CN203554618U - Test equipment used for image test on electronic device - Google Patents

Abstract

The utility model discloses test equipment used for image test on an electronic device. The test equipment comprises a division board, a sliding mechanism, a carrier board, a first black board member and a first white board member, wherein a test opening hole is formed on the division board; the sliding mechanism is arranged on the division board in a sliding mode; the carrier board is arranged on the sliding mechanism and is used for carrying an electronic device, and when the sliding mechanism drives the carrier plate and the electronic device to move relatively to the division board to the test position, a first shooting module of the electronic device is aligned to the test opening hole; the first black board member is movably arranged on the division board, and the first black board member is used to enable the first shooting module to capture a black image corresponding to the first black board member for bright spot detection when the first shooting module is aligned to the test opening hole; and the first white board member is movably arranged on the division board, and the first white board member is used to enable the first shooting module to capture a white image corresponding to the first white board member for dark spot detection when the first shooting module is aligned to the test opening hole. According to the test equipment used for image test on an electronic device, manpower demands are few, time and labor are saved, and the test cost is saved.

Description

Be used for electronic installation to carry out the testing equipment of image test

Technical field

The utility model relates to a kind of testing equipment, espespecially a kind of testing equipment that is used for electronic installation to carry out image test.

Background technology

Recently, intelligent mobile phone and flat computer become instrument indispensable in daily life gradually, be used for processing the affairs of various daily lifes, for example converse, take pictures, executive utility etc., wherein consumer increases day by day to the demand of camera function, for asking constant product quality, when manufacturing, can carry out a series of image test to the camera module of intelligent mobile phone or flat computer (camera module), such as white balance correction, dim spot detection or bright spot detection etc.

On production line, the manual mode of above-mentioned image test utilization moves to image test instrument (such as white balance correction plate, Hei Ka or Bai Ka etc.) before the camera module of intelligent mobile phone or flat computer, then drive camera module to capture the image of those testing tools, then according to this image, camera module is proofreaied and correct.In practice, above-mentioned image test carries out at different work stations respectively, and therefore manpower demand is larger, and product is tested and expended more man-hour between different operating station.In addition, different work stations all needs cable using the data transmission medium instrument as image test, thereby causes testing cost to increase, and is unfavorable for the competitiveness of product on market.

Therefore, need to provide a kind of testing equipment that is used for electronic installation to carry out image test to address the above problem.

Utility model content

Therefore, the utility model provides a kind of testing equipment that is used for electronic installation to carry out image test, to address the above problem.

In order to achieve the above object, the utility model discloses a kind of testing equipment that is used for an electronic installation to carry out image test, and this testing equipment comprises: a dividing plate, a slide mechanism, a support plate, one first black clamp part and one first white clamp part; On this dividing plate, be formed with a test perforate; This slide mechanism is slidably installed on this dividing plate; This support plate is installed on this slide mechanism, and this support plate is used for carrying this electronic installation, and when this slide mechanism drives this support plate and relative this dividing plate of this electronic installation to move to a test position, one first camera module of this electronic installation is aimed at this test perforate; This first black clamp part is installed on this dividing plate in mobilizable mode, and this first black clamp part is used for when this first camera module is aimed at this test perforate, for the acquisition of this first camera module, to a shadow picture that should the first black clamp part, for bright spot, detects; This first white clamp part is installed on this dividing plate in mobilizable mode, and this first white clamp part is used for when this first camera module is aimed at this test perforate, for the acquisition of this first camera module, to a white image that should the first white clamp part, for dim spot, detects.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes a white balance correction plate, it is installed on this dividing plate movably, this white balance correction plate is used for when this first camera module is aimed at this test perforate, for the acquisition of this first camera module to a image that should white balance correction plate, for white balance correction.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes a correcting plate cylinder, one black clamp cylinder and a white clamp cylinder, this correcting plate cylinder is connected in this white balance correction plate and this dividing plate, this correcting plate cylinder is used for driving this white balance correction plate to this test tapping that aligns, this black clamp cylinder is connected in this first black clamp part and this dividing plate, this black clamp cylinder is used for driving this first black clamp part to this test tapping that aligns, this white clamp cylinder is connected in this first white clamp part and this dividing plate, this white clamp cylinder is used for driving this first white clamp part to this test tapping that aligns.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes an image test tabula rasa, it is arranged at the side of this dividing plate in contrast to this support plate, and this image test tabula rasa is used for emitting beam to this first camera module when this first camera module is aimed at this test perforate.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes a lens component, it is installed between this dividing plate and this image test tabula rasa movably, and the light that this image test tabula rasa sends enters this first camera module via this lens component.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes a lens cylinder, and it is connected in this lens component and this dividing plate, and this lens cylinder is used for driving this lens component to this test tapping that aligns.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes a distance adjusting mechanism, it connects this image test tabula rasa and this dividing plate, and this distance adjusting mechanism is used for adjusting this image test tabula rasa distance of this dividing plate relatively.

According to one of them execution mode of the present utility model, the utility model also discloses this distance adjusting mechanism and includes a supporting plate and multiple column, this supporting plate is used for this image test tabula rasa of breasting, and multiple columns are formed with respectively multiple screws, and the plurality of screw is used for solid this supporting plate of spiral shell.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes a light sensing component, it is arranged at the side of this separator face to this image test tabula rasa, and this light sensing component is used for responding to the light that this image test tabula rasa sends.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes one second black clamp part and one second white clamp part, this second black clamp part is installed on this dividing plate movably, this second black clamp part is used for when this slide mechanism drives this support plate and this electronic installation to this test position, for one second camera module acquisition of this electronic installation to a shadow picture that should the second black clamp part, for bright spot, detect, this second white clamp part is installed on this dividing plate movably, this second white clamp part is used for when this slide mechanism drives this support plate and this electronic installation to this test position, for the acquisition of this second camera module to a white image that should the second white clamp part, for dim spot, detect.Wherein this first camera module and this second camera module are arranged at respectively the two opposite sides of this electronic installation, and a display module of this second camera module and this electronic installation is arranged at the same side.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes one first clamp driving cylinder and one second clamp driving cylinder, this first clamp drives cylinder to be connected in this second black clamp part and this dividing plate, this first clamp drives cylinder to be used for driving this second black clamp part to should the second camera module place, this second clamp drives cylinder to be connected in this second white clamp part and this dividing plate, and this second clamp driving cylinder is used for driving this second white clamp part extremely to should the second camera module place.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes an image measurement tabula rasa, and it is arranged at the side of this separator face to this support plate, and this image measurement tabula rasa is used for emitting beam to this second camera module.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes an image capturing mechanism, it is installed between this dividing plate and this image measurement tabula rasa, this image capturing mechanism is used for, when this slide mechanism drives this support plate and this electronic installation to this test position, capturing the image that this display module presents.

According to one of them execution mode of the present utility model, the utility model also discloses this image capturing mechanism and includes a revolving cylinder, one image-pickup assembly, one first adjutage part and one second adjutage part, this revolving cylinder is fixedly arranged on this dividing plate, this image-pickup assembly is used for capturing the image that this display module presents, this the first adjutage part is connected in this revolving cylinder, this the second adjutage part is connected in this image-pickup assembly, this the second adjutage part can move relative to this first adjutage part, to adjust the distance between this image-pickup assembly and this revolving cylinder, wherein this revolving cylinder is used for driving this first adjutage part and the rotation of this second adjutage part, to drive this image-pickup assembly to this display module top.

According to one of them execution mode of the present utility model, the utility model also discloses this slide mechanism and includes a framework and framework driving cylinder, this framework is installed on this dividing plate in mobilizable mode, this framework drives cylinder to be connected in this dividing plate and this framework, and this framework drives cylinder to be used for driving this framework to move relative to this dividing plate.

According to one of them execution mode of the present utility model, the utility model also discloses this slide mechanism and also includes an assembled plate and assembled plate driving cylinder, this assembled plate is slidably installed on this framework, wherein this support plate is assembled in this assembled plate removably, this assembled plate drives cylinder to be connected in this assembled plate and this framework, and this assembled plate drives cylinder to be used for driving this assembled plate to move relative to this framework.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes multiple position blocks and be removably installed on this support plate, the plurality of position block is used for being sticked in the side of this electronic installation, to locate this electronic installation on this support plate.

According to one of them execution mode of the present utility model, the utility model also discloses this support plate and is formed with multiple location holes, and it is used for fixing respectively each position block on this support plate.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes a bearing frame, and it is used for carrying this dividing plate.

According to one of them execution mode of the present utility model, the utility model also discloses this testing equipment and also includes multiple side plates, and it is installed on this bearing frame, with around this dividing plate, this first black clamp part and this first white clamp part.

In sum, the utility model is arranged at black clamp part, white clamp part, white balance correction plate, image test tabula rasa and image measurement tabula rasa respectively on the support plate of testing equipment, recycling slide mechanism drives electronic installation to test position, for black clamp part, white clamp part, white balance correction plate image test tabula rasa and image measurement tabula rasa, electronic installation is carried out respectively to bright spot test, dim spot test, white balance correction and image test.Thus, above-mentioned image test all can carry out in testing equipment, manpower demand is less, and product can carry out above-mentioned image test in same testing equipment, can save man-hour, in addition only need one group of cable using the data transmission medium instrument as image test, thereby can save testing cost, and then be conducive to the competitiveness of product on market.About aforementioned and other technology contents, feature and effect of the present utility model, in the detailed description in following cooperation with reference to the embodiment of accompanying drawing, can clearly present.

Accompanying drawing explanation

Fig. 1 is the schematic appearance of the testing equipment of embodiment of the present utility model.

Fig. 2 is the decomposed schematic diagram of the testing equipment of embodiment of the present utility model.

Fig. 3 is that the testing equipment of embodiment of the present utility model is in the internal mechanism schematic diagram of deployed condition.

Fig. 4 is the schematic diagram of the slide mechanism of embodiment of the present utility model.

Fig. 5 is the decomposing schematic representation of the slide mechanism of embodiment of the present utility model.

Fig. 6 is that the testing equipment of embodiment of the present utility model is in the internal mechanism schematic diagram of collapse state.

Fig. 7 is that the testing equipment of embodiment of the present utility model is at the internal mechanism schematic diagram at another visual angle.

Fig. 8 is the schematic diagram of dividing plate, the first black clamp part, the first white clamp part, lens component and the white balance correction plate of embodiment of the present utility model.

Fig. 9 is the decomposing schematic representation of dividing plate, the first black clamp part, the first white clamp part, lens component and the white balance correction plate of embodiment of the present utility model.

Figure 10 is the schematic diagram of testing equipment in test mode.

Figure 11 and Figure 12 are respectively white balance correction plate and the concrete action schematic diagram of correcting plate cylinder when carrying out image test.

Figure 13 and Figure 14 are respectively the first white clamp part and the concrete action schematic diagram of white clamp cylinder when carrying out image test.

Figure 15 is the first black clamp part and the concrete action schematic diagram of black clamp cylinder when carrying out image test.

Figure 16 and Figure 17 are respectively lens component and the concrete action schematic diagram of lens cylinder when carrying out image test.

Figure 18 is the schematic diagram of dividing plate, the second black clamp part, the second white clamp part and the image capturing mechanism of embodiment of the present utility model.

Figure 19 is the decomposing schematic representation of dividing plate, the second black clamp part, the second white clamp part and the image capturing mechanism of embodiment of the present utility model.

Figure 20 and Figure 21 are respectively the second white clamp part and the second clamp drives the concrete action schematic diagram of cylinder when carrying out image test.

Figure 22 is that the second black clamp part and the first clamp drive the concrete action schematic diagram of cylinder when carrying out image test.

Primary clustering symbol description:

30 testing equipment 58 correcting plate cylinders

The black clamp cylinder of 32 dividing plate 60

The white clamp cylinder of 321 test perforate 62

34 bearing frame 64 lens cylinders

36 slide mechanism 66 light sensing component

361 framework 68 image measurement tabula rasas

363 frameworks drive cylinder 70 distance adjusting mechanisms

365 assembled plate 701 supporting plates

367 assembled plate slide rail 703 substrates

369 assembled plate sliding part 705 columns

371 assembled plate drive cylinder 707 screws

The black clamp part of 373 assembled plate cylinder fixture 72 second

375 push away and defend 74 second white clamp parts

38 side plate 76 image capturing mechanisms

40 support plate 761 revolving cylinders

401 location hole 763 image-pickup assemblies

42 electronic installation 765 first adjutage parts

421 first camera module 767 second adjutage parts

423 second camera module 78 first clamps drive cylinder

425 display module 80 second clamps drive cylinder

44 position block 82 support beam frames

46 screw assembly 84 first cylinder fixed heads

48 first black clamp part 841 first cylinder adjustment tanks

50 first white clamp part 86 second cylinder fixed heads

52 lens component 861 second cylinder adjustment tanks

54 white balance correction plate X1 first directions

56 image test tabula rasa X2 second directions

Embodiment

The direction term of mentioning in following examples, for example: upper and lower, left and right, front or rear etc. are only the directions with reference to appended accompanying drawing.Therefore, the direction term of use is to be not used for limiting the utility model for illustrating.Refer to Fig. 1 to Fig. 3, Fig. 1 is the schematic appearance of a testing equipment 30 of embodiment of the present utility model, Fig. 2 is the decomposed schematic diagram of the testing equipment 30 of embodiment of the present utility model, the internal mechanism schematic diagram of the testing equipment 30 that Fig. 3 is embodiment of the present utility model in a deployed condition.As shown in Figure 1 to Figure 3, testing equipment 30 includes a dividing plate 32, a bearing frame 34, a slide mechanism 36 and multiple side plate 38, bearing frame 34 is used for carrying dividing plate 32, and dividing plate 32 can be in order to separate bearing frame 34 into upper and lower two spaces, respectively disparate modules is tested.Slide mechanism 36 is slidably installed on dividing plate 32, and multiple side plates 38 are installed on bearing frame 34, with around dividing plate 32 and protect the internal mechanism part of testing equipment 30 avoid collision and damage.

In addition, testing equipment 30 also includes a support plate 40, and it is installed on slide mechanism 36, and support plate 40 can be used to carry an electronic installation 42, using the carrying benchmark when testing equipment 30 build-in test as electronic installation 42.Further, electronic installation 42 has one first camera module 421, one second camera module 423 and a display module 425, the first camera module 421 and the second camera module 423 are arranged at respectively the two opposite sides of electronic installation 42, and the second camera module 423 is arranged at the same side with display module 425.When assembling electronic device 42 and support plate 40, by the first camera module 421 of electronic installation 42 to be mounted on support plate 40 towards the trend of support plate 40, thus the second camera module 423 of electronic installation 42 and display module 425 just dorsad support plate 40 (as shown in Figure 3) is set upward.

In this embodiment, electronic installation 42 can be an intelligent mobile phone (smart phone), display module 425 can be the display floater of this intelligent mobile phone, the first camera module 421 can be the rearmounted camera module of this intelligent mobile phone, and the second camera module 423 can be the preposition camera module of this intelligent mobile phone.And can being not limited to this embodiment accompanying drawing, the application of testing equipment 30 of the present utility model illustrates, for example electronic installation 42 also can be a flat computer (tablet computer), display module 425 can be the display floater of this flat computer, the first camera module 421 can be the rearmounted camera module of this flat computer, and the second camera module 423 can be the preposition camera module of this flat computer.As for adopting above-mentioned which kind of design, depending on actual demand.

Refer to Fig. 3 to Fig. 6, Fig. 4 is the schematic diagram of the slide mechanism 36 of embodiment of the present utility model, Fig. 5 is the decomposing schematic representation of the slide mechanism 36 of embodiment of the present utility model, the internal mechanism schematic diagram of the testing equipment 30 that Fig. 6 is embodiment of the present utility model in a collapse state.As shown in Figures 3 to 6, slide mechanism 36 includes a framework 361 and a framework drives cylinder 363, framework 361 is installed on dividing plate 32 in mobilizable mode, framework drives cylinder 363 to be connected in dividing plate 32 and framework 361, framework drives cylinder 363 relative to dividing plate 32, along a first direction X1 as shown in Figure 6, to move by driver framework 361, so that framework 361 is extend out to the expanded position being positioned at as shown in Figure 3 by a stowed position as shown in Figure 6, or framework drives cylinder 363 also can relative to dividing plate 32, along the second direction X2 in contrast to first direction X1 as shown in Figure 3, to move by driver framework 361, so that framework 361 is folded to this stowed position being positioned at as shown in Figure 6 by this expanded position as shown in Figure 3.

In addition, slide mechanism 36 also includes an assembled plate 365, at least one assembled plate slide rail 367 and at least one assembled plate sliding part 369, the corresponding at least one assembled plate sliding part 369 of at least one assembled plate slide rail 367.Assembled plate slide rail 367 is fixedly arranged on framework 361, and assembled plate sliding part 369 is fixedly arranged on assembled plate 365 and is sticked in slidably assembled plate slide rail 367, and assembled plate 365 just can slidably be installed on framework 361 thus.In this embodiment; slide mechanism 36 can include two assembled plate slide rails 367 and two assembled plate sliding parts 369; and can being not limited to this embodiment accompanying drawing, the quantity of assembled plate slide rail 367 of the present utility model and assembled plate sliding part 369 illustrates; for example slide mechanism 36 also can only include an assembled plate slide rail 367 and an assembled plate sliding part 369; that is slide mechanism 36 includes the structural design of more than one assembled plate slide rail 367 and more than one assembled plate sliding part 369, in the category of all protecting at the utility model.

Further, testing equipment 30 also includes multiple position blocks 44, and support plate 40 is formed with multiple location holes 401, it is used for fixing respectively position block 44 on support plate 40, multiple position blocks 44 can be used for being respectively sticked in the side of electronic installation 42, with positioning electronic device 42 on support plate 40.In practice, each position block 44 can screw or the mode of close-fitting be fixed on support plate 40 so that position block 44 is removably installed on support plate 40.From the above, when wish is tested another electronic building brick (not being illustrated in figure), can be first by position block 44 by disassembling on support plate 40, to take off electronic installation 42 and to change this another electronic building brick, after this another electronic building brick is positioned on support plate 40, position block 44 again spiral shell is consolidated or is tight with at another location hole 401, to be sticked in the side of this another electronic installation, and then locates this another electronic installation on support plate 40.In other words, by above-mentioned position block 44, be removably installed in the structural design on support plate 40, support plate 40 of the present utility model just can be used to carry the electronic installation with different size, to increase the application elasticity of testing equipment 30.

As shown in Figures 3 to 6, slide mechanism 36 also includes an assembled plate and drives cylinder 371 and an assembled plate cylinder fixture 373, assembled plate cylinder fixture 373 is used for assembled plate to drive cylinder 371 to be fixed on framework 361, and assembled plate drives one of cylinder 371 to push away to defend 375 and be connected in assembled plate 365.In other words, assembled plate drives cylinder 371 to be connected in assembled plate 365 and framework 361, to drive assembled plate 365 to move relative to framework 361.When framework 361 is positioned at this expanded position as shown in Figure 3, assembled plate drives cylinder 371 can drive assembled plate 365 to skid off outside dividing plate 32 and bearing frame 34, so that user takes or changes support plate 40 and electronic installation 42.As shown in Figure 5, slide mechanism 36 can also include at least one screw assembly 46, and it is used for the immobilized plate 40 of spiral shell in assembled plate 365, that is support plate 40 can utilize screw assembly 46 and be assembled in removably in assembled plate 365.Thus, while taking off to change electronic installation 42 on support plate 40 is wanted by assembled plate 365, only need screw assembly 46 to unload, so just can be by support plate 40 together with dismounting on electronic installation 42 self assembly plates 365.

As shown in Figures 3 to 6, on dividing plate 32, be formed with a test perforate 321, when framework drive cylinder 363 driver frameworks 361 by this expanded position as shown in Figure 3 fold to be positioned at as shown in Figure 6 this stowed position time, the assembled plate of slide mechanism 36 drives cylinder 371 can further drive assembled plate 365 to move relative to framework 361.Thus, the assembled plate of slide mechanism 36 drives cylinder 371 just can drive support plate 40 and the relative dividing plate 32 of electronic installation 42 to move to a test position as shown in Figure 6, and then make the first camera module 421 of electronic installation 42 aim at the test perforate 321 on dividing plate 32, to carry out follow-up image test.

Refer to Fig. 6 and Fig. 7, the testing equipment 30 that Fig. 7 is embodiment of the present utility model is at the internal mechanism schematic diagram at another visual angle.As shown in FIG. 6 and 7, testing equipment 30 also includes one first black clamp part 48 and one first white clamp part 50, the first black clamp part 48 is installed on dividing plate 32 in mobilizable mode and is positioned at the side of dividing plate 32 in contrast to support plate 40, and the first white clamp part 50 is installed on dividing plate 32 in mobilizable mode and is positioned at dividing plate 32 this side in contrast to support plate 40.In this embodiment, the first black clamp part 48 and the first white clamp part 50 are oppositely arranged.In practice, the first black clamp part 48 can be a lighttight small blackboard, when test, the first camera module 421 of electronic installation 42 can capture a black image to the first black clamp part 48, according to this black image, for the first camera module 421, carry out bright spot detection (bright dot test) again, with the first camera module 421 of checking electronic installation 42, whether have bad point; The first white clamp part 50 can be a luminous plaque, it is the light of 5100K in order to colour temperature to be provided, when test, the first camera module 421 of electronic installation 42 can capture a white image to the first white clamp part 50, according to this white image, for the first camera module 421, carry out dim spot detection (dark dot test) again, with the first camera module 421 of checking electronic installation 42, whether have bad point.

In addition, testing equipment 30 also includes a lens component 52, a white balance correction plate 54 and an image test tabula rasa 56, image test tabula rasa 56 is arranged at dividing plate 32 this side in contrast to support plate 40, and wherein the first black clamp part 48 and the first white clamp part 50 are between dividing plate 32 and image test tabula rasa 56.Lens component 52 is installed between dividing plate 32 and image test tabula rasa 56 movably, and lens component 52 can be further between the first black clamp part 48 and dividing plate 32 or the first white clamp part 50 and dividing plate 32 in this embodiment.White balance correction plate 54 is installed on dividing plate 32 movably, and white balance correction plate 54 can be between lens component 52 and dividing plate 32 in this embodiment.

In practice, white balance correction plate 54 can be a luminous plaque, it is the light of 5100K in order to colour temperature to be provided, and the first camera module 421 of white balance correction plate 54 and electronic installation 42 is at a distance of 10 centimeters, under above-mentioned boundary condition, the first camera module 421 of electronic installation 42 can capture a white image to white balance correction plate 54, then for the first camera module 421, carries out white balance correction according to this white image.Image test tabula rasa 56 can be a luminous plaque, and the first camera module 421 of itself and electronic installation 42 is at a distance of 30 centimeters, and image test tabula rasa 56 is in order to emit beam to the first camera module 421 of electronic installation 42.When test, one pattern is positioned on image test tabula rasa 56, now image test tabula rasa 56 just can be used to provide this pattern one background light source, the first camera module 421 fechtables that make electronic installation 42 are to a image that should pattern, again such as, according to this image that should pattern is carried out to adjustment of image to the first camera module 421, definition, saturation, resolution etc.

In practice, lens component 52 can be a collimating mirror (collimator), its light that is used for that image test tabula rasa 56 is sent is changed into directional light and injects the first camera module 421 of electronic installation 42, that is the light that sends of image test tabula rasa 56 enters the first camera module 421 after can changing into directional light via lens component 52 again, with 421 pick-up images of the first camera module of simulation electronic installation 42 when object is positioned at a distance, and then this image is carried out to quality of image correction, such as definition, saturation, resolution etc.Thus, the utility model utilize angle that lens component 52 changes the light that image test tabula rasa 56 sends with simulation the situation when object is positioned at distant place, and without the distance with the first camera module 421 of electronic installation 42 by increase image test tabula rasa 56, therefore the configuration of the structure of lens component 52 of the present utility model can significantly reduce the volume of testing equipment 30.

It is worth mentioning that, in practice, between different electronic installations, the position of its camera module can be not identical, therefore testing equipment 30 of the present utility model can include two lens components 52 and two white balance correction plates 54, camera module for diverse location is tested, and can being not limited to this embodiment accompanying drawing, the quantity of lens component 5 of the present utility model and white balance correction plate 54 illustrates, for example testing equipment 30 of the present utility model also can only include a lens component 52 and a white balance correction plate 54, that is testing equipment 30 includes the structural design of more than one lens component 52 and more than one white balance correction plate 54, in the category of all protecting at the utility model.

Refer to Fig. 7 to Fig. 9, Fig. 8 is the schematic diagram of dividing plate 32, the first black clamp part 48, the first white clamp part 50, lens component 52 and the white balance correction plate 54 of embodiment of the present utility model, the decomposing schematic representation of dividing plate 32, the first black clamp part 48, the first white clamp part 50, lens component 52 and white balance correction plate 54 that Fig. 9 is embodiment of the present utility model.As shown in Figure 7 to 9, testing equipment 30 also includes a correcting plate cylinder 58, a black clamp cylinder 60, white clamp cylinder 62 and a lens cylinder 64, correcting plate cylinder 58 is connected in white balance correction plate 54 and dividing plate 32, and correcting plate cylinder 58 is used for driving white balance correction plate 54 to test perforate 321 places of aliging on dividing plate 32; Black clamp cylinder 60 is connected in the first black clamp part 48 and dividing plate 32, and black clamp cylinder 60 is used for driving the first black clamp part 48 to test perforate 321 places of aliging on dividing plate 32; White clamp cylinder 62 is connected in the first white clamp part 50 and dividing plate 32, and white clamp cylinder 62 is used for driving the first white clamp part 50 to test perforate 321 places of aliging on dividing plate 32; Lens cylinder 64 is connected in lens component 52 and dividing plate 32, and lens cylinder 64 is used for driving lens component 52 to test perforate 321 places of aliging on dividing plate 32.

The action principle of for testing equipment 30, the first camera module 421 of electronic installation 42 being carried out to image test below elaborates, and refers to Figure 10, and Figure 10 is the schematic diagram of testing equipment 30 in a test mode.As shown in figure 10, when the slide mechanism 36 of testing equipment 30 drives support plate 40 and electronic installation 42 to this test position as shown in figure 10, the first camera module 421 of electronic installation 42 is aimed at the test perforate 321 on dividing plate 32.Then, testing equipment 30 can first be carried out white balance correction to the first camera module 421 of electronic installation 42.Refer to Figure 11 and Figure 12, Figure 11 and Figure 12 are respectively white balance correction plate 54 and the concrete action schematic diagram of correcting plate cylinder 58 when carrying out image test.As shown in FIG. 11 and 12, when the first camera module 421 of electronic installation 42 is aimed at the test perforate 321 on dividing plate 32, correcting plate cylinder 58 can be by white balance correction plate 54 by a position as shown in figure 11 to a position as shown in figure 12, so that white balance correction plate 54 alignment test perforates 321, now the first camera module 421 of electronic installation 42 just can capture a white image to white balance correction plate 54 via test perforate 321, then for the first camera module 421, carries out white balance correction according to this white image.

Then, testing equipment 30 can be carried out dim spot detection to the first camera module 421 of electronic installation 42 again.Refer to Figure 13 and Figure 14, Figure 13 and Figure 14 are respectively the first white clamp part 50 and the concrete action schematic diagram of white clamp cylinder 62 when carrying out image test.As shown in FIG. 13 and 14, when the first camera module 421 of electronic installation 42 is aimed at the test perforate 321 on dividing plate 32, white clamp cylinder 62 can be by the first white clamp part 50 by an a position as shown in figure 13 position extremely as shown in figure 14, so that the first white clamp part 50 alignment test perforates 321, now the first camera module 421 of electronic installation 42 just can capture a white image to the first white clamp part 50 via test perforate 321, then for the first camera module 421, carries out dim spot detection according to this white image.

Then, testing equipment 30 can be carried out bright spot detection to the first camera module 421 of electronic installation 42 again.Refer to Figure 13 to Figure 15, Figure 15 is the first black clamp part 48 and the concrete action schematic diagram of black clamp cylinder 60 when carrying out image test.As shown in FIG. 13 to 15, when the first camera module 421 of electronic installation 42 completes after dim spot detection, white clamp cylinder 62 can be reset to this position as shown in figure 13 by this position as shown in figure 14 by the first white clamp part 50, follow black clamp cylinder 60 can be by the first black clamp part 48 by this position as shown in figure 13 to a position as shown in figure 15, now the first camera module 421 of electronic installation 42 just can capture a black image to the first black clamp part 48 via test perforate 321, according to this black image, for the first camera module 421, carry out bright spot detection again.

Then, testing equipment 30 can be carried out adjustment of image to the first camera module 421 of electronic installation 42 again.As shown in Figure 10, Figure 13 and Figure 15, when the first camera module 421 of electronic installation 42 completes after bright spot detection, black clamp cylinder 60 can be reset to this position as shown in figure 13 by this position as shown in figure 15 by the first black clamp part 48, now the first camera module 421 of electronic installation 42 just can be positioned over the image of the pattern on image test tabula rasa 56 to image test tabula rasa 56 acquisition correspondences via test perforate 321, then according to the image of this pattern, the first camera module 421 is carried out to adjustment of image.

Then, testing equipment 30 can utilize lens component 52 simulations, when object is positioned at a distance, the first camera module 421 of electronic installation 42 is carried out to adjustment of image.Refer to Figure 16 and Figure 17, Figure 16 and Figure 17 are respectively lens component 52 and the concrete action schematic diagram of lens cylinder 64 when carrying out image test.As shown in FIG. 16 and 17, when the first camera module 421 of electronic installation 42 completes after the adjustment of image of image test tabula rasa 56, lens cylinder 64 can be by lens component 52 by a position as shown in figure 16 to a position as shown in figure 17, now lens component 52 is between the first camera module 421 of image test tabula rasa 56 and electronic installation 42, make the light that image test tabula rasa 56 sends change into directional light via lens component 52, then enter the first camera module 421 via test perforate 321.

Thus, the first camera module 421 just can be simulated the state when object is positioned at a distance, then the image capturing according to the first camera module 421 carries out adjustment of image.It is worth mentioning that, as shown in figure 10, testing equipment 30 of the present utility model can also include a light sensing component 66, it is arranged at the side of dividing plate 32 in the face of image test tabula rasa 56, in above-mentioned image test process, light sensing component 66 is used for responding to the light that image test tabula rasa 56 sends, and to avoid the responding to bad situation of image test tabula rasa 56 abnormal test being caused in said process, occurs.

Referring again to Fig. 6, testing equipment 30 also includes an image measurement tabula rasa 68, and it is arranged at dividing plate 32 side in the face of support plate 40, that is image measurement tabula rasa 68 and image test tabula rasa 56 lay respectively at the two opposite sides of support plate 40.Image measurement tabula rasa 68 is used for emitting beam to this second camera module 423.In practice, image measurement tabula rasa 68 also can be a luminous plaque, and its action principle is identical with image test tabula rasa 56, for the sake of clarity, does not repeat them here.In addition, testing equipment 30 also includes a distance adjusting mechanism 70, its connection layout picture test tabula rasa 68, image test tabula rasa 56 and dividing plate 32, distance adjusting mechanism 70 can be used to adjust the distance of image test tabula rasa 56 relative dividing plates 32, to meet the test specification of the first camera module 421 of electronic installation 42; Distance adjusting mechanism 70 also can be used to adjust the distance of image measurement tabula rasa 68 relative dividing plates 32, to meet the test specification of the second camera module 423 of electronic installation 42.

Further, distance adjusting mechanism 70 includes a supporting plate 701, a substrate 703 and multiple column 705, supporting plate 701 is used for breasting image test tabula rasa 56, substrate 703 is used for breasting image measurement tabula rasa 68, and multiple columns 705 are formed with respectively multiple screws 707, multiple screws 707 can be used to the solid supporting plate 701 of spiral shell and substrate 703.For instance, when wish is carried out image test to this another electronic installation, because this another electronic installation can have different camera modules, therefore need to adjust the relative dividing plate 32 of image test tabula rasa 56 and image measurement tabula rasa 68 relative dividing plates 32 apart from need, now can by supporting plate 701 and substrate 703 respectively the screw 707 on Self-stabilised post 705 unload, adjust respectively again the distance of the distance dividing plate 32 relative to substrate 703 of supporting plate 701 relative dividing plates 32, this two distance is met after the test specification of camera module of this another electronic installation, again supporting plate 701 and substrate 703 are attached to respectively to the screw 707 on column 705, to fix supporting plate 701 and substrate 703 on column 705.

In addition, testing equipment 30 also includes one second black clamp part 72 and one second white clamp part 74, the second black clamp part 72 is installed on dividing plate 32 and is positioned at dividing plate 32 side that is used for carrying support plate 40 movably, that is the second black clamp part 72 of the present utility model and the first black clamp part 48 are positioned at the two opposite sides of dividing plate 32; The second white clamp part 74 is installed on dividing plate 32 and is positioned at dividing plate 32 this side that is used for carrying support plate 40 movably, that is the of the present utility model second white clamp part 74 and the first white clamp part 50 are positioned at the two opposite sides of dividing plate 32.The second black clamp part 72 is used for the second camera module 423 of electronic installation 42 to carry out bright spot detection, and the action principle that the second black clamp part 72 carries out bright spot detection to the second camera module 423 of electronic installation 42 is same as the action principle that the first black clamp part 48 carries out bright spot detection to the first camera module 421 of electronic installation 42, for the sake of clarity, do not repeat them here.The second white clamp part 74 is used for the second camera module 423 of electronic installation 42 to carry out dim spot detection, and the action principle that the second white clamp part 74 carries out dim spot detection to the second camera module 423 of electronic installation 42 is same as the action principle that the first white clamp part 50 carries out dim spot detection to the first camera module 421 of electronic installation 42, for the sake of clarity, do not repeat them here.

As shown in Figure 6, testing equipment 30 also includes an image capturing mechanism 76, and it is installed between dividing plate 32 and image measurement tabula rasa 68, and image capturing mechanism 76 is used for the image that the display module 425 of acquisition electronics 42 presents.In practice, can first the display module of electronic installation 42 425 be shown to white picture and a black picture, recycling image capturing mechanism 76 this white picture of acquisition and this black pictures, and according to this white picture and this black picture respectively detection display module 425 whether have dim spot and bright spot, to guarantee the function of display module 425.

Refer to Fig. 6, Figure 18 and Figure 19, Figure 18 is the schematic diagram of dividing plate 32, the second black clamp part 72, the second white clamp part 74 and the image capturing mechanism 76 of embodiment of the present utility model, the decomposing schematic representation of dividing plate 32, the second black clamp part 72, the second white clamp part 74 and image capturing mechanism 76 that Figure 19 is embodiment of the present utility model.As shown in Fig. 6, Figure 18 and Figure 19, testing equipment 30 also includes one first clamp and drives cylinder 78 and one second clamp to drive cylinder 80, the first clamp drives cylinder 78 to be connected in the second black clamp part 72 and is used for driving second camera module 423 places of the second black clamp part 72 to corresponding electronic installation 42 with dividing plate 32, the first clamps driving cylinders 78.The second clamp drives cylinder 80 to be connected in the second white clamp part 74 and is used for driving second camera module 423 places of the second white clamp part 74 to corresponding electronic installation 42 with dividing plate 32, the second clamps driving cylinders 80.

In this embodiment, testing equipment 30 can also include a support beam frame 82, one first cylinder fixed head 84 and one second cylinder fixed head 86, support beam frame 82 is installed on dividing plate 32, the first cylinder fixed head 84 is fixedly arranged on support beam frame 82 and the first clamp drives cylinder 78 to be fixedly arranged on the first cylinder fixed head 84, that is first clamp drive cylinder 78 to be connected in dividing plate 32 by the first cylinder fixed head 84 and support beam frame 82, the second cylinder fixed head 86 is fixedly arranged on support beam frame 82 and the second clamp drives cylinder 80 to be fixedly arranged on the second cylinder fixed head 86, that is second clamp drive cylinder 80 to be connected in dividing plate 32 by the second cylinder fixed head 86 and support beam frame 82.

In this embodiment, on the first cylinder fixed head 84, can be formed with multiple the first cylinder adjustment tanks 841, the first clamp drives cylinder 78 to be fastened in slidably in the first cylinder adjustment tank 841, on the second cylinder fixed head 86, can be formed with multiple the second cylinder adjustment tank 861, the second clamps drives cylinder 80 to be fastened in slidably in the second cylinder adjustment tank 861.Further, the first cylinder adjustment tank 841 can be used to adjust the position of relative the first cylinder fixed head 84 of the first clamp driving cylinder 78, and the second cylinder adjustment tank 861 can be used to adjust the position of relative the second cylinder fixed head 86 of the second clamp driving cylinder 80, to meet the difference of the camera module position between different electronic installations, to promote the application elasticity of testing equipment 30.

As shown in Figure 18 and Figure 19, image capturing mechanism 76 includes a revolving cylinder 761, one image-pickup assembly 763, one first adjutage part 765 and one second adjutage part 767, revolving cylinder 761 is fixedly arranged on dividing plate 32, the first adjutage part 765 is connected in revolving cylinder 761, the second adjutage part 767 is connected in image-pickup assembly 763, the second adjutage part 767 is mounted slidably on the first adjutage part 765, that is second adjutage part 767 can move relative to the first adjutage part 765, to adjust the distance between image-pickup assembly 763 and revolving cylinder 761, to meet the difference of the camera module position between different electronic installations, to promote the application elasticity of testing equipment 30.In addition, revolving cylinder 761 can be used to drive the first adjutage part 765 and the second adjutage part 767 to rotate, to drive display module 425 tops of image-pickup assembly 763 to electronic installation 42, so image-pickup assembly 763 black or white image that just fechtable display module 425 presents.In this embodiment, image-pickup assembly 763 can be a high-resolution camera module.

The action principle of for testing equipment 30, the second camera module 423 of electronic installation 42 being carried out to image test below elaborates, refer to Figure 10, Figure 20 and Figure 21, Figure 20 and Figure 21 are respectively the second white clamp part 74 and the second clamp drives the concrete action schematic diagram of cylinder 80 when carrying out image test.As shown in Figure 10, Figure 20 and Figure 21, when the slide mechanism 36 of testing equipment 30 drives support plate 40 and electronic installation 42 to this test position as shown in figure 10, the second camera module 423 of electronic installation 42 just can be positioned over the image of the pattern on image measurement tabula rasa 68 to image measurement tabula rasa 68 acquisition correspondences, then according to the image of this pattern, the second camera module 423 is carried out to adjustment of image.

Then, when the second camera module 423 of electronic installation 42 completes after adjustment of image, testing equipment 30 can be carried out dim spot detection to the second camera module 423 again, now the second clamp drives the cylinder 80 can be by the second white clamp part 74 by an a position as shown in figure 20 position extremely as shown in figure 21, so that the second camera module 423 of the corresponding electronic installation 42 of the second white clamp part 74, now the second camera module 423 of electronic installation 42 just can capture a white image to the second white clamp part 74, then according to this white image, the second camera module 423 is carried out to dim spot detection.Then, the second clamp drives cylinder 80 again the second white clamp part 74 to be reset to this position as shown in figure 20 by this position as shown in figure 21, and so the second camera module 423 of electronic installation 42 just completes dim spot detection.

Refer to Figure 20 and Figure 22, Figure 22 is that the second black clamp part 72 and the first clamp drive the concrete action schematic diagram of cylinder 78 when carrying out image test.As shown in Figure 20 and Figure 22, when the second camera module 423 of electronic installation 42 completes after dim spot detection, testing equipment 30 can be carried out bright spot detection to the second camera module 423 again, now the first clamp drive cylinder 78 can be by the second black clamp part 72 by this position as shown in figure 20 to a position as shown in figure 22, so that the second camera module 423 of the corresponding electronic installation 42 of the second black clamp part 72, now the second camera module 423 of electronic installation 42 just can capture a black image to the second black clamp part 72, according to this black image, the second camera module 423 is carried out to bright spot detection again.Then, the first clamp drives cylinder 78 again the second black clamp part 72 to be reset to this position as shown in figure 20 by this position as shown in figure 22, and so the second camera module 423 of electronic installation 42 just completes bright spot detection.

Referring again to Figure 20 and Figure 18, when the second camera module 423 of electronic installation 42 completes after bright spot detection, the revolving cylinder 761 of image capturing mechanism 76 just can drive the first adjutage part 765 and one second adjutage part 767 to rotate, to drive image-pickup assembly 763 to move to a position as shown in figure 18 by a position as shown in figure 20, and make image-pickup assembly 763 be positioned at display module 425 tops of electronic installation 42, so image-pickup assembly 763 black or white image that just fechtable display module 425 presents, and according to this white picture and this black picture respectively detection display module 425 whether have dim spot and bright spot, to guarantee the function of display module 425.It is worth mentioning that, whether image-pickup assembly 763 of the present utility model is except can detection display module 425 having dim spot and bright spot, also can be used to the machine of detection display on display module 425 and distinguish bar code, to guarantee that display module 425 has normal Presentation Function.

In addition, after above-mentioned image test completes, testing equipment 30 of the present utility model also can be used to the sound broadcasting module (such as loudspeaker etc.) of testing electronic devices 42.As shown in Figures 1 and 2, the utility model also can be pasted acoustical cotton (not being illustrated in figure) in the interior sidewall surface of side plate 38, to block extraneous sound wave, disturbs.When electronic installation 42 is positioned at this test position as shown in Figure 2, sound broadcasting module that can drive electronics 42 is play test music, adjusts the performance of the sound broadcasting module of electronic installation 42 according to this test music.

Than prior art, the utility model is arranged at black clamp part, white clamp part, white balance correction plate, image test tabula rasa and image measurement tabula rasa respectively on the support plate of testing equipment, recycling slide mechanism drives electronic installation to test position, for black clamp part, white clamp part, white balance correction plate image test tabula rasa and image measurement tabula rasa, electronic installation is carried out respectively to bright spot test, dim spot test, white balance correction and image test.Thus, above-mentioned image test all can carry out in testing equipment, manpower demand is less, and product can carry out above-mentioned image test in same testing equipment, can save man-hour, in addition only need one group of cable using the data transmission medium instrument as image test, thereby can save testing cost, and then be conducive to the competitiveness of product on market.The foregoing is only preferred embodiment of the present utility model, every equivalent variations of doing according to the scope of the utility model claims and modification, all should belong to covering scope of the present utility model.

Claims (20)

1. be used for an electronic installation to carry out the testing equipment of image test, it is characterized in that, this testing equipment comprises:

One dividing plate, is formed with a test perforate on this dividing plate;

One slide mechanism, this slide mechanism is slidably installed on this dividing plate;

One support plate, this support plate is installed on this slide mechanism, this support plate is used for carrying this electronic installation, and when this slide mechanism drives this support plate and relative this dividing plate of this electronic installation to move to a test position, one first camera module of this electronic installation is aimed at this test perforate;

One first black clamp part, this first black clamp part is installed on this dividing plate in mobilizable mode, this first black clamp part is used for when this first camera module is aimed at this test perforate, for the acquisition of this first camera module, to a shadow picture that should the first black clamp part, for bright spot, detects; And

One first white clamp part, this first white clamp part is installed on this dividing plate in mobilizable mode, this first white clamp part is used for when this first camera module is aimed at this test perforate, for the acquisition of this first camera module, to a white image that should the first white clamp part, for dim spot, detects.

2. testing equipment as claimed in claim 1, is characterized in that, this testing equipment also comprises:

One white balance correction plate, this white balance correction plate is installed on this dividing plate movably, this white balance correction plate is used for when this first camera module is aimed at this test perforate, for the acquisition of this first camera module to a image that should white balance correction plate, for white balance correction.

3. testing equipment as claimed in claim 2, is characterized in that, this testing equipment also comprises:

One correcting plate cylinder, this correcting plate cylinder is connected in this white balance correction plate and this dividing plate, and this correcting plate cylinder is used for driving this white balance correction plate to this test tapping that aligns;

One black clamp cylinder, this black clamp cylinder is connected in this first black clamp part and this dividing plate, and this black clamp cylinder is used for driving this first black clamp part to this test tapping that aligns; And

One white clamp cylinder, this white clamp cylinder is connected in this first white clamp part and this dividing plate, and this white clamp cylinder is used for driving this first white clamp part to this test tapping that aligns.

4. testing equipment as claimed in claim 1, is characterized in that, this testing equipment also comprises:

One image test tabula rasa, this image test tabula rasa is arranged at the side of this dividing plate in contrast to this support plate, and this image test tabula rasa is used for emitting beam to this first camera module when this first camera module is aimed at this test perforate.

5. testing equipment as claimed in claim 4, is characterized in that, this testing equipment also comprises:

One lens component, this lens component is installed between this dividing plate and this image test tabula rasa movably, and the light that this image test tabula rasa sends enters this first camera module via this lens component.

6. testing equipment as claimed in claim 5, is characterized in that, this testing equipment also comprises:

One lens cylinder, this lens cylinder is connected in this lens component and this dividing plate, and this lens cylinder is used for driving this lens component to this test tapping that aligns.

7. testing equipment as claimed in claim 4, is characterized in that, this testing equipment also comprises:

One distance adjusting mechanism, this distance adjusting mechanism connects this image test tabula rasa and this dividing plate, and this distance adjusting mechanism is used for adjusting this image test tabula rasa distance of this dividing plate relatively.

8. testing equipment as claimed in claim 7, is characterized in that, this distance adjusting mechanism comprises:

One supporting plate, this supporting plate is used for this image test tabula rasa of breasting; And

Multiple columns, the plurality of column is formed with respectively multiple screws, and the plurality of screw is used for solid this supporting plate of spiral shell.

9. testing equipment as claimed in claim 4, is characterized in that, this testing equipment also comprises:

One light sensing component, this light sensing component is arranged at the side of this separator face to this image test tabula rasa, and this light sensing component is used for responding to the light that this image test tabula rasa sends.

10. testing equipment as claimed in claim 1, is characterized in that, this testing equipment also comprises:

One second black clamp part, this second black clamp part is installed on this dividing plate movably, this second black clamp part is used for when this slide mechanism drives this support plate and this electronic installation to this test position, for one second camera module acquisition of this electronic installation, to a shadow picture that should the second black clamp part, for bright spot, detect; And

One second white clamp part, this second white clamp part is installed on this dividing plate movably, this second white clamp part is used for when this slide mechanism drives this support plate and this electronic installation to this test position, for the acquisition of this second camera module to a white image that should the second white clamp part, for dim spot, detect, wherein this first camera module and this second camera module are arranged at respectively the two opposite sides of this electronic installation, and a display module of this second camera module and this electronic installation is arranged at the same side.

11. testing equipments as claimed in claim 10, is characterized in that, this testing equipment also comprises:

One first clamp drives cylinder, and this first clamp drives cylinder to be connected in this second black clamp part and this dividing plate, and this first clamp drives cylinder to be used for driving this second black clamp part extremely to should the second camera module place; And

One second clamp drives cylinder, and this second clamp drives cylinder to be connected in this second white clamp part and this dividing plate, and this second clamp driving cylinder is used for driving this second white clamp part extremely to should the second camera module place.

12. testing equipments as claimed in claim 10, is characterized in that, this testing equipment also comprises:

One image measurement tabula rasa, this image measurement tabula rasa is arranged at the side of this separator face to this support plate, and this image measurement tabula rasa is used for emitting beam to this second camera module.

13. testing equipments as claimed in claim 12, is characterized in that, this testing equipment also comprises:

One image capturing mechanism, this image capturing mechanism is installed between this dividing plate and this image measurement tabula rasa, and this image capturing mechanism is used for, when this slide mechanism drives this support plate and this electronic installation to this test position, capturing the image that this display module presents.

14. testing equipments as claimed in claim 13, is characterized in that, this image capturing mechanism comprises:

One revolving cylinder, this revolving cylinder is fixedly arranged on this dividing plate;

One image-pickup assembly, this image-pickup assembly is used for capturing the image that this display module presents;

One first adjutage part, this first adjutage part is connected in this revolving cylinder; And

One second adjutage part, this the second adjutage part is connected in this image-pickup assembly, this the second adjutage part can move relative to this first adjutage part, to adjust the distance between this image-pickup assembly and this revolving cylinder, wherein this revolving cylinder is used for driving this first adjutage part and the rotation of this second adjutage part, to drive this image-pickup assembly to this display module top.

15. testing equipments as claimed in claim 1, is characterized in that, this slide mechanism comprises:

One framework, this framework is installed on this dividing plate in mobilizable mode; And

One framework drives cylinder, and this framework drives cylinder to be connected in this dividing plate and this framework, and this framework drives cylinder to be used for driving this framework to move relative to this dividing plate.

16. testing equipments as claimed in claim 15, is characterized in that, this slide mechanism also comprises:

One assembled plate, this assembled plate is slidably installed on this framework, and wherein this support plate is assembled in this assembled plate removably; And

One assembled plate drives cylinder, and this assembled plate drives cylinder to be connected in this assembled plate and this framework, and this assembled plate drives cylinder to be used for driving this assembled plate to move relative to this framework.

17. testing equipments as claimed in claim 1, is characterized in that, this testing equipment also comprises:

Multiple position blocks, the plurality of position block is removably installed on this support plate, and the plurality of position block is used for being sticked in the side of this electronic installation, to locate this electronic installation on this support plate.

18. testing equipments as claimed in claim 17, is characterized in that, this support plate is formed with multiple location holes, and the plurality of location hole is used for fixing respectively each position block on this support plate.

19. testing equipments as claimed in claim 1, is characterized in that, this testing equipment also comprises a bearing frame, and this bearing frame is used for carrying this dividing plate.

20. testing equipments as claimed in claim 19, is characterized in that, this testing equipment also comprises multiple side plates, and the plurality of side plate is installed on this bearing frame, with around this dividing plate, this first black clamp part and this first white clamp part.

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