CN212137759U - Mobile phone camera shooting test equipment - Google Patents

Abstract

The utility model provides a cell-phone camera test equipment of shooing, comprises a workbench, the material loading transfer chain, the material loading manipulator, environment test carousel mechanism, unloading manipulator and unloading transfer chain, the material loading transfer chain sets up on the workstation, the material loading manipulator sets up in material loading transfer chain top, environment test carousel mechanism sets up the rear side at the material loading manipulator, the unloading transfer chain sets up the right side at the material loading transfer chain, the material unloading manipulator sets up in unloading transfer chain top, the material loading transfer chain is used for carrying the cell-phone that detects the detection and enters into the position department that snatchs of material loading manipulator, the material loading manipulator snatchs the cell-phone that detects and puts into environment test carousel mechanism and shoot the test, unloading manipulator snatchs the cell-phone and puts into the unloading transfer chain and carries out the unloading on. The utility model discloses can realize automatic unloading of going up, can also realize automatic test to great improvement production efficiency, but also reduced manufacturing cost and reduced workman's intensity of labour.

Description

Mobile phone camera shooting test equipment

Technical Field

The utility model relates to a cell-phone camera test equipment field of shooing, in particular to cell-phone camera carries out the test equipment of test of shooing in different luminance environment.

Background

With the performance of the camera being more excellent and the application range being wider, the performance test of the camera becomes more common and important. The photographing function becomes an indispensable function of electronic equipment such as a mobile phone and a tablet computer, and the photographing quality directly affects the performance of the electronic equipment, so that the photographing test needs to be performed on a camera of the electronic equipment before the electronic equipment leaves a factory. However, the detection of the existing electronic equipment camera mainly involves manual operation, and has low production efficiency, high production cost and high labor intensity.

SUMMERY OF THE UTILITY MODEL

The invention aims to provide the mobile phone camera shooting test equipment which is automatic, high in production efficiency, low in production cost and low in labor intensity.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a cell-phone camera test equipment of shooing, includes workstation, material loading transfer chain, material loading manipulator, environment test carousel mechanism, unloading manipulator and unloading transfer chain, the material loading transfer chain sets up on the workstation, material loading manipulator sets up in material loading transfer chain top, environment test carousel mechanism sets up the rear side at material loading manipulator, the unloading transfer chain sets up the right side at the material loading transfer chain, unloading manipulator sets up in unloading transfer chain top, the material loading transfer chain is used for carrying the cell-phone that waits to detect and enters into the position department that snatchs of material loading manipulator, material loading manipulator snatchs and waits to detect the cell-phone and puts into environment test carousel mechanism and shoot the test, the cell-phone after the test in the carousel mechanism of environment test snatchs and puts into the unloading transfer chain and carries out the unloading on.

Further, the material loading transfer chain includes first belt conveyor, a plurality of preceding material blocking device, side positioner, sweeps a yard device and transfer chain width adjusting device, a plurality of preceding material blocking device set up respectively in first belt conveyor for block the cell-phone and move right on first belt conveyor, side positioner sets up the left end at first belt conveyor's rear side, is used for fixing a position the cell-phone that enters into in first belt conveyor, sweep a yard device setting in first belt conveyor's front side, sweep a yard networking to the cell-phone.

Further, the feeding manipulator comprises a feeding XYZ module, a first rotary cylinder, a feeding clamping jaw and a feeding sucker, wherein the first rotary cylinder is installed on the feeding XYZ module, the feeding clamping jaw is installed on the first rotary cylinder, and the feeding sucker is installed on the feeding clamping jaw.

Further, environment test carousel mechanism includes carousel, first anchor clamps and test module, first anchor clamps are annular array and arrange on the carousel, the test module corresponds first anchor clamps and is annular array and arrange in the carousel top, the carousel can drive first anchor clamps and rotate and test in the test module.

Further, the first clamp comprises a rotating plate and two clamping parts, and the clamping parts are arranged on the rotating plate side by side and used for clamping the mobile phone.

Further, the test module includes the first low bright white board light source module, the first high bright white board light source module, the high bright white board light source module of second, the low bright white board light source module of second, second black environmental test case module, grey environmental test case module and the first black environmental test case module that are the annular array and arrange.

Further, the unloading manipulator includes unloading XYZ module and unloading clamping jaw, the unloading clamping jaw setting is at unloading XYZ module lower extreme.

Further, the unloading transfer chain includes second conveyor belt, second belt driving motor and second anchor clamps, second belt driving motor carries the second anchor clamps through second conveyor belt and moves right.

Further, the automatic blanking device comprises a clamp backflow conveying line and a clamp backflow lifting connection device, the clamp backflow conveying line is arranged at the bottom of the blanking conveying line, the clamp backflow lifting connection device is arranged at the left end of the clamp backflow conveying line, and the clamp backflow conveying line is connected with the blanking conveying line through the clamp backflow lifting connection device.

Further, anchor clamps backward flow transfer chain includes backward flow support, backward flow preceding material stopper, backward flow belt and backward flow belt driving motor, the backward flow belt is installed on the backward flow support, the setting of backward flow preceding material stopper is between the backward flow belt, backward flow belt driving motor can drive the backward flow belt and be rotary motion

The utility model has the advantages that: when the environment testing turntable mechanism works, a manual or mechanical hand of the utility model puts a mobile phone display screen upwards on a feeding conveying line, then the feeding conveying line scans a mobile phone and connects the mobile phone with a computer of a terminal through WIFI, the feeding conveying line conveys the mobile phone to a grabbing position of the feeding mechanical hand, then the feeding mechanical hand grabs the horizontally placed mobile phone and rotates 90 degrees, so that the mobile phone is in a vertical state, the feeding mechanical hand puts the mobile phone into a first clamp of the environment testing turntable mechanism, the mobile phone respectively carries out white board testing with different brightness, blackboard testing with different brightness and gray card testing in the environment testing turntable mechanism, the mobile phone transmits a shot image to image analysis software of the terminal through WIFI after testing is completed, and finally the mobile phone on the first clamp of the environment testing turntable mechanism is grabbed by a blanking mechanical hand and put on the blanking conveying line, thereby completing the photographing test of the whole mobile phone camera. To sum up, the utility model discloses can realize automatic unloading of going up, can also realize automatic test to great improvement production efficiency, but also reduced manufacturing cost and reduced workman's intensity of labour.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of the feeding conveyor line of the present invention;

fig. 3 is a schematic perspective view of another view angle of the feeding conveyor line of the present invention;

fig. 4 is a schematic perspective view of the front material blocking device of the present invention;

fig. 5 is a schematic perspective view of the feeding manipulator of the present invention;

FIG. 6 is a schematic perspective view of the environmental testing turntable mechanism of the present invention;

fig. 7 is a schematic perspective view of a first clamp of the present invention;

fig. 8 is a schematic perspective view of the first clamp of the present invention from another perspective;

fig. 9 is a schematic perspective view of a first low-brightness white-plate light source module according to the present invention;

FIG. 10 is a schematic perspective view of the ash environment testing box module of the present invention;

FIG. 11 is a schematic perspective view of another perspective view of the ash environment testing box module of the present invention;

fig. 12 is a schematic perspective view of a first black environment testing box module according to the present invention;

fig. 13 is a schematic perspective view of the feeding manipulator of the present invention;

fig. 14 is a schematic perspective view of another view angle of the feeding manipulator of the present invention;

fig. 15 is a schematic perspective view of the blanking conveying line of the present invention;

fig. 16 is a schematic perspective view of the clamp reflow conveying line of the present invention;

fig. 17 is a schematic perspective view of the elevating connection module of the present invention;

fig. 18 is a schematic perspective view of another view angle of the lifting connection module of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings:

as shown in figure 1, the mobile phone camera shooting test equipment comprises a workbench 1, a feeding conveyor line 2, a feeding manipulator 3, an environment test turntable mechanism 4, a discharging manipulator 5 and a discharging conveyor line 6, the feeding conveying line 2 is arranged on the workbench 1, the feeding manipulator 3 is arranged above the feeding conveying line 2, the environment testing turntable mechanism 4 is arranged at the rear side of the feeding manipulator 3, the blanking conveying line 6 is arranged at the right side of the feeding conveying line 3, the blanking manipulator 3 is arranged above the blanking conveying line 6, the feeding conveying line 2 is used for conveying a mobile phone to be detected to enter the grabbing position of the feeding manipulator 3, the feeding manipulator 3 grabs a mobile phone to be detected and puts the mobile phone into the environment testing turntable mechanism 4 for shooting test, and the blanking manipulator 5 grabs the mobile phone after the test in the environment test turntable mechanism 4 and puts the mobile phone on the blanking conveying line 6 for blanking.

As shown in fig. 2, the feeding conveyor line 2 includes a first belt conveyor 21, a plurality of front material blocking devices 22, a side positioning device 23, a code scanning device 24, and a conveyor line width adjusting device 25, where the plurality of front material blocking devices 22 are respectively disposed in the first belt conveyor 21 and are used for blocking the mobile phone from moving rightward on the first belt conveyor 21, the side positioning device 23 is disposed at the left end of the rear side of the first belt conveyor 21 and is used for positioning the mobile phone entering the first belt conveyor 21, and the code scanning device 24 is disposed at the front side of the first belt conveyor 21 and is used for scanning and networking the mobile phone.

Wherein the side positioner 23 can fix a position the cell-phone that enters into on the material loading transfer chain 2, guarantees that the cell-phone of carrying all carries on the position with one side, makes things convenient for material loading manipulator 3 to snatch.

Should sweep networking two-dimensional code on the sign indicating number cell-phone by yard device 24, then connect WIFI, let the cell-phone be connected with terminal test PC through WIFI, make things convenient for cell-phone and terminal test PC to carry out information transmission.

This transfer chain width adjusting device 25 can make things convenient for people to adjust the distance between two first conveyor belts 211 of first belt conveyors 21 to make material loading transfer chain 2 can carry the cell-phone of different length.

As shown in fig. 3, the first belt conveyor 21 includes a first belt mounting bracket 211, a first conveyor belt 212, a first belt driving motor 213 and a first belt roller 214, the first conveyor belt 212 is mounted on the first belt mounting bracket 211 by the first belt roller 214, and the first belt driving motor 213 can drive the first conveyor belt 212 to convey the mobile phone.

As shown in fig. 4, the front material blocking device 22 includes a first cylinder 222 and a front material blocking plate 221, and the first cylinder 222 can drive the front material blocking plate 221 to move up and down. The front material blocking device 22 is used for blocking the front conveyed mobile phone, so that the feeding manipulator 3 can conveniently grab the mobile phone and place the mobile phone into the environment testing turntable mechanism 4.

As shown in fig. 5, the feeding manipulator 3 includes a feeding XYZ module 31, a first rotary cylinder 32, a feeding jaw 33, and a feeding suction cup 34, the first rotary cylinder 32 is mounted on the feeding XYZ module 31, the feeding jaw 33 is mounted on the first rotary cylinder 32, and the feeding suction cup 34 is mounted on the feeding jaw 33.

As shown in fig. 6, the environmental test turntable mechanism 4 includes a turntable 41, a first fixture 42 and a test module, the first fixture 42 is arranged on the turntable 41 in an annular array, the test module is arranged above the turntable 41 in an annular array corresponding to the first fixture 42, and the turntable 41 can drive the first fixture 42 to rotate to the test module for testing.

As shown in fig. 7, the first fixture 42 includes a rotating plate 421 and two holding portions 422, and the holding portions 422 are arranged on the rotating plate 421 side by side for holding 2 mobile phones, so that a test of two mobile phones at a time can be realized, and the test efficiency can be improved.

As shown in fig. 7, the first chuck 42 further includes a first chuck rotation driving device 423, the first chuck rotation driving device 423 includes a first gear 4231, a second gear 4232, a second rotation cylinder 4233, and a second driving cylinder 4234, the first gear 4231 is disposed at the bottom of the rotation plate 421, the second gear 4232 is disposed on the second rotation cylinder 4233, the second rotation cylinder 4233 can drive the rotation plate 421 to drive the clamping portion 422 to rotate through the second gear 4232 and the first gear 4231, and the second driving cylinder 4234 is disposed at the bottom of the second rotation cylinder 4233 to drive the handpiece to move back and forth. When the mobile phone is located on the turntable 41, it appears that the camera is opposite to the test module, and at this time, the mobile phone can be driven to rotate by the first clamp rotation driving device 423, so that the tested camera of the mobile phone corresponds to the test module.

As shown in fig. 8, the first clamp 42 further includes a first clamp opening device 424, the first clamp opening device 424 includes an opening cylinder 4241 and an opening seat 4242, the opening cylinder 4241 can drive the opening seat 4242 to move back and forth, the clamping portion 422 includes a first clamp plate 4221, a first spring 4222 and a first pull rod 4223, the first pull rod 4223 is connected with the first clamp plate 4221, the first pull rod 4223 can drive the first clamp plate 4221 to move back and forth, and the first spring 4222 is disposed at the rear side of the first clamp plate 4221 and is used for resetting the first clamp plate 4221. The opening seat 4242 of the first clamp opening device 424 is cooperatively connected with the first pull rod 4223 of the clamping portion 422, and the first clamp plate 4221 is moved by dragging the first pull rod 4223, so that the first clamp plate 4221 is loosened, the first clamp plate 4221 does not clamp the mobile phone, and the mobile phone can be taken out of the first clamp plate 4221.

As shown in fig. 6, the test module includes a first low bright white board light source module 431, a first high bright white board light source module 432, a second high bright white board light source module 433, a second low bright white board light source module 434, a second black environment test box module 435, a gray environment test box module 436, and a first black environment test box module 437, which are arranged in an annular array.

As shown in fig. 9, the first low bright white board light source module 431 includes a first white board light source 4311, a second white board light source 4312, a white board mounting bracket 4313 and a white board lifting cylinder 4314, wherein the first white board light source 4311 and the second white board light source 4312 are relatively mounted on the white board mounting bracket 4313, a mobile phone testing area is disposed between the first white board light source 4311 and the second white board light source 4312, and the white board lifting cylinder 4314 can drive the first white board light source 4311 and the second white board light source 4312 to move up and down. During testing, the whiteboard lifting cylinder 4314 can drive the first whiteboard light source 4311 and the second whiteboard light source 4312 to descend, so that the mobile phone is located in a mobile phone testing area between the first whiteboard light source 4311 and the second whiteboard light source 4312 for testing.

As shown in fig. 10 and 11, the dust environment testing box module 436 includes a dust board light source 4361, a dust board mounting frame 4362, a dust board driving motor 4363, a dust board driving belt 4364 and a dust clamping belt roller 4365, the dust board light source 4361 is slidably mounted on the dust board mounting frame 4362, and the dust board driving motor 4363 can drive the dust board light source 4361 to move forward and backward in the dust board mounting frame 4362 to approach the mobile phone through the dust board driving belt 4364 and the dust clamping belt roller 4365, so as to adjust a distance between the dust board light source 4361 and the mobile phone camera.

Further, a handle 4366 is disposed on the gray board light source 4361. The gray plate light source 4361 is convenient for people to detach.

As shown in fig. 12, the first black environment testing box module 437 includes a black box 4371, a black box mounting rack 4372, a black box lifting cylinder 4373 and a black box buffer 4374, wherein the black box 4371 is mounted on the black box mounting rack 4372, the black box lifting cylinder 4373 can drive the black box 4371 to move up and down, and the black box buffer 4374 is disposed at the upper end of the black box mounting rack 4372. During testing, the black box lifting cylinder 4373 can drive the black box 4371 to descend to cover the mobile phone for testing in a black environment.

As shown in fig. 13 and 14, the feeding manipulator 5 includes a feeding XYZ module 51 and a feeding jaw 52, and the feeding jaw 52 is disposed at a lower end of the feeding XYZ module 51. The XYZ module 51 can drive the blanking clamping jaw 52 to move along the directions of the X axis, the Y axis and the Z axis.

As shown in fig. 15, the blanking conveying line 6 includes a second conveying belt 61, a second belt driving motor 62 and a second clamp 63, and the second belt driving motor 62 conveys the second clamp 63 to the right by the second conveying belt 61. The second jig 63 holds the detected mobile phone.

As shown in fig. 15, a second clamp opening device 64 is further provided on the blanking line 6.

The automatic blanking device is characterized by further comprising a clamp backflow conveying line 7 and a clamp backflow lifting connection device 8, the clamp backflow conveying line 7 is arranged at the bottom of the blanking conveying line 6, the clamp backflow lifting connection device 8 is arranged at the left end of the clamp backflow conveying line 7, and the clamp backflow conveying line 7 is connected with the blanking conveying line 6 through the clamp backflow lifting connection device 8.

As shown in fig. 16, the jig reflow-conveying line 7 includes a reflow bracket 71, a reflow front stopper 72, a reflow belt 73, and a reflow belt driving motor 74, the reflow belt 73 is mounted on the reflow bracket 71, the reflow front stopper 72 is disposed between the reflow belts 73, and the reflow belt driving motor 74 can drive the second jig 63 of the reflow belt 73 conveying hole.

As shown in fig. 17, the fixture reflow elevating and docking device 8 includes an elevating and docking conveyor belt 81 and an elevating and docking module 82, and the elevating and docking module 82 can drive the elevating and docking conveyor belt 82 to perform an elevating movement.

As shown in fig. 18, the lifting connection module 82 includes a lifting connection frame 821, a lifting connection guide 822 and a lifting connection cylinder 823, wherein the lifting connection frame 821 is installed on the lifting connection guide 822, and the lifting connection cylinder 823 can drive the lifting connection frame 821 to perform lifting movement.

As shown in fig. 18, the lifting/lowering connection conveyor belt 81 includes a connection conveyor belt 811 and a connection conveyor belt driving motor 812, the lifting/lowering connection conveyor belt 811 conveys the second clamp 63, and the lifting/lowering connection conveyor belt driving motor 812 drives the lifting/lowering connection conveyor belt 811 to drive the second clamp 63 to move back and forth.

The utility model discloses a theory of operation does:

when the device works, a display screen of a mobile phone is placed on the feeding conveying line 2 upwards by a manual or mechanical hand, then the mobile phone is scanned by the feeding conveying line 2 and is connected with a computer of a terminal through WIFI networking, the mobile phone is conveyed to a grabbing position of the feeding mechanical hand 3 by the feeding conveying line 2, then the horizontally placed mobile phone is grabbed by the feeding mechanical hand 3 and is rotated for 90 degrees, so that the mobile phone is in a vertical state, the mobile phone is placed into the first clamp 42 of the environment testing turntable mechanism 4 by the feeding mechanical hand 3, the mobile phone respectively carries out white board testing, blackboard testing and gray card testing with different brightness in the environment testing turntable mechanism 4, the image shot by the mobile phone is transmitted to image analysis software of the terminal through WIFI for image analysis after the testing is completed, finally the mobile phone on the first clamp 42 of the environment testing turntable mechanism 4 is grabbed by the blanking mechanical hand 5 and is placed into the second clamp 63 of the blanking conveying line 5 for blanking, and the empty second clamp 63 after blanking flows back to the blanking conveying line through the clamp backflow conveying line 7 and the clamp backflow lifting connection device 8, so that the photographing test of the whole mobile phone camera is completed. To sum up, the utility model discloses can realize automatic unloading of going up, can also realize automatic test to great improvement production efficiency, but also reduced manufacturing cost and reduced workman's intensity of labour.

The above description is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a cell-phone camera test equipment that shoots which characterized in that: including workstation, material loading transfer chain, material loading manipulator, environmental test carousel mechanism, unloading manipulator and unloading transfer chain, the material loading transfer chain sets up on the workstation, material loading manipulator sets up in material loading transfer chain top, environmental test carousel mechanism sets up the rear side at material loading manipulator, the unloading transfer chain sets up the right side at material loading transfer chain, unloading manipulator sets up in unloading transfer chain top, the material loading transfer chain is used for carrying the cell-phone that waits to detect to enter into the position department that snatchs of material loading manipulator, material loading manipulator snatchs and carries out the test of shooing in the cell-phone that waits to detect puts into environmental test carousel mechanism, the cell-phone after testing in the environmental test carousel mechanism snatchs and puts into the unloading transfer chain and carries out the unloading on.

2. The mobile phone camera photographing test device according to claim 1, wherein: the material loading conveying line comprises a first belt conveying device, a plurality of front material blocking devices, a side positioning device, a code scanning device and a conveying line width adjusting device, wherein the front material blocking devices are arranged in the first belt conveying device respectively and used for blocking a mobile phone to move rightwards on the first belt conveying device, the side positioning device is arranged at the left end of the rear side of the first belt conveying device and used for positioning the mobile phone entering the first belt conveying device, the code scanning device is arranged at the front side of the first belt conveying device, and the code scanning and networking are carried out on the mobile phone.

3. The mobile phone camera photographing test device according to claim 1, wherein: the feeding manipulator comprises a feeding XYZ module, a first rotary cylinder, a feeding clamping jaw and a feeding sucker, wherein the first rotary cylinder is installed on the feeding XYZ module, the feeding clamping jaw is installed on the first rotary cylinder, and the feeding sucker is installed on the feeding clamping jaw.

4. The mobile phone camera photographing test device according to claim 1, wherein: the environment test turntable mechanism comprises a turntable, a first clamp and a test module, wherein the first clamp is arranged on the turntable in an annular array mode, the test module corresponds to the first clamp and is arranged above the turntable in an annular array mode, and the turntable can drive the first clamp to rotate to the test module to test.

5. The mobile phone camera photographing test device according to claim 4, wherein: the first clamp comprises a rotating plate and two clamping parts, and the clamping parts are arranged on the rotating plate side by side and used for clamping the mobile phone.

6. The mobile phone camera photographing test device according to claim 4, wherein: the test module comprises a first low bright white board light source module, a first high bright white board light source module, a second low bright white board light source module, a second black environment test box module, a gray environment test box module and a first black environment test box module which are arranged in an annular array.

7. The mobile phone camera photographing test device according to claim 1, wherein: the unloading manipulator includes unloading XYZ module and unloading clamping jaw, the unloading clamping jaw sets up at unloading XYZ module lower extreme.

8. The mobile phone camera photographing test device according to claim 1, wherein: the unloading transfer chain includes second conveyor belt, second belt driving motor and second anchor clamps, second belt driving motor carries the second anchor clamps through the second conveyor belt and moves right.

9. The mobile phone camera photographing test device according to claim 1, wherein: the automatic blanking device is characterized by further comprising a clamp backflow conveying line and a clamp backflow lifting connection device, the clamp backflow conveying line is arranged at the bottom of the blanking conveying line, the clamp backflow lifting connection device is arranged at the left end of the clamp backflow conveying line, and the clamp backflow conveying line is connected with the blanking conveying line through the clamp backflow lifting connection device.

10. The mobile phone camera photographing test device according to claim 9, wherein: the anchor clamps backward flow transfer chain includes backward flow support, backward flow front material stopper, backward flow belt and backward flow belt driving motor, the backward flow belt is installed on the backward flow support, backward flow front material stopper sets up between the backward flow belt, backward flow belt driving motor can drive the backward flow belt and be rotary motion.

Images