CN115037921B - Test platform and test device - Google Patents

Abstract

The embodiment of the application provides a test platform and testing arrangement, this test platform is used for aiming at flash lamp and flash lamp safety cover, this test platform includes first displacement subassembly, second displacement subassembly, first centre gripping subassembly and second centre gripping subassembly at least, first centre gripping subassembly is used for centre gripping flash lamp, second centre gripping subassembly is used for centre gripping flash lamp safety cover, and first centre gripping subassembly is fixed mutually with first displacement subassembly, second centre gripping subassembly is fixed mutually with second displacement subassembly, still include: the lighting device comprises a lighting machine table and a third clamping assembly, wherein the lighting machine table is electrically connected with the flashlight, the third clamping assembly is used for clamping the lighting machine table, and the third clamping assembly is fixed with the first displacement assembly. Like this, can avoid needing among the prior art to make a design the assembly with flash lamp and flash lamp safety cover many times, lead to test cycle overlength's problem.

Description

Test platform and test device

Technical Field

The embodiment of the application relates to the technical field of terminals, in particular to a test platform and a test device.

Background

With the development of smart phones, a camera function is an indispensable function for electronic devices (e.g., mobile phones, tablet computers, etc.), and in order to obtain good image quality and camera effect, the electronic devices are equipped with a plurality of camera modules to provide a wide range of camera functions. The flash lamp is an auxiliary tool with a very wide application, and is one of photographic light sources, and when natural light sources (such as sunlight and the like) or artificial light sources (such as lamplight and the like) of the surrounding environment are insufficient during photographing, the flash lamp becomes a maneuvering light source for making up for the deficiency.

In order to shield the flash lamp, for example, to prevent water from dripping on the flash lamp and affecting the light source of the flash lamp, the flash lamp is generally covered with a flash lamp protecting cover, and the flash lamp protecting cover is generally integrally formed with the battery cover. In the production process, when the flash lamp is tested, the flash lamp and the flash lamp protection covers of different specifications or different manufacturers are often required to be matched for testing the brightness and the uniformity of the flash lamp.

However, in the above solution, if the flash lamp is not tested, the flash lamp and the flash lamp protection cover need to be re-assembled, which easily results in an excessively long test period.

Disclosure of Invention

The embodiment of the application provides a test platform and a test device, can shorten the test cycle after flash lamp and flash lamp safety cover assembly, avoid needing among the prior art to make a design the assembly with flash lamp and flash lamp safety cover many times, lead to the problem of test cycle overlength.

A first aspect of embodiments of the present application provides a test platform for aligning a flash lamp and a flash lamp protection cover, the test platform comprising at least: the device comprises a first displacement assembly, a second displacement assembly, a first clamping assembly and a second clamping assembly; the first clamping assembly is used for clamping the flash lamp and is fixed with the first displacement assembly; the second clamping assembly is used for clamping the flash lamp protection cover and is fixed with the second displacement assembly; further comprising: lightening the machine table and the third clamping assembly; the lighting machine platform is electrically connected with the flash lamp; the third clamping assembly is used for clamping the lighting machine table, and the third clamping assembly is fixed with the first displacement assembly.

The test platform provided by the embodiment of the application can meet the lighting test by fixing the first clamping component for clamping the flash lamp with the first displacement component, fixing the second clamping component for clamping the flash lamp protective cover with the second displacement component, and moving the first displacement component and the second displacement component respectively, so as to realize the alignment of the flash lamp and the flash lamp protective cover.

In one possible implementation, the first clamping assembly includes: a first supporting member and a first fixing member; the first supporting piece is detachably connected with the first fixing piece; the first supporting piece is fixedly connected with the first displacement assembly, a first accommodating cavity is formed between the first supporting piece and the first fixing piece, and at least part of the flash lamp is located in the first accommodating cavity.

The first supporting piece of the first clamping assembly is detachably connected with the first fixing piece of the first clamping assembly, and a first accommodating cavity for accommodating the flash lamp is formed between the first supporting piece and the first fixing piece, so that the flash lamp can be flexibly assembled by disassembling and installing the first supporting piece and the first fixing piece. In addition, the first supporting piece is fixedly connected with the first displacement assembly, and the first clamping assembly can be correspondingly changed in position by moving the first displacement assembly.

In one possible implementation, the flash includes: the flashlight comprises a flashlight body and a circuit board electrically connected with the flashlight body; the circuit board is positioned in the first accommodating cavity and is abutted against the inner wall of the first accommodating cavity; at least part of the flashlight body is located in the first accommodating cavity.

The circuit board through the flash light is located the first holding intracavity that forms between first support piece and the first mounting, and the circuit board of flash light and the inner wall looks butt in first holding intracavity, like this can be more firm injectd the circuit board of flash light in the first holding intracavity, and the at least part of the flash light body through the flash light is located first holding intracavity, reliability and stability when can further promote first support piece and first mounting and carry out the centre gripping to the flash light.

In a possible implementation manner, the shape of the first accommodating cavity is matched with the shape of the flash lamp. The shape of first holding chamber and the shape looks adaptation of flash light can avoid the flash light to take place to rock or remove for first holding chamber for the flash light is more firm in placing of first holding intracavity, can ensure the stability of first centre gripping subassembly when carrying out the centre gripping to the flash light promptly.

In one possible implementation, the second clamping assembly includes: the second supporting piece, the second fixing piece and the third fixing piece are arranged on the base; the second fixing piece is detachably connected with the third fixing piece, and the second supporting piece is detachably connected with at least one of the second fixing piece and the third fixing piece; the second supporting piece is fixedly connected with the second displacement assembly, a second accommodating cavity is formed between the second fixing piece and the third fixing piece, and at least part of the flashlight protection cover is located in the second accommodating cavity.

The second fixing piece of the second clamping assembly is detachably connected with the third fixing piece of the second clamping assembly, and a second accommodating cavity for accommodating the flashlight protection cover is formed between the second fixing piece and the third fixing piece, so that the flashlight protection cover can be flexibly assembled by disassembling and installing the second fixing piece and the third fixing piece. In addition, the second support part is fixedly connected with the second displacement assembly, and the second support part is detachably connected with at least one of the second fixing part and the third fixing part, so that the second clamping assembly can be correspondingly changed in position by moving the second displacement assembly.

In a possible implementation manner, the shape of the second accommodating cavity is matched with the shape of the flash lamp protection cover. The shape of second holding chamber and the shape looks adaptation of flash light safety cover can avoid the flash light safety cover to take place to rock or remove for the second holding chamber for the flash light safety cover is more firm in placing of second holding intracavity, can ensure the stability of second centre gripping subassembly when carrying out the centre gripping to the flash light safety cover promptly.

In one possible implementation, at least a portion of the flash extends into the flash protective cover. At least part through the flash lamp stretches into in the flash lamp safety cover, can make the assembly of flash lamp and flash lamp safety cover accord with the practical application scene more to can satisfy the actual test scene of flash lamp more.

In one possible implementation, the third clamping assembly includes: a third supporting piece and a fourth fixing piece; the third supporting piece is detachably connected with the fourth fixing piece; the third supporting piece is fixedly connected with the first displacement assembly, a first accommodating space is formed in the fourth fixing piece, and at least part of the lighting machine table is located in the first accommodating space.

The third support piece of the third clamping assembly is detachably connected with the fourth fixing piece of the third clamping assembly, and a first accommodating space used for accommodating the lighting machine table is formed in the fourth fixing piece, so that the lighting machine table can be flexibly assembled by disassembling and installing the fourth fixing piece. In addition, the third supporting piece is fixedly connected with the first displacement assembly, and the first displacement assembly can be moved to enable the third clamping assembly to generate corresponding position change.

In one possible implementation, the third clamping assembly further includes: a fifth fixing member; the fifth fixing piece is detachably connected with the fourth fixing piece, and the fifth fixing piece is also detachably connected with the third supporting piece.

Through setting up the fifth mounting, the fifth mounting is located between third support piece and the fourth mounting, and the fifth mounting is connected with third support piece and fourth mounting detachable respectively, can further increase third centre gripping subassembly and assemble the performance.

In one possible implementation, the third clamping assembly is also used for clamping an electronic device prototype with the flash lamp. When the third clamping component clamps the electronic equipment prototype with the flash lamp, the position of the flash lamp protection cover can be conveniently calibrated, so that the assembly between the flash lamp and the flash lamp is more suitable for the application scene when the electronic equipment prototype with the flash lamp is assembled with the flash lamp protection cover.

In one possible implementation manner, the method further includes: the laser positioning instrument and the fourth clamping assembly; the fourth clamping component is used for clamping the laser positioning instrument, and the fourth clamping component is fixed with the second displacement component. Through the fourth centre gripping subassembly that is used for centre gripping laser positioning appearance and the fixed linking to each other of second displacement subassembly, remove the second displacement subassembly and can make fourth centre gripping subassembly take place corresponding position change, therefore can guarantee that laser positioning appearance and flash light safety cover synchronous emergence corresponding position change.

In one possible implementation, the fourth clamping assembly includes: the fourth supporting piece and the sixth fixing piece are arranged on the base; the fourth supporting piece is detachably connected with the sixth fixing piece; the fourth supporting piece is fixedly connected with the second displacement assembly, a second accommodating space is formed between the fourth supporting piece and the sixth fixing piece, and at least part of the laser positioning instrument is located in the second accommodating space.

In one possible implementation manner, the method further includes: a carrier; the first displacement assembly and the second displacement assembly are movably connected with the bearing piece. Through setting up and carrying the thing, first displacement subassembly and second displacement subassembly respectively with carry a thing swing joint, first displacement subassembly and second displacement subassembly can take place position change for carrying the thing respectively, carry the thing and can play the effect that supports and provide the stationarity.

In one possible implementation, the first and second displacement assemblies are three-axis displacement tables. The three-axis displacement platform can realize the position movement in the three directions of the X axis, the Y axis and the Z axis, and has reliable performance and high stability.

In one possible implementation, the three-axis translation stage has an accuracy value of 0.1 μm to 10 μm. The high precision of the three-axis displacement table can ensure that the assembly between the flash lamp and the flash lamp protection cover is more accurate and reliable.

In one possible implementation, the offset between the center of the flash and the center of the flash cover is less than 0.01mm. The offset between the center of the flash lamp and the center of the flash lamp protection cover is controlled, so that the situation that large errors exist in assembly between the flash lamp and the flash lamp protection cover can be avoided, and therefore the situation that the assembly between the flash lamp and the flash lamp protection cover is invalid can be avoided, and the assembly condition of the flash lamp and the flash lamp protection cover in practical application scenes cannot be suitable.

A second aspect of the embodiments of the present application provides a testing apparatus, which at least includes: a test machine and a test platform as described above; the test machine is used for testing the assembling conditions of the flash lamp and the flash lamp protection cover which are installed on the test platform.

The test device provided by the embodiment of the application comprises a test machine table and a test platform, wherein the test machine table is used for testing the assembling condition of a flash lamp and a flash lamp protection cover which are installed on the test platform, the test platform fixes a first clamping component for clamping the flash lamp and a first displacement component, fixes a second clamping component for clamping the flash lamp protection cover and a second displacement component, and can realize the alignment of the flash lamp and the flash lamp protection cover by respectively moving the first displacement component and the second displacement component.

Drawings

Fig. 1 is a schematic overall structure diagram of an electronic device according to an embodiment of the present application;

fig. 2 is a schematic diagram of a split structure of an electronic device according to an embodiment of the present application;

fig. 3 is a schematic view of a splitting structure of a camera module in an electronic device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a flash lamp in an electronic device according to an embodiment of the present disclosure;

fig. 5 is a schematic overall structure diagram of a test platform according to an embodiment of the present application;

FIG. 6 is a schematic cross-sectional view of a test platform according to an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of a first clamping assembly and a second clamping assembly of a testing platform according to an embodiment of the present disclosure;

FIG. 8 is an enlarged view of the first clamping assembly and the second clamping assembly at A of the testing platform shown in FIG. 7;

fig. 9 is a schematic overall structure diagram of a test platform according to an embodiment of the present application;

FIG. 10 is a schematic diagram of a first displacement assembly (i.e., a three-axis displacement stage) in a test platform according to an embodiment of the present disclosure;

fig. 11 is a schematic overall structural diagram of a test platform according to an embodiment of the present disclosure.

Description of reference numerals:

100-a test platform; 10-a first displacement assembly; 101-X axis;

102-Y axis; 103-Z axis; 20-a second displacement assembly;

30-a first clamping assembly; 301-a first support; 302-a first fixture;

303-a first accommodating cavity; 40-a second clamping assembly; 401-a second support;

402-a second mount; 403-a third fixing element; 404-a second accommodating cavity;

50-lighting the machine; 60-a third clamping assembly; 601-a third support;

602-a fourth fixture; 6021-a first accommodating space; 603-a fifth fixing member;

70-laser locator; 80-a fourth clamping assembly; 801-a fourth support;

802-sixth fixture; 803-a second accommodating space; 90-a carrier;

901-a bearing table; 9011-first surface; 9012-second surface;

902-a chassis; 200-an electronic device; 210-a display screen;

220-middle frame; 230-a battery cover; 2301-mounting holes;

240-printed circuit board; 250-a camera module; 251-a lens;

2511-a first light-transmitting hole; 2512-a second light-transmitting hole; 2513-a third light hole;

2514-fourth light hole; 2515-fifth light hole; 252-an optical device;

2521-main camera; 2522-a first secondary camera; 2523-a second secondary camera;

2524-a sensor; 2525-a flash lamp; 2525 a-a flash body;

2525 b-circuit board; 253-camera trim; 2531-a first light-conducting channel;

2532-a second light-conducting channel; 2533-a third light conducting channel; 2534-a fourth light conducting channel;

2535-a fifth light conducting channel; 254-flash lamp protective cover; 2541-a containment cavity;

255-a motherboard bracket; 300-prototype electronic device.

Detailed Description

The terminology used in the description of the embodiments section of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application, which will be described in detail below with reference to the accompanying drawings.

Electronic equipment such as mobile phones and computers are inseparable from our lives, can be seen everywhere in life, and greatly improves the living standard of people.

Referring to fig. 1 and 2, the electronic device 200 generally includes a display screen 210, a middle frame 220, and a battery cover 230, wherein the battery cover 230 and the display screen 210 are respectively connected to two sides of the middle frame 220, and the display screen 210, the middle frame 220, and the battery cover 230 together enclose an accommodating space in which a printed circuit board 240 (shown in fig. 2 or 3), a battery, and other electronic components can be disposed. When the user uses the electronic device 200, the display screen 210 is placed toward the user, and the battery cover 230 is placed away from the user.

The electronic device 200 is further provided with a camera module 250 to realize a shooting function. The camera module 250 includes a lens 251 and an optical device 252, the optical device 252 is fixedly connected to the printed circuit board 240, the lens 251 is fixedly connected to the battery cover 230 and exposed to the external environment of the battery cover 230, so that external light enters the optical device 252 or light emitted from the optical device 252 is transmitted to the external environment.

The optical device 252 may include a camera, a flash, a sensor, and the like, and exemplarily, as shown in fig. 3, the optical device 252 may include a main camera 2521, a first sub camera 2522, a second sub camera 2523, a sensor 2524, and a flash 2525. The main camera 2521 is a camera, such as a super-sensitive main camera, in the camera module 250, which mainly takes a role of shooting. The first sub-camera 2522 and the second sub-camera 2523 may be ultra-wide angle cameras, black and white cameras, depth cameras, macro cameras, and the like, for example, in fig. 3, the first sub-camera 2522 may be an ultra-wide angle camera, and the second sub-camera 2523 may be a macro camera. Set up a plurality of cameras, can be so that electronic equipment 200 can switch different cameras according to the demand when shooing or recording a video, or combine the image of a plurality of cameras to reach better shooting effect. The sensor 2524 may be a laser focusing sensor, a color temperature sensor, a laser emitter, a laser receiver, a distance sensor, etc. to cooperate with the shooting of multiple cameras to improve the shooting effect of the cameras. Specifically, in fig. 3, sensor 2524 may be a laser focus sensor. The flash 2525 is used to illuminate the object to be photographed in an environment with low brightness to assist the camera in completing photographing or recording.

The lens 251 may have a plurality of light holes, and the plurality of light holes and the plurality of optical devices 252 in the camera module 250 are disposed in a one-to-one correspondence manner, so that external light may pass through the light holes to be captured by the optical devices 252 or light emitted by the optical devices 252 may be transmitted to an external environment. For example, a first light transmitting hole 2511, a second light transmitting hole 2512, a third light transmitting hole 2513, a fourth light transmitting hole 2514 and a fifth light transmitting hole 2515 may be provided on the lens 251, which are respectively provided corresponding to the main camera 2521, the first sub camera 2522, the second sub camera 2523, the sensor 2524 and the flash 2525.

The electronic device 200 is further provided with a camera decoration 253, and the camera decoration 253 surrounds the lens 251 to play a role in decorating the camera module 250. Specifically, the battery cover 230 may be provided with a mounting hole 2301, the camera ornament 253 is fixedly mounted in the mounting hole 2301, and a part of the camera ornament 253 extends out of the mounting hole 2301, that is, a part of the camera ornament 253 protrudes relative to the outer surface of the battery cover 230, so that the thickness of the electronic device 200 at the position corresponding to the camera module 250 is higher than the thickness of other positions, thereby increasing the space of the electronic device 200 for accommodating the camera module 250 while meeting the thickness requirement of the whole machine.

Referring to fig. 3, a lens 251 and an optical device 252 are attached to upper and lower sides of a camera garnish 253, respectively. The camera head decoration 253 is provided with a plurality of light guide channels, which are used for accommodating the optical device 252 and transmitting light. Illustratively, the first light guide channel 2531, the second light guide channel 2532, the third light guide channel 2533, the fourth light guide channel 2534 and the fifth light guide channel 2535 are respectively used for accommodating the main camera 2521, the first sub camera 2522, the second sub camera 2523, the sensor 2524 and the flash 2525, and are respectively arranged corresponding to the first light transmission hole 2511, the second light transmission hole 2512, the third light transmission hole 2513, the fourth light transmission hole 2514 and the fifth light transmission hole 2515 on the lens 251.

In addition, a flashlight protective cover 254 may be provided to better shield or protect the flashlight 2525 in order to prevent dust or water from entering the flashlight 2525. When the battery cover 230 is connected to the middle frame 220, the flash 2525 may be embedded in the accommodation cavity of the flash protection cover 254. Specifically, as shown in fig. 4, one end of the flash protection cover 254 is fixed to the printed circuit board 240 through the main board bracket 255, and the end may be provided with a receiving cavity 2541, the receiving cavity 2541 is used for receiving the flash 2525, and the other end of the flash protection cover 254 is used for being clamped on the fifth light guide channel.

It should be noted that the electronic device may include, but is not limited to, a mobile or fixed terminal having a flash lamp 2525, such as a mobile phone, a tablet computer, a notebook computer, an ultra-mobile personal computer (UMPC), a handheld computer, an intercom, a netbook, a Point of sale (POS) machine, a Personal Digital Assistant (PDA), a wearable device, a virtual reality device, a wireless usb disk, a bluetooth audio/headset, or a vehicle-mounted front-end device, a car recorder, a security device, and the like.

In the production process of the electronic device 200, when the flashlight 2525 is tested, the flashlight 2525 often needs to be matched with flashlight shields 254 of different specifications or manufacturers, for example, in the related art, the battery covers 230 corresponding to a plurality of different flashlight shields 254 are marked, and then the flashlight 2525 and the flashlight shields 254 are sampled and assembled, and then sent to a company for manual installation and replacement testing. If the flash 2525 is not tested, the flash 2525 and the flash cover 254 need to be re-proof, which can easily result in an excessively long test cycle.

Based on this, the embodiment of the application provides a test platform, fix first centre gripping subassembly and the first displacement subassembly that will be used for centre gripping flash lamp, fix the second centre gripping subassembly and the second displacement subassembly that will be used for centre gripping flash lamp safety cover, so remove first displacement subassembly and second displacement subassembly respectively and can realize the alignment of flash lamp and flash lamp safety cover, in addition, through setting up the lighting board, lighting board and flash lamp electricity are connected, and will be used for centre gripping third centre gripping subassembly and the first displacement subassembly of lighting board fixed, when the position of first displacement subassembly takes place to remove, lighting board and flash lamp can take place to remove in step, when needing to assemble the test to different flash lamps and different flash lamp safety covers, change the flash lamp safety cover in the first centre gripping subassembly and the flash lamp safety cover in the second centre gripping subassembly, then connect lighting board and the flash lamp electricity in the third centre gripping subassembly, can satisfy lighting test, need not to assemble flash lamp and flash lamp safety cover into appearance the complete machine many times and carry out lighting test, the test cycle after flash lamp and flash lamp safety cover assemble has been shortened to a great extent.

The following describes a specific structure of the test platform and the test apparatus having the test platform in detail with reference to the accompanying drawings.

Referring to fig. 5 and 6, an embodiment of the present disclosure provides a test platform 100, where the test platform 100 is used to align a flash 2525 and a flash shield 254, and the test platform 100 may include at least: the flashlight holder comprises a first displacement assembly 10, a second displacement assembly 20, a first clamping assembly 30 and a second clamping assembly 40, wherein the first clamping assembly 30 is used for clamping the flashlight 2525, the first clamping assembly 30 is fixed with the first displacement assembly 10, the second clamping assembly 40 is used for clamping the flashlight protection cover 254, and the second clamping assembly 40 is fixed with the second displacement assembly 20.

The first clamping assembly 30 for clamping the flashlight 2525 is fixed to the first displacement assembly 10, the second clamping assembly 40 for clamping the flashlight protective cover 254 is fixed to the second displacement assembly 20, so that the first clamping assembly 30 and the second clamping assembly 40 can be moved by moving the first displacement assembly 10 and the second displacement assembly 20 respectively, and then the fit clearance between the first displacement assembly 10 and the second displacement assembly 20 is adjusted, so that the fit relation between the flashlight 2525 and the flashlight protective cover 254 can be synchronously adjusted, and further, the alignment of the flashlight 2525 and the flashlight protective cover 254 can be realized.

As shown with continued reference to fig. 5 and 6, the test platform 100 may further include: a lighting machine 50 and a third clamping assembly 60, wherein the lighting machine 50 is electrically connected to the flashlight 2525, the third clamping assembly 60 is used for clamping the lighting machine 50, and the third clamping assembly 60 is fixed to the first displacement assembly 10.

Specifically, in some embodiments, the lighting stage 50 in the third clamping assembly 60 may be electrically connected to the flashlight 2525 in the first clamping assembly 30 through a wire to enable lighting of the flashlight 2525.

By arranging the lighting machine table 50, the lighting machine table 50 is electrically connected with the flash 2525, the third clamping assembly 60 for clamping the lighting machine table 50 is fixed with the first displacement assembly 10, when the position of the first displacement assembly 10 moves, the lighting machine table 50 and the flash 2525 can move synchronously, when different flashes 2525 and different flash protection covers 254 need to be assembled and tested, the flash 2525 in the first clamping assembly 30 and the flash protection cover 254 in the second clamping assembly 40 are replaced, then the lighting machine table 50 in the third clamping assembly 60 is electrically connected with the flash 2525, the lighting test can be met, the flash 2525 and the flash protection cover 254 do not need to be assembled into a whole machine for lighting test for multiple times, and the test period after the flash 2525 and the flash protection covers 254 are assembled is greatly shortened.

Compared with the mode that a plurality of electronic equipment prototypes are adopted for assembling for a plurality of times and are returned to a factory for testing in the prior art, the method and the device for testing the electronic equipment prototypes can save the using number of the electronic equipment prototypes and improve the testing efficiency of the assembling of the flash lamp 2525 and the flash lamp protective cover 254.

Referring to fig. 7 and 8, in the embodiment of the present application, the first clamping assembly 30 may include: the first supporting member 301 and the first fixing member 302 are detachably connected, the first supporting member 301 is fixedly connected with the first displacement assembly 10, a first accommodating cavity 303 (see fig. 8) is formed between the first supporting member 301 and the first fixing member 302, and at least a portion of the flashlight 2525 is located in the first accommodating cavity 303.

The first supporting member 301 of the first clamping assembly 30 is detachably connected to the first fixing member 302 of the first clamping assembly 30, and a first accommodating cavity 303 for accommodating the flashlight 2525 is formed between the first supporting member 301 and the first fixing member 302, so that the flashlight 2525 can be flexibly assembled by detaching and installing the first supporting member 301 and the first fixing member 302. In addition, the first support 301 is fixedly connected to the first displacement assembly 10, and the first clamping assembly 30 can be correspondingly changed in position by moving the first displacement assembly 10.

In the embodiment of the present application, as shown in fig. 8, the flash 2525 may include: the flashlight body 2525a and a circuit board 2525b electrically connected to the flashlight body 2525a, the circuit board 2525b is located in the first receiving cavity 303 and abuts against an inner wall of the first receiving cavity 303, and at least a portion of the flashlight body 2525a is located in the first receiving cavity 303.

The circuit board 2525b of the flash 2525 is located in the first accommodating cavity 303 formed between the first support member 301 and the first fixing member 302, and the circuit board 2525b of the flash 2525 is in contact with an inner wall of the first accommodating cavity 303, so that the circuit board 2525b of the flash 2525 can be more stably defined in the first accommodating cavity, and the reliability and stability of the first support member 301 and the first fixing member 302 in clamping the flash 2525 can be further improved by locating at least part of the flash body 2525a of the flash 2525 in the first accommodating cavity 303.

In the present embodiment, the shape of the first accommodating cavity 303 is adapted to the shape of the flash lamp 2525. The shape of the first receiving cavity 303 is adapted to the shape of the flash lamp 2525, so that the flash lamp 2525 can be prevented from shaking or moving relative to the first receiving cavity 303, and the flash lamp 2525 can be more stably placed in the first receiving cavity 303, i.e., the stability of the first clamping assembly 30 in clamping the flash lamp 2525 can be ensured.

As shown in fig. 7 and 8, in the embodiment of the present application, the second clamping assembly 40 may include: the flashlight protection cover comprises a second supporting piece 401, a second fixing piece 402 and a third fixing piece 403, wherein the second fixing piece 402 is detachably connected with the third fixing piece 403, the second supporting piece 401 is detachably connected with at least one of the second fixing piece 402 and the third fixing piece 403, the second supporting piece 401 is fixedly connected with the second displacement assembly 20, a second accommodating cavity 404 (shown in fig. 8) is formed between the second fixing piece 402 and the third fixing piece 403, and at least part of the flashlight protection cover 254 is located in the second accommodating cavity 404.

The second fixing part 402 of the second clamping assembly 40 is detachably connected with the third fixing part 403 of the second clamping assembly 40, and a second accommodating cavity 404 for accommodating the flash lamp protection cover 254 is formed between the second fixing part 402 and the third fixing part 403, so that the flash lamp protection cover 254 can be flexibly assembled by detaching and installing the second fixing part 402 and the third fixing part 403. In addition, the second support 401 is fixedly connected to the second displacement assembly 20, and the second support 401 is detachably connected to at least one of the second fixing part 402 and the third fixing part 403, so that the second clamping assembly 40 is correspondingly changed in position by moving the second displacement assembly 20.

In some embodiments, the shape of the second receiving cavity 404 may be adapted to the shape of the flash protection cover 254. The shape of the second accommodating cavity 404 is matched with the shape of the flash lamp protection cover 254, so that the flash lamp protection cover 254 can be prevented from shaking or moving relative to the second accommodating cavity 404, the flash lamp protection cover 254 can be placed in the second accommodating cavity 404 more stably, and the stability of the second clamping assembly 40 in clamping the flash lamp protection cover 254 can be ensured.

It can be understood that, in the embodiment of the present application, the adjustment and replacement of the cavity shapes of the second receiving cavity 404 in the second displacement assembly 20 and the first receiving cavity 303 in the first clamping assembly 30 can adapt to the flash lamp test requirements in more electronic equipment items.

In an embodiment of the present application, at least a portion of the flash 2525 may extend into the flash shroud 254. By extending at least a portion of the flash 2525 into the flash protection cover 254, the assembly of the flash 2525 and the flash protection cover 254 can be more suitable for practical applications, and thus, the practical test scenario of the flash 2525 can be more satisfied.

In addition, in the embodiment of the present application, as shown in fig. 6, the third clamping assembly 60 may include: the third supporting member 601 is detachably connected to the fourth fixing member 602, the third supporting member 601 is fixedly connected to the first displacement assembly 10, a first accommodating space 6021 (see fig. 6) is formed on the fourth fixing member 602, and at least a portion of the lighting apparatus stand 50 is located in the first accommodating space 6021.

The third supporting member 601 of the third clamping assembly 60 is detachably connected to the fourth fixing member 602 of the third clamping assembly 60, and the fourth fixing member 602 forms the first accommodating space 6021 for accommodating the lighting apparatus 50, so that the lighting apparatus 50 can be flexibly assembled by detaching and installing the fourth fixing member 602. In addition, the third supporting member 601 is fixedly connected to the first displacement assembly 10, and the first assembly is moved to change the position of the third clamping assembly 60 accordingly.

In the embodiment of the present application, the third clamping assembly 60 may further include: the fifth fixing element 603, the fifth fixing element 603 and the fourth fixing element 602 are detachably connected, and the fifth fixing element 603 is further detachably connected with the third supporting element 601.

By providing the fifth fixing member 603, the fifth fixing member 603 is located between the third supporting member 601 and the fourth fixing member 602, and the fifth fixing member 603 is detachably connected to the third supporting member 601 and the fourth fixing member 602, respectively, the assembling performance of the third clamping assembly 60 can be further increased.

In this embodiment, referring to fig. 5 or fig. 6, the test platform 100 may further include: laser locator 70 and fourth centre gripping subassembly 80, fourth centre gripping subassembly 80 are used for centre gripping laser locator 70, and fourth centre gripping subassembly 80 is fixed mutually with second displacement assembly 20. Through the fact that the fourth clamping assembly 80 used for clamping the laser positioning instrument 70 is fixedly connected with the second displacement assembly 20, the fourth clamping assembly 80 can be correspondingly changed in position by moving the second displacement assembly 20, and therefore the laser positioning instrument 70 and the flash lamp protection cover 254 can be guaranteed to be synchronously changed in position correspondingly.

Specifically, as shown in fig. 6, in the embodiment of the present application, the fourth clamping assembly 80 may include: the fourth supporting element 801 and the sixth fixing element 802 are detachably connected, the fourth supporting element 801 and the sixth fixing element 802 are fixedly connected, the fourth supporting element 801 is fixedly connected with the second displacement assembly 20, a second accommodating space 803 (see fig. 5) is formed between the fourth supporting element 801 and the sixth fixing element 802, and at least a portion of the laser locator 70 is located in the second accommodating space 803.

In addition, referring to fig. 9, in an embodiment of the present application, the test platform 100 may further include: the carrier 90, the first displacement assembly 10 and the second displacement assembly 20 are movably connected to the carrier 90. By providing the supporting member 90, the first displacement assembly 10 and the second displacement assembly 20 are movably connected to the supporting member 90, the first displacement assembly 10 and the second displacement assembly 20 can be changed in position relative to the supporting member 90, and the supporting member 90 can support and provide stability.

Specifically, in the present embodiment, the structure of the supporting member 90 may include, but is not limited to, the following two possible implementations:

one possible implementation is: as shown in fig. 5, the carrier 90 includes a carrier table 901, the carrier table 901 may have a first surface 9011 and a second surface 9012 opposite to the first surface 9011, wherein the first displacement assembly 10 and the second displacement assembly 20 may be movably connected to the first surface 9011 of the carrier table 901. In practical application scenarios, the second surface 9012 of the carrier 901 may be disposed on the ground or a desktop.

Another possible implementation is: as shown in fig. 9, the carrier 90 may include a carrier 901 and a chassis 902 connected to the carrier 901, wherein the carrier 901 may have a first surface 9011 and a second surface 9012 opposite to the first surface 9011, wherein the first displacement assembly 10 and the second displacement assembly 20 may be movably connected to the first surface 9011 of the carrier 901, and the second surface 9012 of the carrier 901 is connected to the chassis 902. In practical application scenarios, the end of the chassis 902 facing away from the plummer 901 may be disposed on the ground or on a desktop.

In the present embodiment, the first displacement assembly 10 and the second displacement assembly 20 may be three-axis displacement tables. The three-axis displacement platform can realize the position movement in the three directions of X axle, Y axle and Z axle, and the dependable performance and stability are high.

Specifically, referring to fig. 10, taking the first displacement assembly 10 as a three-axis displacement table as an example, the first displacement assembly 10 may include an X-axis 101, a Y-axis 102, and a Z-axis 103, and the first displacement assembly 10 may move along the X-axis 101, the Y-axis 102, and the Z-axis 103 at any position. Therefore, by adjusting the three-axis displacement table, application scenes in various assembly tolerances in three-coordinate directions can be covered, different installation conditions of a test production line are met, and the consistency of the photographing effect of the flash lamp 2505 can be ensured.

In the embodiments of the present application, the three-axis stage may have a precision value of 0.1 μm to 10 μm. Illustratively, the precision of the three-axis displacement stage may be 0.3 μm, 0.4 μm, 0.5 μm, 0.6 μm, 0.7 μm, etc., which is not limited by the embodiments of the present application. The high precision of the three-axis translation stage ensures more accurate and reliable assembly between the flash 2525 and the flash shield 254.

Moreover, by adjusting the three-axis displacement table and the laser positioning instrument 70, accurate eccentric calibration can be performed in the assembling process, and the concentricity is obviously improved.

In one possible implementation, the offset between the center of the flash 2525 and the center of the flash shroud 254 may be less than 0.01mm. For example, the offset between the center of the flash 2525 and the center of the flash cover 254 may be 0.002mm, 0.004mm, 0.006mm, 0.008mm, etc., which is not limited by the embodiments of the present application. Controlling the offset between the center of the flash 2525 and the center of the flash cover 254 can avoid a large error in the assembly between the flash 2525 and the flash cover 254, and can avoid an ineffective assembly between the flash 2525 and the flash cover 254, which cannot be applied to the assembly conditions of the flash 2525 and the flash cover 254 in a practical application scene.

It should be noted that the numerical values and numerical ranges referred to in this application are approximate values, and there may be some error due to the manufacturing process, and the error may be considered to be negligible by those skilled in the art.

It should be noted that, as shown in fig. 11, in the embodiment of the present application, the third clamping assembly 60 can also be used for clamping the electronic device prototype 300 with the flashlight 2525. When the third clamping assembly 60 clamps the electronic device prototype 300 with the flash 2525, the position of the flash protective cover 254 can be easily calibrated, so that the assembly between the flash 2525 and the flash 2525 is more suitable for the application scenario when the electronic device prototype 300 with the flash 2525 is assembled with the flash protective cover 254.

The operation principle and the operation steps of the test platform 100 are described herein.

First, the test platform 100 is initially positioned. In the initial positioning state, the mounting state of the test platform 100 is shown in fig. 11. In comparison with the installation state shown in fig. 5, the test platform 100 in fig. 11 removes the first clamping assembly 30, and then rotates the third clamping assembly 60 by 180 degrees, so that the third clamping assembly 60, the second clamping assembly 40 and the fourth clamping assembly 80 form the installation state shown in fig. 11. At this time, the laser positioning instrument 70 is provided with an aligned center line, the electronic device model 300 with the flash lamp 2525 is positioned in the third clamping assembly 60, and the center of the flash lamp 2525 of the electronic device model 300 is aligned with the center line by adjusting the position of the electronic device model 300, so that the flash lamp 2525 and the flash lamp protective cover 254 which are independent in the later period can be consistent with the electronic device model 300 during testing, and the initial positioning only needs to be performed once.

After the initial positioning is completed, the second displacement assembly 20, the second clamping assembly 40 and the fourth clamping assembly 80 fixed to the second displacement assembly 20 are kept still, the electronic device prototype 300 is removed from the third clamping assembly 60, the third clamping assembly 60 is rotated 180 degrees to the state shown in fig. 5, the lighting machine 50 is assembled on the third clamping assembly 60, and at the same time, the first clamping assembly 30 provided with the single flashlight 2525 is also installed on the first displacement assembly 10. Then, the positions of the first and second displacement assemblies 10 and 20 are adjusted so that the sides of the first and second clamp assemblies 30 and 40 are aligned to ensure the center alignment of the flash 2525 and the flash protective cover 254.

Then, the flash 2525 is electrically connected to the lighting machine 50, and after the flash 2525 is lit by the lighting machine 50, the assembly conditions of the flash 2525 and the flash protection cover 254 may be actually tested, specifically, the flash 2525 and the flash protection covers 254 of a plurality of different manufacturers or different specifications may be traversed through respectively, and the positions of the first displacement assembly 10 and the second displacement assembly 20 may be adjusted to achieve the test effect under different assembly tolerance conditions.

In addition, an embodiment of the present application further provides a testing apparatus, which may include at least: the testing machine is used for testing the assembling condition of the flashlight 2525 and the flashlight protective cover 254 installed on the testing platform 100.

The testing device provided by the embodiment of the application at least comprises a testing machine table and a testing platform 100, wherein the testing machine table is used for testing the assembling condition of a flash 2525 and a flash protective cover 254 which are installed on the testing platform 100, the testing platform 100 can realize the alignment of the flash 2525 and the flash 2525 by fixing a first clamping component 30 and a first displacement component 10 which are used for clamping the flash 2525 and fixing a second clamping component 40 and a second displacement component 20 which are used for clamping the flash protective cover 254, so that the first displacement component 10 and the second displacement component 20 are respectively moved, in addition, by arranging the lighting machine table 50, the lighting machine table 50 is electrically connected with the flash 2525, and a third clamping component 60 and a first displacement component 10 which are used for clamping the lighting machine table 50 are fixed, when the position of the first displacement component 10 is moved, the lighting machine table 50 and the flash 2525 can be simultaneously moved, when different flash 2525 and different flash protective covers 254 need to be assembled and tested, the lighting machine table 30 and the second clamping component 254 can be replaced, the flash 2525 and the flash protective cover 254 can be assembled together, and the testing platform 100 can be assembled on the flash protective cover 2525 without testing machine table, and the flash protective cover 2525, and the flash protective cover 254 can be assembled for testing, and the flash can be assembled for testing the flash 2525.

In the description of the embodiments of the present application, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, a fixed connection, an indirect connection via an intermediary, a connection between two elements, or an interaction between two elements. The specific meanings of the above terms in the embodiments of the present application can be understood by those of ordinary skill in the art according to specific situations.

Reference throughout this specification to apparatus or components, in embodiments or applications, means or components must be constructed and operated in a particular orientation and therefore should not be construed as limiting the present embodiments. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically stated otherwise.

The terms "first," "second," "third," "fourth," and the like in the description and claims of the embodiments of the application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be implemented, for example, in sequences other than those illustrated or described herein. Moreover, the terms "may include" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the embodiments of the present application, and not for limiting the same, and although the embodiments of the present application are described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: it is to be understood that modifications may be made to the technical solutions described in the foregoing embodiments, or some or all of the technical features may be equivalently replaced, and the modifications or the replacements may not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (17)

1. A test platform for aligning a flash lamp with a flash lamp protective cover, the test platform comprising at least:

the device comprises a first displacement assembly, a second displacement assembly, a first clamping assembly and a second clamping assembly;

the first clamping assembly is used for clamping the flash lamp and is fixed with the first displacement assembly;

the second clamping assembly is used for clamping the flash lamp protection cover and is fixed with the second displacement assembly;

further comprising: lightening the machine table and the third clamping assembly; the lighting machine platform is electrically connected with the flash lamp;

the third clamping assembly is used for clamping the lighting machine table, and the third clamping assembly is fixed with the first displacement assembly.

2. The test platform of claim 1, wherein the first clamping assembly comprises: a first supporting member and a first fixing member;

the first supporting piece is detachably connected with the first fixing piece;

the first supporting piece is fixedly connected with the first displacement assembly, a first accommodating cavity is formed between the first supporting piece and the first fixing piece, and at least part of the flashlight is located in the first accommodating cavity.

3. The test platform of claim 2, wherein the flash comprises: the flashlight comprises a flashlight body and a circuit board electrically connected with the flashlight body;

the circuit board is positioned in the first accommodating cavity and is abutted against the inner wall of the first accommodating cavity;

at least part of the flashlight body is located in the first accommodating cavity.

4. The test platform of claim 2, wherein the first receiving cavity has a shape that matches a shape of the flash lamp.

5. The test platform of any one of claims 1-4, wherein the second clamping assembly comprises: the second supporting piece, the second fixing piece and the third fixing piece;

the second fixing piece is detachably connected with the third fixing piece, and the second supporting piece is detachably connected with at least one of the second fixing piece and the third fixing piece;

the second support piece is fixedly connected with the second displacement assembly, a second accommodating cavity is formed between the second fixing piece and the third fixing piece, and at least part of the flash lamp protection cover is located in the second accommodating cavity.

6. The test platform of claim 5, wherein the shape of the second receiving cavity is adapted to the shape of the flash lamp protection cover.

7. The test platform of any one of claims 1-4, wherein at least a portion of the flash lamp extends into the flash lamp protective cover.

8. The test platform of any one of claims 1-4, wherein the third clamping assembly comprises: a third supporting piece and a fourth fixing piece;

the third supporting piece is detachably connected with the fourth fixing piece;

the third supporting piece is fixedly connected with the first displacement assembly, a first accommodating space is formed in the fourth fixing piece, and at least part of the lighting machine table is located in the first accommodating space.

9. The test platform of claim 8, wherein the third clamping assembly further comprises: a fifth fixing member;

the fifth fixing piece is detachably connected with the fourth fixing piece, and the fifth fixing piece is also detachably connected with the third supporting piece.

10. The test platform of claim 8, wherein the third clamping assembly is further configured to clamp a prototype of an electronic device having the flash.

11. The test platform of claim 8, further comprising: the laser positioning instrument and the fourth clamping assembly;

and the fourth clamping component is used for clamping the laser locator, and is fixed with the second displacement component.

12. The test platform of claim 11, wherein the fourth clamping assembly comprises: a fourth supporting member and a sixth fixing member;

the fourth supporting piece is detachably connected with the sixth fixing piece;

the fourth supporting piece is fixedly connected with the second displacement assembly, a second accommodating space is formed between the fourth supporting piece and the sixth fixing piece, and at least part of the laser positioning instrument is located in the second accommodating space.

13. The test platform of any one of claims 1-4, further comprising: a carrier; the first displacement assembly and the second displacement assembly are movably connected with the bearing piece.

14. The test platform of any one of claims 1-4, wherein the first displacement assembly and the second displacement assembly are three-axis displacement tables.

15. The test platform of claim 14, wherein the three-axis translation stage has a precision value of 0.1 μ ι η to 10 μ ι η.

16. The test platform of any one of claims 1-4, wherein an offset between a center of the flash and a center of the flash shield is less than 0.01mm.

17. A test device, characterized by comprising at least: a test machine and a test platform according to any one of claims 1 to 16;

the test machine platform is used for testing the assembling conditions of the flash lamp and the flash lamp protection cover which are arranged on the test platform.

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