X to Y-direction；

Controller, the XY are all connected to the controller to driving mould group, the camera mould group and the test mould group.

It preferably, further include the Y-direction fine tuning mould group being set to the XY in driving mould group and Z-direction fine tuning mould group, the Y It is connected to the Z-direction fine tuning mould group to fine tuning mould group, the camera mould group and the test mould group are set to the Y-direction fine tuning mould In group or Z-direction fine tuning mould group.

It preferably, further include man-machine interface, the man-machine interface is connected to the controller.

It preferably, further include the air filtration mould group for being connected to the controller, the air filtration mould group is for filtering Automate the air in follow-on test equipment.

It preferably, further include the light source module group being set between the camera mould group and the test mould group, and the light Source mould group is located at the underface of the camera mould group.

Preferably, the test mould group includes:

Fixing seat is connected to the Y-direction fine tuning mould group or Z-direction fine tuning mould group；

Clamping jaw cylinder is set to the fixing seat, is provided with test clamping jaw on the clamping jaw of the clamping jaw cylinder.

Preferably, the test mould group further include:

Sliding rail, is connected to the fixing seat, and the sliding rail along X to setting；

Clamping jaw air cylinder fixed plate, is provided with the sliding slot with sliding rail cooperation sliding, and the clamping jaw cylinder is fixed on In the clamping jaw air cylinder fixed plate；

The first elastic component is provided between at least side and the fixing seat of the clamping jaw air cylinder fixed plate.

Preferably, the Y-direction fine tuning mould group includes the first channel and the first sliding panel, and first channel being capable of phase It reciprocatingly slides for first sliding panel along Y-direction；

The Z-direction fine tuning mould group includes the second channel and the second sliding panel, and second channel can be relative to institute The second sliding panel is stated to reciprocatingly slide along Z-direction；

First sliding panel is connected to second channel, and it is sliding to be located at second channel connection described second The opposite side of movable plate；Second sliding panel is connected to the XY to driving mould group.

Preferably, the XY to driving mould group includes X to driving mould group and is vertically arranged with the X to driving mould group and position Square Y-direction drives mould group thereon；

The X to driving mould group include:

Linear mould group, is set on the workbench；

Support plate is set in the linear mould group, and Y-direction driving mould group is set in the support plate；

The Y-direction driving mould group includes the Y-direction driving cylinder being set in support plate, the stretching of the Y-direction driving cylinder End is connected to the Y-direction fine tuning mould group or Z-direction fine tuning mould group.

It preferably, further include carrier, the carrier includes the carrier fixed plate being set on the workbench, and is set to In the carrier fixed plate, and along X to the fixture fixation kit for setting gradually and being spaced pre-determined distance, the fixture fixation kit Including fixed block and clamping element, and the second elastic component being set between the fixed block and clamping element.

The utility model has the beneficial effects that

In the utility model by controller control XY to driving mould group drive camera mould group and test mould group together along X to It is moved with Y-direction, controller can control XY to the motion mode of driving mould group, to realize test of the test mould group to product. Specifically, product to be measured is tested by testing mould group, the test of mould group is tested by camera mould group collecting test mould group Information can judge whether product is qualified after handling by controller.

Meanwhile by above-mentioned automation follow-on test equipment testing product, it can apply in production line, meet automation The development trend of production, and production efficiency is greatly improved, and reduces production cost, reduces labor intensity.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the automation follow-on test equipment of the utility model；

Fig. 2 be the utility model working frame, workbench, XY to driving mould group, test mould group, camera mould group, carrier, Y-direction finely tunes the structural schematic diagram of mould group and Z-direction fine tuning mould group；

Fig. 3 be the workbench of the utility model, XY to driving mould group, test mould group, camera mould group, carrier, Y-direction fine tuning mould The structural schematic diagram of group and Z-direction fine tuning mould group；

Fig. 4 is that the Y-direction of the utility model finely tunes mould group, Z-direction finely tunes mould group and the structure of an angle of test mould group is shown It is intended to；

Fig. 5 is that the Y-direction fine tuning mould group, Z-direction of the utility model finely tune mould group and test the structure of another angle of mould group Schematic diagram；

Fig. 6 is the structural schematic diagram of the test mould group of the utility model；

Fig. 7 is the partial structural diagram of the carrier of the utility model；

Fig. 8 is the partial structurtes front view of the carrier of the utility model；

Fig. 9 is the A-A of the utility model Fig. 8 to structural schematic diagram；

Figure 10 is the structural schematic diagram tested clamping jaw in the utility model and protrude into the original state of interiors of products；

Figure 11 is the structural schematic diagram tested clamping jaw in the utility model and protrude into the test mode of interiors of products.

In figure:

1, workbench；

2, XY to driving mould group；21, X to driving mould group；211, linear mould group；212, support plate；22, Y-direction drives mould group； 221, Y-direction drives cylinder；222, cylinder slide plate；223, mould group fixed plate is finely tuned；224, buffer；

3, camera mould group；

4, mould group is tested；41, fixing seat；42, clamping jaw cylinder；43, clamping jaw is tested；431, raised；45, sliding rail；46, clamping jaw Air cylinder fixed plate；47, the first elastic component；

5, Y-direction finely tunes mould group；51, the first channel；52, the first sliding panel；53, the first sliding block；

6, Z-direction finely tunes mould group；61, the second channel；62, the second sliding panel；63, the second sliding block；

7, man-machine interface；70, display screen；

8, air filtration mould group；

9, light source module group；

10, carrier；101, carrier fixed plate；102, fixture fixation kit；1021, fixed block；1022, clamping element；1023, Second elastic component；103, positioning pin；

11, working frame；

12, shell；

13, product.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

A kind of automation follow-on test equipment is provided in the present embodiment, for the size detection of product 13, the present embodiment In the product 13 that is detected be rectangle part, detection be rectangle part inner wall width.

As Figure 1-Figure 2, above-mentioned automation follow-on test equipment includes workbench 1, and XY is to driving mould group 2, camera mould Group 3, test mould group 4 and controller.It further include working frame 11 and shell 12, working frame 11 is used to support workbench 1, work Frame 11 is assembled by aluminum profile, and the height of working frame 11 is determined by concrete condition.In workbench 1 and working frame Shell 12 is additionally provided on 11, the shape and color of shell 12 are determined according to the actual needs.

X in the present embodiment refers to direction shown in Fig. 2 to, Y-direction and Z-direction.

Test mould group 4 is set to the lower section of camera mould group 3, and camera mould group 3 is used for the test information of collecting test mould group 4. Camera mould group 3 and test mould group 4 are all set in XY in driving mould group 2, and XY drives camera mould group 3 and test to driving mould group 2 Mould group 4 can be moved back and forth along X to Y-direction.XY is all connected to control to driving mould group 2, camera mould group 3 and test mould group 4 Device.

Controller in the present embodiment is the control circuit in conventional prior, not because of the innovative point in technical solution Here, therefore, no longer adding to repeat herein.

Further in specific technical solution:

As shown in figure 3, above-mentioned XY is vertically arranged to driving mould group 2 including X to driving mould group 21 and with X to driving mould group 21 And the Y-direction driving mould group 22 being positioned above, X are fixedly mounted on the work to driving mould group 21 and Y-direction driving mould group 22 1 top of platform.

X includes linear mould group 211 and support plate 212 to driving mould group 21, wherein linear mould group 211 is set to workbench 1 On.Support plate 212 is set in linear mould group 211, and Y-direction driving mould group 22 is set in support plate 212.X to driving mould group 21 driving support plates 212 and Y-direction driving mould group 22 move back and forth together.Linear mould group 211 is the prior art, no longer superfluous herein It states.

It includes Y-direction driving cylinder 221 and cylinder sliding panel 222 that Y-direction, which drives mould group 22,.Wherein, Y-direction driving cylinder 221 is set It is placed in support plate 212, and the extension end of Y-direction driving cylinder 221 is connected to Y-direction fine tuning mould group 5 or Z-direction fine tuning mould group 6.

Specifically, in the present embodiment, along the direction that Y-direction moves, the both ends of Y-direction driving cylinder 221 are respectively arranged with one A buffer 224, buffer 224 are mounted in support plate 212.The purpose that buffer 224 is arranged is in order to avoid Y-direction drives gas Cylinder 221 in place when, reduce the impact force to Y-direction driving cylinder 221 and reduce impact noise, protection Y-direction driving cylinder 221 is matched Part.

The cylinder 221 of Y-direction driving in the present embodiment is fixed in support plate 212, and Y-direction drives the extension end of cylinder 221 to connect It is connected to cylinder slide plate 222, Y-direction driving cylinder 221 can drive cylinder slide plate 222 relative to Y-direction driving cylinder 221 along Y To reciprocatingly sliding, the extension end of Y-direction driving cylinder 221 is connected to Z-direction fine tuning mould group 6.

Above-mentioned X can also be and be realized using screw structure to driving mould group 21 and Y-direction driving mould group 22, also can use cunning Rail slide block structure is realized.

As shown in figure 3, Y-direction fine tuning mould group 5 and Z-direction fine tuning mould group 6 are all set in XY in driving mould group 2, camera mould group 3 It is set in Y-direction fine tuning mould group 5 or Z-direction fine tuning mould group 6 with test mould group 4.Specifically, Y-direction in the present embodiment finely tunes mould Group 5 and Z-direction fine tuning mould group 6 are connect by finely tuning mould group fixed plate 223 with above-mentioned cylinder slide plate 222.Finely tune mould group fixed plate 223 side is sequentially connected Z-direction fine tuning mould group 6 and Y-direction fine tuning mould group 5.

The above-mentioned Y-direction driving mould group 22 as in Fig. 2 drives above-mentioned cylinder slide plate 222 to move along Y-direction, to drive fine tuning Mould group fixed plate 223, Y-direction fine tuning mould group 5 and Z-direction fine tuning mould group 6 are moved back and forth along Y-direction together.

Further specifically in technical solution, as shown in Figure 4 and Figure 5, it includes the first channel 51, that Y-direction, which finely tunes mould group 5, One sliding panel 52, and the first sliding block 53 being set between the first channel 51 and the first sliding panel 52, the first sliding block 53 is along Y To setting, the first channel 51 can reciprocatingly slide relative to the first sliding panel 52 along Y-direction along the first sliding block 53.

It includes the second channel 61, the second sliding panel 62 and the second channel 61 and the second sliding that Z-direction, which finely tunes mould group 6, The second sliding block 63 between plate 62, the second sliding block 63 are arranged along Z-direction, and the second channel 61 can be relative to the along the second sliding block 63 Two sliding panels 62 reciprocatingly slide along Z-direction.

First sliding panel 52 is connected on the second channel 61, and is located at the second channel 61 and is connected the second sliding panel 62 Opposite side, i.e. the first sliding panel 52 and the second sliding panel 62 are located at the opposite sides of the second channel 61, the second sliding Plate 62 is connected to XY to driving mould group 2.Specifically, the second sliding panel 62 passes through in fine tuning mould group fixed plate 223 and above-mentioned Fig. 2 Cylinder slide plate 222 is fixedly connected.

Camera mould group 3 in above-mentioned test mould group 4 and Fig. 2 is all connected to the first channel 51 and connects the first sliding panel 52 Opposite side.Wherein, camera mould group 3 is CCD camera, resolution ratio 0.005mm/pix.

As shown in fig. 6, test mould group 4 includes fixing seat 41, clamping jaw cylinder 42, sliding rail 45,46 and of clamping jaw air cylinder fixed plate First elastic component 47.Wherein, fixing seat 41 is connected to Y-direction fine tuning mould group 5 or Z-direction fine tuning mould group 6.Fixing seat 41 in the present embodiment It is connected on the first channel 51, and is located at the opposite side that the first channel 51 connects the first sliding panel 52, i.e. fixing seat 41 The opposite sides of the first channel 51 is located at the first sliding panel 52.Clamping jaw cylinder 42 is fixed on clamping jaw air cylinder fixed plate 46 On, test clamping jaw 43 is provided on the clamping jaw of clamping jaw cylinder 42.Sliding rail 45 is connected to fixing seat 41, and sliding rail 45 along X to setting. The sliding slot with the cooperation sliding of sliding rail 45 is provided in clamping jaw air cylinder fixed plate 46.At least side of clamping jaw air cylinder fixed plate 46 and solid The first elastic component 47 is provided between reservation 41, above-mentioned first elastic component 47 is spring.It is fixed in the present embodiment in clamping jaw cylinder The two sides of plate 46 are provided with spring.

Further in specific scheme, it is provided with a test clamping jaw 43 on each clamping jaw, tests the outside of clamping jaw 43 Be provided with protrusion 431, when test clamping jaw 43 protrude into the inside of product 13 when, two test clamping jaw 43 protrusion 431 respectively with production Two inner sidewalls of product 13 contact.

The purpose that spring is arranged is in order to when test mould group 4 is made along X to when moving, spring plays clamping jaw cylinder 42 to buffer With, meanwhile, it, will not be to test clip when there is catching phenomenon when test clamping jaw 43 protrudes into the inside of tested product 13 Pawl 43 or product 13 damage.

Preferably, the automation follow-on test equipment in the present embodiment further includes man-machine interface 7 and for showing information Display screen 70, man-machine interface 7 and display screen 70 are all connected to controller.The key select command shown by man-machine interface 7 is led to It crosses controller and controls each mould group work, and real time information is shown on display screen 70.

Automation follow-on test equipment in the present embodiment further includes being connected to the air filtration mould group 8 of controller, air Filter module group 8 is for the air in filter shell 12.It is to meet the needs of dust-free workshop that air filtration mould group 8, which is arranged,.On It states air filtration mould group 8 and belongs to the prior art, therefore, details are not described herein.

Automation follow-on test equipment in the present embodiment further includes being set between camera mould group 3 and test mould group 4 Light source module group 9, and light source module group 9 is located at the underface of camera mould group 3.Light source takes pictures for camera and provides light source in the present embodiment, It is apparent, accurate to make to take pictures, and the color of light source uses blue-light source, and the color of light source is determined according to actual needs.

As shown in figs. 7 to 9, the automation follow-on test equipment in the present embodiment further includes carrier 10, and carrier 10 includes setting The carrier fixed plate 101 being placed on workbench 1, and be set in carrier fixed plate 101, and pre- to setting gradually and being spaced along X If the fixture fixation kit 102 of distance, fixture fixation kit 102 includes fixed block 1021 and clamping element 1022, and is set to The second elastic component 1023 between fixed block 1021 and clamping element 1022.Above-mentioned second elastic component 1023 is spring.

Specifically, in the carrier fixed plate 101 in the present embodiment along X to being disposed with ten groups of fixture fixation kits 102, Pre-determined distance is spaced between every two adjacent groups fixture fixation kit 102.The one of wherein one group of fixture fixation kit 102 at both ends Side is additionally provided with an end fixed block, between the clamping element 1022 of the fixture fixation kit 102 of this end fixed block and end Also it is spaced pre-determined distance, for fixing product 13 to be detected.In addition, being additionally provided with positioning pin in carrier fixed plate 101 103, in the region of pre-determined distance of the positioning pin 103 between fixed block 1021 and clamping element 1022.

The course of work of automation follow-on test equipment in the present embodiment is as follows:

It is configured with two groups of carriers 10 in every automation follow-on test equipment in the present embodiment, is also configured as multiple groups Carrier 10, is determined according to actual needs.One device configuration multiple groups carrier 10, can save the artificial loading time, improve Working efficiency.

When by the way that manually product 13 to be measured being pressed into above-mentioned pre-determined distance region, spring contraction, then pass through positioning pin 103 Product 13 to be measured is positioned, thus by product 13 to be measured be packed into above-mentioned carrier 10 fixed block 1021 and clamping element 1022 it Between be clamped.

Ten products 13 to be measured can be installed on every group of carrier 10, replaced by another group of carrier 10, to product 13 Continuance test is carried out, guarantees continuous work.

Before test, Y-direction fine tuning mould group 5 is first passed through in advance and Z-direction fine tuning mould group 6 adjusts camera mould group 3, test mould group 4 With light source module group 9 in the position of Y-direction and Z-direction.

After filling product 13 to be measured on carrier 10 and being placed on workbench 1, linear mould group 211 drives Y-direction to drive mould group 22, camera mould group 3, test mould group 4, light source module group 9, Y-direction fine tuning mould group 5 and Z-direction fine tuning mould group 6 work as fortune together along X to moving When moving to the position of a product 13 to be measured, controller controls linear mould group 211 and stops X to movement.At this point, Y-direction drives mould group 22 driving camera mould groups 3, test mould group 4, light source module group 9, Y-direction fine tuning mould group 5 and Z-direction fine tuning mould group 6 are together along Y-direction to close The direction of product 13 moves.During test product 13, light source module group 9 is constantly in opening state.

At this point, as shown in Figure 10, test clamping jaw 43 protrudes into the inside of product 13 to be measured, taken pictures test clip at this time by camera The distance between pawl 43 is D1, and the photographic intelligence after shooting is transferred to controller.Clamping jaw cylinder 42 drives test clamping jaw 43 Continue to contact protrusion 431 with the inner sidewall of product 13 to be measured along X, after contact, as shown in figure 11, passes through phase For machine to taking pictures again, the distance between test clamping jaw 43 is D2, and the information of the photo after shooting is transferred to control again Device processed, after handling pictorial information by controller, to complete the test to a product 13.

After often testing a product 13, above-mentioned Y-direction driving mould group 22 drives camera mould group 3, test mould group 4, light source die Group 9, Y-direction fine tuning mould group 5 and Z-direction fine tuning mould group 6 are moved along Y-direction to the direction far from product 13 together, then pass through linear mould group 211 driving Y-direction driving mould groups 22, camera mould group 3, test mould group 4, light source module group 9, Y-direction fine tuning mould group 5 and Z-direction finely tune mould group 6 Together along X to the position for continuing to move to next product 13 to be measured, successively back and forth, after testing 10 products 13, replacement is carried Tool 10 and product to be measured 13.

The measuring accuracy of product 13 in the present embodiment can achieve 0.01mm.The time of one product 13 of average test is 4s, a hour can measure 650 products 13, greatly increase working efficiency.

Obviously, the above embodiments of the present invention is used for the purpose of clearly illustrating examples for clearly illustrating the present invention, and It is not limitations of the embodiments of the present invention.For those of ordinary skill in the art, in above description On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments Exhaustion.Any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention etc., should be included in Within the protection scope of the utility model claims.

Claims (10)

1. a kind of automation follow-on test equipment characterized by comprising

Workbench (1)；

XY is set to the workbench (1) to driving mould group (2)；

Camera mould group (3) and the test mould group (4) being set to below the camera mould group (3), the camera mould group (3) is for adopting Collect the test information of test mould group (4)；

The camera mould group (3) and the test mould group (4) be all set in XY to driving mould group (2) on, the XY to driving mould Group (2) drives the camera mould group (3) and the test mould group (4) that can move back and forth along X to Y-direction；

Controller, the XY are all connected to the control to driving mould group (2), the camera mould group (3) and the test mould group (4) Device processed.

2. automation follow-on test equipment according to claim 1, which is characterized in that further include being set to the XY to drive Y-direction fine tuning mould group (5) and Z-direction fine tuning mould group (6) in dynamic model group (2), it is micro- that Y-direction fine tuning mould group (5) is connected to the Z-direction Mode transfer group (6), the camera mould group (3) and the test mould group (4) are set to Y-direction fine tuning mould group (5) or the Z-direction is micro- In mode transfer group (6).

3. automation follow-on test equipment according to claim 1, which is characterized in that it further include man-machine interface (7), it is described Man-machine interface (7) is connected to the controller.

4. automation follow-on test equipment according to claim 1, which is characterized in that further include being connected to the controller Air filtration mould group (8), the air filtration mould group (8) be used for filter automate follow-on test equipment in air.

5. automation follow-on test equipment according to claim 1, which is characterized in that further include being set to the camera mould Light source module group (9) between group (3) and test mould group (4), and the light source module group (9) is located at the camera mould group (3) Underface.

6. automation follow-on test equipment according to claim 2, which is characterized in that the test mould group (4) includes:

Fixing seat (41) is connected to Y-direction fine tuning mould group (5) or Z-direction fine tuning mould group (6)；

Clamping jaw cylinder (42) is set to the fixing seat (41), is provided with test clamping jaw on the clamping jaw of the clamping jaw cylinder (42) (43)。

7. automation follow-on test equipment according to claim 6, which is characterized in that the test mould group (4) further include:

Sliding rail (45) is connected to the fixing seat (41), and the sliding rail (45) along X to setting；

Clamping jaw air cylinder fixed plate (46) is provided with the sliding slot with the sliding rail (45) cooperation sliding, the clamping jaw cylinder (42) it is fixed on the clamping jaw air cylinder fixed plate (46)；

The first elastic component (47) are provided between at least side and the fixing seat (41) of the clamping jaw air cylinder fixed plate (46).

8. automation follow-on test equipment according to claim 2, which is characterized in that the Y-direction finely tunes mould group (5) and includes First channel (51) and the first sliding panel (52), first channel (51) can be relative to first sliding panels (52) It reciprocatingly slides along Y-direction；

Z-direction fine tuning mould group (6) includes the second channel (61) and the second sliding panel (62), the second channel (61) energy It is enough to reciprocatingly slide relative to second sliding panel (62) along Z-direction；

First sliding panel (52) is connected to second channel (61), and is located at second channel (61) and connects institute State the opposite side of the second sliding panel (62)；Second sliding panel (62) is connected to the XY to driving mould group (2).

9. automation follow-on test equipment according to claim 2, which is characterized in that the XY is wrapped to driving mould group (2) It includes X and drives mould group to driving mould group (21) and the Y-direction for being vertically arranged and being positioned above to driving mould group (21) with the X (22)；

The X to driving mould group (21) include:

Linear mould group (211), is set on the workbench (1)；

Support plate (212) is set on the linear mould group (211), and Y-direction driving mould group (22) is set to the support On plate (212)；

Y-direction driving mould group (22) includes Y-direction driving cylinder (221) being set on support plate (212), the Y-direction driving The extension end of cylinder (221) is connected to Y-direction fine tuning mould group (5) or Z-direction fine tuning mould group (6).

10. automation follow-on test equipment according to claim 1, which is characterized in that further include carrier (10), the load Tool (10) includes the carrier fixed plate (101) being set on the workbench (1), and is set to the carrier fixed plate (101) On, and along X to the fixture fixation kit (102) for setting gradually and being spaced pre-determined distance, the fixture fixation kit (102) includes Fixed block (1021) and clamping element (1022), and be set between the fixed block (1021) and clamping element (1022) second Elastic component (1023).