CN210112168U - Automatic testing equipment for mobile phone camera - Google Patents

Abstract

The utility model discloses an automatic test equipment for cell-phone camera, include: the outer box body, the mounting panel that sets up in the outer box body is located mounting panel below, send the leading camera test light source group that is used for supplying the light source of the leading camera test of cell-phone, be located mounting panel top, send the rearmounted camera test light source group that is used for supplying the light source of the rearmounted camera test of cell-phone, and set up and be in XY motion platform on the mounting panel. At least one carrying platform used for bearing the mobile phone is arranged on the XY motion platform, the screen of the mobile phone is placed downwards on the carrying platform, the front camera of the mobile phone is moved to the position above the front camera testing light source group under the moving action of the XY motion platform, and the rear camera of the mobile phone is moved to the position below the rear camera testing light source group, so that the mobile phone is tested correspondingly. This automatic test equipment simple structure, test function is various, further improves efficiency of software testing.

Description

Automatic testing equipment for mobile phone camera

Technical Field

The application relates to the technical field of mobile phone camera testing equipment, in particular to automatic testing equipment for a mobile phone camera.

Background

With the rapid development of science and technology and the continuous improvement of product quality by people, the electronic products are updated more and more rapidly, and the requirements on product detection are higher and higher. As the photographing function becomes an indispensable function of electronic devices such as mobile phones and tablet computers, the photographing quality directly affects the performance of an electronic device, and therefore, the camera of the electronic device needs to be tested before the electronic device leaves a factory.

However, the detection of the existing electronic equipment camera mainly involves manual operation, and has low test efficiency, high production cost and high labor intensity. Some electronic manufacturers gradually become aware of the importance of automated production, and start to develop and improve automation equipment, however, the existing test equipment for testing the cameras of electronic equipment has a complex structure and a single test function, and does not support simultaneous testing of multiple cameras.

SUMMERY OF THE UTILITY MODEL

The application aims at providing the automatic test equipment for the mobile phone camera, which has the advantages of simple structure and diversified test functions, and can test a plurality of mobile phone cameras simultaneously.

The application provides an automatic test equipment for cell-phone camera, include:

an outer case;

the mounting plate is arranged in the outer box body;

the front camera test light source group is positioned below the mounting plate and emits light sources for testing the front camera of the mobile phone;

the rear camera test light source group is positioned above the mounting plate and emits a light source for a rear camera test of the mobile phone;

the XY motion platform is arranged on the mounting plate and used for bearing the mobile phone and moving the borne mobile phone in XY directions to enable the front camera of the mobile phone to move to the position above the front camera testing light source group and enable the rear camera of the mobile phone to move to the position below the rear camera testing light source group; the XY motion stage includes: the device comprises a base plate fixed on the mounting plate, an upper plate arranged on the base plate, at least one carrier arranged on the upper plate, an interactive communication assembly arranged on the side edge of the carrier, an X-axis driving mechanism used for driving the base plate to reciprocate along the X-axis direction, and a Y-axis driving mechanism used for driving the base plate to reciprocate along the Y-axis direction; the interactive communication component is used for realizing interactive communication between the mobile phone and the PC, the screen of the mobile phone is placed on the carrying platform downwards, and a through hole for a light path of a front camera of the mobile phone to pass through is formed in the carrying platform.

Further, the automatic test equipment for cell-phone camera, wherein, the interactive communication subassembly includes: the USB driving cylinder is used for driving the USB male connector to move towards the USB interface of the mobile phone so that the USB male connector is inserted into the USB interface of the mobile phone and is used for driving the USB male connector to move towards the direction far away from the USB interface of the mobile phone so as to be pulled out from the USB interface of the mobile phone.

Further, the automatic test equipment for cell-phone camera, wherein, X axle actuating mechanism includes: the X-axis guide rail is fixed below the upper plate, and the X-axis driving motor is fixed on the upper surface of the bottom plate, and the upper plate is arranged on the X-axis guide rail in a sliding manner; the Y-axis drive mechanism includes: the Y-axis driving motor is arranged on the lower surface of the bottom plate and is used for driving the bottom plate to slide along the Y-axis guide rail; the bottom plate is arranged on the Y-axis guide rail in a sliding mode.

Further, the automatic test equipment for the mobile phone camera, wherein a clamping mechanism is further arranged around the carrier, the clamping mechanism is used for clamping the mobile phone loaded on the carrier, and the automatic test equipment comprises: the mobile phone clamping device comprises a clamping driving cylinder arranged on the side edge of the carrying platform and a clamping block fixed at the end part of a piston rod of the clamping driving cylinder, wherein the clamping driving cylinder is used for driving the clamping block to move towards the mobile phone so as to clamp the mobile phone and move away from the mobile phone so as to loosen the mobile phone.

Further, the automatic test equipment for the mobile phone camera is characterized in that a product detection unit for detecting whether a mobile phone is placed in is further arranged on the carrying platform, and the product detection unit comprises a photoelectric sensor.

Further, the automated testing equipment for mobile phone cameras, wherein the front-facing camera testing light source group comprises: the device comprises a front-shooting brish light source, a front-shooting distance light source and a front-shooting distance light source driving mechanism, wherein the front-shooting distance light source driving mechanism is used for driving the front-shooting distance light source to move back and forth in a direction close to or far away from the mounting plate; the forward-shooting blephish light source is arranged below the mounting plate; the forward-taking distance light source driving mechanism comprises: the lower guide rods are arranged on the lower surface of the mounting plate in the vertical direction, the lower support plate is fixed at one end, away from the mounting plate, of the lower guide rods, the lower fixing plate is slidably arranged on the lower guide rods, and the elevator is arranged below the lower support plate; the forward-shooting distance light source is fixed on the lower fixing plate, and the lower fixing plate is fixed at the output end of the lifter; the lifter is used for driving the lower fixing plate to move back and forth in a direction close to or far away from the mounting plate so as to drive the forward-shooting distance light source to move back and forth.

Further, the automatic test equipment for mobile phone camera, wherein the rear camera test light source group includes: a back-shot INF light source, a back-shot blephish light source and a back-shot 10cm light source; a plurality of upper guide rods are further fixed on the upper surface of the mounting plate in the vertical direction, an upper supporting plate is fixed at one end, away from the mounting plate, of each upper guide rod, an upper fixing plate is further fixed on each upper guide rod, and a connecting piece is further arranged above each upper fixing plate; the rear-camera INF light source is fixed on the upper fixing plate, and the connecting piece is fixed on the top wall in the outer box body; the back-shot blephish light source and the back-shot 10cm light source are both assumed on the mounting plate and are positioned below the back-shot INF light source.

Further, the automated testing equipment for mobile phone camera, wherein, the rear camera test light source still includes: and the light paths of the back-shooting INF light source, the back-shooting blephish light source and the back-shooting 10cm light source are all irradiated to the rear camera of the mobile phone through the relay lens.

Further, the automatic test equipment for the mobile phone camera is characterized in that an openable or closable access door is further arranged on the side face of the outer box body.

Further, the automatic test equipment for the mobile phone camera comprises an outer box body, wherein the outer box body is divided into an upper box body and a lower box body, the access door comprises an upper access door and a lower access door which can be opened or closed, the front of the upper box body is also provided with a display and an operation button, and the side of the upper box body is provided with an upper access door which can be opened or closed; and the side surface of the lower box body is provided with an openable or closable lower access door.

The utility model has the advantages that:

the application provides an automatic test equipment for cell-phone camera, be provided with at least one microscope carrier that bears the weight of the cell-phone on the XY motion platform, the cell-phone screen is placed down on the microscope carrier, and set up rear camera test light source group above XY motion platform, the below sets up leading camera test light source group, design each module layering, through XY motion platform removal in XY direction, make the leading camera of cell-phone remove to the top of leading camera test light source group, make the rear camera of cell-phone remove to the below of rear camera test light source group, thereby carry out corresponding test to the cell-phone. This automatic test equipment simple structure, test function is various, further improves efficiency of software testing.

Drawings

Fig. 1 is a schematic structural diagram of an automated testing apparatus for a mobile phone camera according to the present invention;

FIG. 2 is a schematic structural diagram of the XY motion stage;

fig. 3 is a schematic structural diagram of the front camera test light source group and the rear camera test light source group.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

The application provides an among the automatic test equipment for cell-phone camera, be provided with at least one microscope carrier that bears the weight of the cell-phone on the XY motion platform, the cell-phone screen is placed down on the microscope carrier, and set up rear camera test light source group above XY motion platform, the below sets up leading camera test light source group, design each module layering, through XY motion platform removal in the XY side, make the leading camera of cell-phone remove to the top of leading camera test light source group, make the rear camera of cell-phone remove to the below of rear camera test light source group, thereby carry out corresponding test to the cell-phone. This automatic test equipment simple structure, test function is various, further improves efficiency of software testing.

Referring to fig. 1 to fig. 3, the automated testing device for a mobile phone camera provided by the present application mainly includes: the device comprises an outer box body 1, a mounting plate 11, a rear camera testing light source group, a front camera light source group and an XY motion platform 2.

The outer box 1 is a box structure with an inner cavity, and the bottom of the outer box 1 is provided with casters 10, so that the outer box 1 can be moved conveniently.

In one embodiment, the outer case 1 is divided into an upper case 12 and a lower case 13, the front of the upper case 11 is provided with a display 14 and an operation button 15, the side of the upper case is provided with an openable or closable upper access door 16 to facilitate the inspection or replacement of the test system inside the upper case 12, the side of the mounting plate 11 is further fixed with a keyboard tray 17 for supporting a keyboard, and the keyboard supported on the keyboard tray 17 is used for inputting corresponding operation instructions to perform different test operations. The lower box 13 is internally provided with a processor, a controller, a power supply and other devices. The side of the lower box 13 is also provided with an openable or closable lower access door 18 to facilitate the maintenance or replacement of various devices inside the lower box 13. The aforementioned caster 10 is provided at the bottom of the lower case 13.

The XY motion platform 2 is arranged on the mounting plate 11 and used for bearing the mobile phone and enabling the borne mobile phone to move in the XY directions, so that the front camera of the mobile phone moves to the position above the front camera testing light source group, and the rear camera of the mobile phone moves to the position below the rear camera testing light source group.

As shown in fig. 2, the XY motion stage includes: the mobile phone comprises a bottom plate 21, an upper plate 22, at least one carrier 23, an interactive communication assembly 24, an X-axis driving mechanism and a Y-axis driving mechanism, wherein the at least one carrier 23 is used for carrying a mobile phone, and a mobile phone screen is placed on the carrier 23 in a downward mode. In this embodiment, two stages 23 are provided, and two mobile phones can be tested simultaneously in one test process. Of course, the number of stages 23 may be three, four, etc. according to actual production needs. A through hole 20 for passing through the optical path of the front camera of the mobile phone is also provided on the stage 23, and it can be understood that the through hole 20 passes through the bottom plate 21 and the upper plate 22. The bottom plate 21 is fixedly installed on the installation plate 11, the upper plate 22 is erected on the bottom plate 21, specifically, the bottom plate 21 and the installation plate 11 are fixedly connected through the connection pin 20, the at least one stage 23 is arranged on the upper plate 22, the interactive communication component 24 is arranged on the side edge of the stage 23, and the X-axis driving mechanism is arranged on the upper surface of the bottom plate 21 and used for driving the upper plate 22 to reciprocate along the X-axis direction. A Y-axis drive mechanism is provided on the mounting plate 11 for driving the base plate 21 to reciprocate in the Y-axis direction. The interactive communication component 24 is used for realizing the interactive communication between the mobile phone and the PC so as to analyze various data of the test.

The X-axis drive mechanism includes: an X-axis guide 251 and an X-axis driving cylinder 252, wherein the X-axis guide 251 is fixed below the upper plate 22, the upper plate 22 is slidably disposed on the X-axis guide 251, specifically, an upper plate slider is mounted on the bottom surface of the upper plate 22, and an X-axis driving motor 252 is fixed on the upper surface of the bottom plate 21 and is used for driving the upper plate slider mounted on the bottom surface of the upper plate 22 to slide back and forth along the axial direction of the X-axis guide 251.

The Y-axis drive mechanism includes: the Y-axis guide rail 261 and the Y-axis driving motor, the Y-axis guide rail 261 is installed on the upper surface of the installation plate 11, the bottom plate 21 is slidably arranged on the Y-axis guide rail 261, specifically, a bottom plate slider is installed on the bottom surface of the bottom plate 21, and the Y-axis driving motor is fixed on the bottom plate 21 or the installation plate 11 and is used for driving the bottom plate slider installed on the bottom surface of the bottom plate 21 to slide back and forth along the axis direction of the Y-axis guide rail 261.

As above, the X-axis driving motor 252 and the Y-axis driving motor are both connected to the controller disposed in the lower housing 12, and the XY-motion stage is precisely moved to each light source by the control of the program.

In this application, mounting panel 11 sets up inside outer box 1, and XY motion platform 2 sets up on mounting panel 11, and XY motion platform 2 can remove to the outside of outer box 1 to conveniently place the cell-phone. After the mobile phone is placed on the XY motion stage, the XY motion stage is moved to the inside of the outer case 1. Correspondingly, an opening for the XY motion platform to move out or in is arranged on the outer box body 1.

The interactive communication component 24 includes: the USB male connector is arranged on the end portion of the piston rod of the USB driving cylinder, and the USB male connector is connected with a PC (for example, a processor in the lower box body) so as to analyze the test data. The USB driving cylinder is used for driving the USB male connector to move towards the USB interface of the mobile phone so as to enable the USB male connector to be inserted into the USB interface of the mobile phone, and is used for driving the USB male connector to move towards the direction far away from the USB interface of the mobile phone so as to be pulled out from the USB interface of the mobile phone.

In the application, the mode of realizing the interactive communication between the mobile phone and the PC is a mode of connecting through a USB, and in other embodiments, the interactive communication between the mobile phone and the PC can also be realized through a Bluetooth, an infrared ray, a wifi signal and the like which are arranged in the mobile phone.

In this embodiment, a clamping mechanism 27 for clamping the mobile phone placed on the stage 23 is further provided around the stage 23, and the clamping mechanism 27 includes: the mobile phone clamping device comprises a clamping driving cylinder arranged on the side edge of the carrying platform 23 and a clamping block fixed at the end part of a piston rod of the clamping driving cylinder, wherein the clamping driving cylinder is used for driving the clamping block to move towards the mobile phone to clamp the mobile phone and move away from the mobile phone to loosen the mobile phone.

Further, a product detection unit 28 is further disposed on the stage 23, and is configured to detect whether a mobile phone is placed on the stage 23. The product detection unit 28 comprises in particular a photosensor.

The front camera testing light source group is located below the mounting plate 11 and used for emitting different light sources for testing the front camera of the mobile phone, and the different light sources are irradiated to the front camera of the mobile phone through the movement of the XY motion platform so as to perform corresponding testing on the front camera of the mobile phone.

As shown in fig. 3, the front camera test light source group includes: a forward-shooting brish light source (not shown in the figure), a forward-shooting distance light source 31, and a forward-shooting distance light source driving mechanism 32, the forward-shooting distance light source being disposed below the mounting plate 11, the forward-shooting distance light source driving mechanism 32 including: the lower guide rods 22, the lower support plate 34, the lower fixing plate 35 and the elevator, the lower guide rods 33 are fixed on the lower surface of the mounting plate 11, the lower support plate 34 is arranged at one end, far away from the mounting plate 11, of the lower guide rods 33 to support the lower guide rods 33, the lower fixing plate 35 is slidably arranged on the lower guide rods 33, the lower fixing plate 35 is fixed on the output end of the elevator, the forward-taking distance light source 31 is fixed on the lower fixing plate 35, the elevator is used for providing power for sliding of the lower fixing plate 35 to drive the lower fixing plate 35 to move back and forth in a direction close to or far away from the mounting plate 11, so that the forward-taking distance light source 31 is driven to move back and forth, different distances are reserved between the forward-taking distance light source 31 and the front camera of the mobile phone, and the situation that the forward-taking distance light source 31 is different distances. The front-shooting blephish light source is used for judging whether stains exist in the pictures shot by the front camera of the mobile phone through the PC.

The rear camera testing light source group is positioned above the mounting plate 11 and used for emitting different light sources for testing the rear camera of the mobile phone, and the different light sources are emitted to the rear camera of the mobile phone through the movement of the XY motion platform so as to perform corresponding testing on the rear camera of the mobile phone.

As shown in fig. 3, the rear camera test light source group includes: the mobile phone comprises a post-shooting INF light source 41, a post-shooting blephish light source 42 and a post-shooting 10cm light source 43, wherein the post-shooting INF light source 41 is used for performing chart simulation INF test, and the post-shooting blephish light source 42 is used for judging whether stains exist in pictures shot by a rear camera of the mobile phone through a PC. A plurality of upper guide rods 45 are fixed to the upper surface of the mounting plate 11, an upper support plate 46 is fixed to the other ends of the plurality of upper guide rods 45, an upper fixing plate 47 is fixed to the plurality of upper guide rods 45, a connecting member 48 is fixed to the upper fixing plate 47, the rear-view INF light source 41 is fixed to the upper fixing plate 47, the upper support plate 46 is used for maintaining the stability of the plurality of upper guide rods 45, and the connecting member 48 is fixed to the top wall inside the outer box 11. The back-shooting blephish light source 42 and the back-shooting 10cm light source 43 are both erected on the mounting plate 11 and are both positioned below the back-shooting INF light source 41 and above the motion range of the XY motion platform 2.

Further, for the effect of the long-distance shooting of simulation in department closely, effectual shortening test distance saves equipment fixing space, and this rearmounted camera test light source still includes: and a relay lens 44, wherein the relay lens 44 is erected on the mounting plate 11 and is positioned above the XY moving platform 2. The optical paths of the back-shot INF light source 41, the back-shot blephish light source 42 and the back-shot 10cm light source 43 are all irradiated to the rear camera of the mobile phone through the relay lens 44.

In summary, in the automated testing equipment for a mobile phone camera provided in this embodiment, at least one stage for bearing a mobile phone is arranged on the XY motion platform, a mobile phone screen is placed on the stage downwards, a rear-camera testing light source group is arranged above the XY motion platform, a front-camera testing light source group is arranged below the XY motion platform, each module is designed in a layered manner, and by moving the XY motion platform in the XY direction, the front camera of the mobile phone is moved to above the front-camera testing light source group, and the rear camera of the mobile phone is moved to below the rear-camera testing light source group, so as to perform corresponding tests on the mobile phone. This automatic test equipment simple structure, test function is various, further improves efficiency of software testing.

The foregoing is a more detailed description of the present application in connection with specific embodiments thereof, and it is not intended that the present application be limited to the specific embodiments thereof. For those skilled in the art to which the present application pertains, a number of simple deductions or substitutions can be made without departing from the inventive concept of the present application.

Claims (10)

1. An automated test equipment for cell phone cameras, comprising:

an outer case;

the mounting plate is arranged in the outer box body;

the front camera test light source group is positioned below the mounting plate and emits light sources for testing the front camera of the mobile phone;

the rear camera test light source group is positioned above the mounting plate and emits a light source for a rear camera test of the mobile phone;

the XY motion platform is arranged on the mounting plate and used for bearing the mobile phone and moving the borne mobile phone in XY directions to enable the front camera of the mobile phone to move to the position above the front camera testing light source group and enable the rear camera of the mobile phone to move to the position below the rear camera testing light source group; the XY motion stage includes: the device comprises a base plate fixed on the mounting plate, an upper plate arranged on the base plate, at least one carrier arranged on the upper plate, an interactive communication assembly arranged on the side edge of the carrier, an X-axis driving mechanism used for driving the upper plate to reciprocate along the X-axis direction, and a Y-axis driving mechanism used for driving the base plate to reciprocate along the Y-axis direction; the interactive communication component is used for realizing interactive communication between the mobile phone and the PC, the screen of the mobile phone is placed on the carrying platform downwards, and a through hole for a light path of a front camera of the mobile phone to pass through is formed in the carrying platform.

2. The automated testing equipment for cell phone cameras of claim 1, wherein the interactive communication component comprises: the USB driving cylinder is used for driving the USB male connector to move towards the USB interface of the mobile phone so that the USB male connector is inserted into the USB interface of the mobile phone and is used for driving the USB male connector to move towards the direction far away from the USB interface of the mobile phone so as to be pulled out from the USB interface of the mobile phone.

3. The automated test equipment for cell phone cameras of claim 1, wherein the X-axis drive mechanism comprises: the X-axis guide rail is fixed below the upper plate, and the X-axis driving motor is fixed on the upper surface of the bottom plate, and the upper plate is arranged on the X-axis guide rail in a sliding manner; the Y-axis drive mechanism includes: the Y-axis driving motor is arranged on the lower surface of the bottom plate and is used for driving the bottom plate to slide along the Y-axis guide rail; the bottom plate is arranged on the Y-axis guide rail in a sliding mode.

4. The automated test equipment for a camera of a mobile phone according to claim 1, wherein a clamping mechanism is further arranged around the carrier, the clamping mechanism is used for clamping the mobile phone carried on the carrier, and the automated test equipment comprises: the mobile phone clamping device comprises a clamping driving cylinder arranged on the side edge of the carrying platform and a clamping block fixed at the end part of a piston rod of the clamping driving cylinder, wherein the clamping driving cylinder is used for driving the clamping block to move towards the mobile phone so as to clamp the mobile phone and move away from the mobile phone so as to loosen the mobile phone.

5. The automated testing equipment for the camera of the mobile phone according to claim 4, wherein a product detection unit for detecting whether the mobile phone is put in is further arranged on the carrier, and the product detection unit comprises a photoelectric sensor.

6. The automated test equipment for cell phone cameras of claim 1, wherein the front-facing camera test light source group comprises: the device comprises a front-shooting brish light source, a front-shooting distance light source and a front-shooting distance light source driving mechanism, wherein the front-shooting distance light source driving mechanism is used for driving the front-shooting distance light source to move back and forth in a direction close to or far away from the mounting plate; the forward-shooting blephish light source is arranged below the mounting plate; the forward-taking distance light source driving mechanism comprises: the lower guide rods are arranged on the lower surface of the mounting plate in the vertical direction, the lower support plate is fixed at one end, away from the mounting plate, of the lower guide rods, the lower fixing plate is slidably arranged on the lower guide rods, and the elevator is arranged below the lower support plate; the forward-shooting distance light source is fixed on the lower fixing plate, and the lower fixing plate is fixed at the output end of the lifter; the lifter is used for driving the lower fixing plate to move back and forth in a direction close to or far away from the mounting plate so as to drive the forward-shooting distance light source to move back and forth.

7. The automated test equipment for cell phone cameras of claim 1, wherein the rear camera test light source set comprises: a back-shot INF light source, a back-shot blephish light source and a back-shot 10cm light source; a plurality of upper guide rods are further fixed on the upper surface of the mounting plate in the vertical direction, an upper supporting plate is fixed at one end, away from the mounting plate, of each upper guide rod, an upper fixing plate is further fixed on each upper guide rod, and a connecting piece is further arranged above each upper fixing plate; the rear-camera INF light source is fixed on the upper fixing plate, and the connecting piece is fixed on the top wall in the outer box body; the back-shot blephish light source and the back-shot 10cm light source are both assumed on the mounting plate and are positioned below the back-shot INF light source.

8. The automated test equipment for cell phone cameras of claim 7, wherein the rear camera test light source further comprises: and the light paths of the back-shooting INF light source, the back-shooting blephish light source and the back-shooting 10cm light source are all irradiated to the rear camera of the mobile phone through the relay lens.

9. The automated testing equipment for the camera of the mobile phone according to claim 1, wherein the side surface of the outer box body is further provided with an access door which can be opened or closed.

10. The automated testing equipment for the mobile phone camera according to claim 9, wherein the outer box body is divided into an upper box body and a lower box body, the access door comprises an upper access door and a lower access door which can be opened or closed, the front surface of the upper box body is further provided with a display and an operation button, and the side surface of the upper box body is provided with an upper access door which can be opened or closed; and the side surface of the lower box body is provided with an openable or closable lower access door.

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