CN107643163A

CN107643163A - Module test equipment and method of testing

Info

Publication number: CN107643163A
Application number: CN201710894522.4A
Authority: CN
Inventors: 柯海挺; 梁敬姣; 陈冠余; 张宝忠
Original assignee: Ningbo Sunny Instruments Co Ltd
Current assignee: Ningbo Sunny Instruments Co Ltd
Priority date: 2017-09-28
Filing date: 2017-09-28
Publication date: 2018-01-30
Anticipated expiration: 2037-09-28
Also published as: CN107643163B

Abstract

The present invention relates to a kind of module test equipment and method of testing, wherein, module test equipment includes：Grip unit, the first test cell, the second test cell, the 3rd test cell and the 4th test cell；The grip unit mutually can be oppositely arranged with displacement with first test cell, second test cell, the 3rd test cell and the 4th test cell.Different test cells is uniformly distributed around grip unit, so that the module test equipment of the present invention is compact-sized, and can be by different detection unit concentrated settings into same equipment, it can realize and different test events is completed in same equipment, the testing efficiency of module is effectively raised, and reduces the area occupied of equipment.Different test cells is set in a manner of around grip unit, further increases the testing efficiency of the module test equipment of the present invention.

Description

Module test equipment and method of testing

Technical field

The present invention relates to a kind of test equipment and method of testing, more particularly to a kind of module test equipment and method of testing.

Background technology

Now with the high speed development of camera module industry, the requirement to the product quality of camera module further improves. Correspondingly, the test event of camera module is increased therewith.Existing test equipment can only carry out unitem to camera module Test, detection efficiency is low, has had a strong impact on the production efficiency of camera module.Meanwhile camera module is between multiple test equipments Conversion, cause detection benchmark inconsistent, and then influence the measuring accuracy to product.Due to the test event list of existing test equipment One, it is therefore desirable to purchase difference equipment to complete the detection to camera module, cause cost height, poor compatibility, have impact on enterprise The purpose of industry high efficiency, low cost.

The content of the invention

It is an object of the invention to provide a kind of module test equipment and method of testing, solve that module testing efficiency is low to ask Topic.

To achieve the above object, the present invention provides a kind of module test equipment, including：Grip unit, the first test cell, Second test cell, the 3rd test cell and the 4th test cell；

The grip unit and first test cell, second test cell, the 3rd test cell and institute State the 4th test cell mutually can be oppositely arranged with displacement.

According to an aspect of the present invention, first test cell, the second test cell, the 3rd test cell and the 4th Test cell is equally spaced set centered on the position of the grip unit around the grip unit.

According to an aspect of the present invention, it is single to be located at first test set with linear array for the grip unit The same side of first, described second test cell, the 3rd test cell and the 4th test cell.

According to an aspect of the present invention, the grip unit includes：

Supporting member；

Rotation platform, the rotation platform are supported on the supporting member；

Station platform, mutually coaxially fixed bearing is located on the supporting member station platform with the rotation platform, and The station platform is located above the rotation platform；

Communicator, the communicator are fixedly attached on the station platform；

Carrier, the carrier and the rotation platform are detachably connected.

According to an aspect of the present invention, the station platform includes：

First station, first station setting corresponding with first test cell；

Second station, second station setting corresponding with second test cell；

3rd station, 3rd station setting corresponding with the 3rd test cell；

4th station, the 4th station setting corresponding with the 4th test cell.

According to an aspect of the present invention, the rotation platform includes：

First installation position, first installation position setting corresponding with first test cell；

Second installation position, second installation position setting corresponding with second test cell；

3rd installation position, the 3rd installation position setting corresponding with the 3rd test cell；

4th installation position, the 4th installation position setting corresponding with the 4th test cell.

According to an aspect of the present invention, first station, the second station, the 3rd station, the described 4th Station is separately installed with the communicator；

The communicator includes communication agency, and the displacement mechanism of the driving communication agency movement, wherein, it is described Communication agency is provided with communication interface.

According to an aspect of the present invention, the carrier is installed with first installation position, the second installation position, the 3rd respectively Position, the 4th installation position are detachably connected；

The carrier includes cover plate and bottom plate, is connect wherein the bottom plate is provided with the transmission to match with the communication interface Mouthful.

According to an aspect of the present invention, first test cell includes：

First testing light source；

First driving means, the first driving means and first testing light source are connected with each other, and drive described the One testing light source vertical shift.

According to an aspect of the present invention, second test cell includes：Nearly burnt test module and remote burnt test module；

The nearly burnt test module is positioned at described far between burnt test module and the grip unit.

According to an aspect of the present invention, the nearly burnt test module includes：

Nearly burnt light source；

Nearly burnt target, the nearly burnt target and the nearly burnt light source are detachably connected；

First nearly burnt drive mechanism, the described first nearly burnt drive mechanism driving nearly burnt light source vertical shift；

Second nearly burnt drive mechanism, the described second nearly burnt drive mechanism driving nearly burnt light source levels movement.

According to an aspect of the present invention, the remote burnt test module includes：

Remote burnt light source；

Remote burnt target, the remote burnt target and the remote burnt light source are detachably connected；

Remote burnt drive device, the remote burnt drive device driving remote burnt light source levels movement；

Teleconverter, the teleconverter is between the remote burnt light source and the nearly burnt test module；

Increment drive device, the increment drive device drive the teleconverter vertical shift.

According to an aspect of the present invention, the 3rd test cell includes：

Second testing light source；

First target, first target and second testing light source are detachably connected；

First light source bracket, second testing light source are vertically slidably connected with first light source bracket；

First fixed block, for fixing position of second testing light source on first light source bracket.

According to an aspect of the present invention, the 4th test cell includes：

3rd testing light source；

Second target, second target and the 3rd testing light source are detachably connected；

Secondary light source support, the 3rd testing light source are fixedly attached on the secondary light source support.

According to an aspect of the present invention, the 4th test cell also includes：

Dark-state test board, the dark-state test board is between the 3rd testing light source and the grip unit；

Dark-state test board drive mechanism, the dark-state test board drive mechanism drive the dark-state test board vertically movable.

According to an aspect of the present invention, in addition to：

Frame, for supporting the grip unit, first test cell, second test cell, the described 3rd Test cell and the 4th test cell；

Control unit, described control unit are tested with the grip unit, first test cell, described second respectively Unit, the 3rd test cell and the 4th test cell electrical connection.

To achieve the above object, the present invention provides a kind of module testing method, including：

S1. to carrier of the first installation position installation with module, the test to module on the first installation position is completed；

S2. rotation platform rotates, and the first installation position is relative with the second test cell；

S3. to carrier of the second installation position installation with module, module on the first installation position and the second installation position is completed Test；

S4. rotation platform rotates, and the first installation position is relative with the 3rd test cell；

S5. to carrier of the 3rd installation position installation with module, complete to the first installation position, the second installation position, the 3rd peace Fill the test of module on position；

S6. rotation platform rotates, and the first installation position is relative with the 4th test cell；

S7. to carrier of the 4th installation position installation with module, complete to the first installation position, second installation position, the 3rd The test of module on individual installation position, the 4th installation position；

S8. repeat step S1-S7, until all detection is completed.

According to an aspect of the present invention, to carrier of the first installation position installation with module, complete to the first installation position The step of test of upper module, further comprises：

S11. to carrier of the first installation position installation with module；

S12. the communication interface on the communicator on the first station is connected with the coffret on carrier；

S13. first driving means drive the first testing light source to be moved upward to the position relative with the carrier；

S14. module absorbs image and completes to test, and the communication interface disconnects with the coffret, and described first surveys Try light source and return to initial position.

According to an aspect of the present invention, to the second installation position installation with module carrier, complete the first installation position and Further comprise on second installation position the step of the test of module：

S31. to carrier of the second installation position installation with module；

S32. repeat step S12-S14 completes the test to module on the second installation position；

S33. the communication interface on the communicator in second station is connected with the coffret on carrier；

S34. the first nearly burnt drive mechanism drives nearly burnt light source vertical shift to the position relative with carrier, the second nearly burnt drive The driving of motivation structure nearly burnt light source levels movement adjustment nearly the distance between burnt light source and carrier, the figure of the nearly burnt mark version of module intake Picture, the nearly burnt light source return to initial position；

S35. increment drive device driving teleconverter vertical shift to the position relative with carrier, remote burnt drive device drives Remote burnt light source levels movement adjustment remote the distance between burnt light source and carrier, the image of the remote burnt target of module intake, the communication Interface disconnects with the coffret, and the remote burnt light source returns to initial position；

S36. the test to module on the first installation position is completed.

According to an aspect of the present invention, to the 3rd installation position installation with module carrier, complete to the first installation position, Further comprise on second installation position, the 3rd installation position the step of the test of module：

S51. to carrier of the 3rd installation position installation with module；

S52. repeat step S12-S14 completes the test to module on the 3rd installation position；

S53. repeat step S33-S35 completes the test to module on the second installation position；

S54. the communication interface on the communicator in 3rd station is connected with the coffret on carrier；

S55. module absorbs the image of the first target, and the communication interface disconnects with the coffret；

S55. the test to module on the first installation position is completed.

According to an aspect of the present invention, to the 4th installation position installation with module carrier, complete to the first installation position, Second installation position, the 3rd installation position, include the step of the test of module on the 4th installation position：

S71. to carrier of the 4th installation position installation with module；

S72. repeat step S12-S14 completes the test to module on the 4th installation position；

S73. repeat step S33-S35 completes the test to module on the 3rd installation position；

S74. repeat step S54-S55 completes the test to module on the second installation position；

S75. the communication interface on the communicator on the 4th station is connected with the coffret on carrier；

S76. module absorbs the image of the second target；

S77. dark-state test board drive mechanism driving dark-state the test board vertically movable extremely position relative with carrier, module is taken the photograph The image of dark-state test board is taken, the communication interface disconnects with the coffret；

S78. the test to module on the first installation position is completed.

According to the scheme of the present invention, different test cells is uniformly distributed around grip unit so that this hair Bright module test equipment it is compact-sized, and can be by different detection unit concentrated settings into same equipment, can be with Different test events is completed in realization in same equipment, effectively raises the testing efficiency of module, and reduce equipment Area occupied, under equal testing efficiency the occupation area of equipment of single board be only existing AF test equipments and OTP test The 1/6 of equipment.Meanwhile different test cells is set in a manner of around grip unit, it can also realize in module detection process Continuous productive process, further increase the present invention module test equipment testing efficiency.By integrating multiple test cells pair The efficiency that module is detected is 2-3 times of the efficiency of equal test equipment.Meanwhile during continuous productive process, tested mould Group will not be repeated as many times as required placement, ensure that the fixation of the position in test process, improve the accuracy of detection of module, enter one Step improves the product quality of module.By above-mentioned setting, a tractor serves several purposes of the module test equipment of the present invention is realized, in phase In the case of Deng testing efficiency, the cost of module test equipment of the invention is only existing AF test equipment and OTP test equipments 1/3, further save cost.According to the test equipment of the present invention, automaticity is high, high by way of continuous productive process Efficiency is tested module automatically, it is not necessary to which artificial interference, under identical testing efficiency, module of the invention test is set Standby operational personnel is only the 1/3 of existing AF test equipments and OTP test equipments.

According to the scheme of the present invention, by the driving effect of displacement mechanism, make communication interface on communication agency with Coffret on bottom plate removably connects, realize between module and module test equipment it is quick electrically connect, improve The testing efficiency of the module test equipment of the present invention.Meanwhile multiple (at least two) modules can be placed in carrier, by above-mentioned Set-up mode, it is possible to achieve multiple modules are also turned on, it is achieved thereby that on carrier all modules test, further increase The efficiency of module test.By carrying out relative set to the position that module is placed on carrier, so that it may the test of different modules is realized, The versatility of the module test equipment of the present invention is improved, further saves cost.

According to the scheme of the present invention, by the rotation of rotation platform, carrier on different installation positions can realize and The connection of communicator on different station, it is achieved thereby that module in carrier on same installation position is directed to disparity items Test.In rotation platform rotation process, it is not necessary to carrier is carried out to repeat dismounting, ensure that module in test process middle position The fixation put, so as to ensure that the consistent of benchmark in whole test process, the precision to module test is ensure that, ensure that product Quality.

, can be accurately fast by the first nearly burnt drive mechanism and the second nearly burnt drive mechanism according to the scheme of the present invention The distance between carrier on the nearly burnt light source of prompt adjustment and nearly burnt target and corresponding installation position, enters so as to ensure that to module The precision of the nearly burnt test of row, further ensure the quality of product.

According to the scheme of the present invention, the second test cell can complete the remote burnt and near burnt test of module, improve The testing efficiency of module.The nearly nearly burnt test module of burnt test can by the first nearly burnt drive mechanism and the second nearly burnt drive mechanism With the distance between carrier on the nearly burnt light source of adjustment of accurate quick and nearly burnt target and corresponding installation position, while can be with Easily withdraw nearly burnt light source and closely burnt target avoids the influence to remote burnt test module.In remote burnt test module by using Teleconverter causes remote the distance between burnt light source and carrier to reduce, and reduces the volume of whole second test cell, further section The space-consuming of the module test equipment of the present invention is saved.

Brief description of the drawings

Fig. 1 is the stereogram for schematically showing the module test equipment according to one embodiment of the present invention；

Fig. 2 is the stereogram for schematically showing the module test equipment according to one embodiment of the present invention；

Fig. 3 is the stereogram for schematically showing the grip unit according to one embodiment of the present invention；

Fig. 4 is the partial view for schematically showing the grip unit according to one embodiment of the present invention；

Fig. 5 is the stereogram for schematically showing the nearly burnt test module according to one embodiment of the present invention；

Fig. 6 is the stereogram for schematically showing the remote burnt test module according to one embodiment of the present invention；

Fig. 7 is the stereogram for schematically showing the 3rd test cell according to one embodiment of the present invention；

Fig. 8 is the stereogram for schematically showing the 4th test cell according to one embodiment of the present invention；

Fig. 9 is the stereogram for schematically showing the board according to one embodiment of the present invention.

Embodiment

, below will be to embodiment in order to illustrate more clearly of embodiment of the present invention or technical scheme of the prior art In the required accompanying drawing used be briefly described.It should be evident that drawings in the following description are only some of the present invention Embodiment, for those of ordinary skills, on the premise of not paying creative work, can also be according to these Accompanying drawing obtains other accompanying drawings.

When being described for embodiments of the present invention, term " longitudinal direction ", " transverse direction ", " on ", " under ", " preceding ", " rear ", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", the orientation expressed by " outer " or position relationship are to be based on phase Orientation shown in the drawings or position relationship are closed, it is for only for ease of the description present invention and simplifies description, rather than instruction or dark Show that the device of meaning or element there must be specific orientation, with specific azimuth configuration and operation, therefore above-mentioned term can not It is interpreted as limitation of the present invention.

The present invention is described in detail with reference to the accompanying drawings and detailed description, embodiment can not go to live in the household of one's in-laws on getting married one by one herein State, but therefore embodiments of the present invention are not defined in implementation below.

With reference to shown in Fig. 1 and Fig. 2, according to one embodiment of the present invention, module test equipment of the invention includes folder Hold unit 1, the first test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 and board 6.In this reality Apply in mode, grip unit 1, the first test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 divide It is not supported on board 6.Wherein, the centered on the position of grip unit 1 first test cell 2, the second test cell the 3, the 3rd The test cell 5 of test cell 4 and the 4th is equally spaced between each other to be looped around around grip unit 1, i.e. the first test cell 2nd, on center between two units adjacent in the second test cell 3, the 3rd test cell 4 and the 4th test cell 5 Center angle be 90 °.In the present embodiment, by the rotation of the self structure of grip unit 1, realize in grip unit 1 The module clip position of different directions is surveyed with the first test cell 2, the second test cell 3, the 3rd test cell the 4, the 4th respectively Examination unit 5 is corresponding, realizes the test of the module that diverse location clamps in grip unit 1.By this set, in grip unit Different test cells is uniformly distributed around 1 so that module test equipment of the invention it is compact-sized, and can will not Same detection unit concentrated setting is into same equipment, it is possible to achieve different test events is completed in same equipment, effectively Improve the testing efficiency of module, and reduce the area occupied of equipment, single board sets under equal testing efficiency Standby floor space is only the 1/6 of existing AF test equipments and OTP test equipments.Meanwhile set in a manner of around grip unit 1 Different test cells, the continuous productive process in module detection process can be also realized, further increase the module test of the present invention The testing efficiency of equipment.The efficiency detected by integrating multiple test cells to module is the efficiency of equal test equipment 2-3 times.Meanwhile during continuous productive process, tested module will not be repeated as many times as required placement, ensure that in test process The fixation of position, the accuracy of detection of module is improved, further increase the product quality of module.By above-mentioned setting, realize The a tractor serves several purposes of the module test equipment of the present invention, in the case of equal testing efficiency, module test equipment of the invention Cost be only the 1/3 of existing AF test equipments and OTP test equipments, further save cost.According to the test of the present invention Equipment, automaticity is high, efficient by way of continuous productive process that module is tested automatically, it is not necessary to artificial dry Relate to, under identical testing efficiency, the operational personnel of module test equipment of the invention is only existing AF test equipments and OTP The 1/3 of test equipment.

According to another embodiment of the invention, module test equipment of the invention includes grip unit 1, the first test Unit 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 and board 6.In the present embodiment, clamping is single Member 1, the first test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 are supported on board 6 respectively. Wherein, the centered on the position of grip unit 1 first test cell 2, the second test cell 3, the 3rd test cell 4 and the 4th are surveyed Examination unit 5 is equally spaced between each other to be looped around around grip unit 1, i.e. the first test cell 2, the second test cell 3, the Center angle in three test cells 4 and the 4th test cell 5 between two adjacent units on center is 90 °. In the present embodiment, the first test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 are around folder Unit 1 is held to rotate, the first test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 respectively with clamping The module clip position of different directions is corresponding on unit 1, realizes the test of the module that diverse location clamps in grip unit 1. By this set, different test cells is uniformly distributed around grip unit 1 so that module test equipment of the invention It is compact-sized, and can be by different detection unit concentrated settings into same equipment, it is possible to achieve in same equipment Different test events is completed, effectively raises the testing efficiency of module, and reduces the area occupied of equipment.Meanwhile Different test cells is set in a manner of around grip unit 1, the continuous productive process in module detection process can be also realized, enter one Step improves the testing efficiency of the module test equipment of the present invention.During continuous productive process, tested module will not be multiple Repeat to lay, ensure that the fixation of the position in test process, improve the accuracy of detection of module, further increase module Product quality.By above-mentioned setting, a tractor serves several purposes of the module test equipment of the present invention is realized, is further saved into This.According to the test equipment of the present invention, automaticity is high, efficient by way of continuous productive process that module is carried out automatically Test, it is not necessary to artificial interference.

According to another embodiment of the invention, module test equipment of the invention includes grip unit 1, the first test Unit 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 and board 6.In the present embodiment, clamping is single Member 1, the first test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 are supported on board 6 respectively. First test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 are set with linear array, and clamping is single Member 1 is located at linearly aligned first test cell 2, second test cell 3, the 3rd test cell 4, the 4th test cell 5 The same side.Grip unit 1 can move in parallel along with the linearly aligned direction of aforementioned four unit.Grip unit 1 move to often When individual unit is relative, by the rotation of the self structure of grip unit 1, make the module clip position of different directions in grip unit 1 It is corresponding with current test cell, realize the test of the module that diverse location clamps in grip unit 1.By this set, First test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5, grip unit 1 along with aforementioned four The motion of unit linearly aligned dimension linear so that module test equipment of the invention it is compact-sized, and can be by difference Detection unit concentrated setting into same equipment, it is possible to achieve different test events is completed in same equipment, effectively Improve the testing efficiency of module.Meanwhile the continuous productive process in module detection process can be also realized, further increase the present invention Module test equipment testing efficiency.During continuous productive process, tested module will not be repeated as many times as required placement, ensure that The fixation of position in test process, the accuracy of detection of module is improved, further increase the product quality of module.Pass through Above-mentioned setting, a tractor serves several purposes of the module test equipment of the present invention is realized, further saves cost.According to the survey of the present invention Equipment is tried, automaticity is high, efficient by way of continuous productive process that module is tested automatically, it is not necessary to artificial dry Relate to.

With reference to shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 4, according to one embodiment of the present invention, grip unit 1 includes supporting member 11st, rotation platform 12, station platform 13, communicator 14 and carrier 15.In the present embodiment, supporting member 11, rotation platform 12, Station platform 13 is set gradually from the bottom to top.Rotation platform 12 is supported on the upper end of supporting member 11.Station platform 13 and rotation platform 12 The mutually coaxial upper end for being supported on supporting member 11, and the position of station platform 13 is higher than rotation platform 12.In present embodiment In, rotation platform 12 can surround its center and rotate, and station platform 13 is fixed.In the present embodiment, station Be provided with platform 13 respectively with the first test cell 2, the second test cell 3, the 3rd test cell 4, the 4th test cell 5 position Corresponding station is put, wherein, the position corresponding with the first test cell 2 is the first station 131 on station platform 13, station platform The position corresponding with the second test cell 3 is second station 132 on 13, corresponding with the 3rd test cell 4 on station platform 13 Position be 3rd station 133, the position corresponding with the 4th test cell 5 is the 4th station 134 on station platform 13.In this reality Apply in mode, be provided with rotation platform 12 respectively with the first test cell 2, the second test cell 3, the 3rd test cell 4, The corresponding installation position in the positions of four test cells 5, wherein, the position corresponding with the first test cell 2 on rotation platform 12 For the first installation position 121, the position corresponding with the second test cell 3 is the second installation position 122 on rotation platform 12, rotary flat The position corresponding with the 3rd test cell 4 is the 3rd installation position 123 on platform 12, on rotation platform 12 with the 4th test cell 5 Corresponding position is the 4th installation position 124.Under initial position, the first installation position 121 is corresponding with the first station 131.Rotation Platform 12 rotates, then the first installation position 121 is corresponding with next station, the like other installation positions position also correspondingly Change.

With reference to shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 4, according to one embodiment of the present invention, the first station 131, the second work Position 132,3rd station 133, the 4th station 134 are installed with communicator 14 respectively.In the present embodiment, communicator 14 include communication agency 141 and displacement mechanism 142.Communication agency 141 is connected with each other with displacement mechanism 142, and displacement mechanism 142 drives Dynamic communication agency 141 linearly moves.Communication interface 141a is additionally provided with the end of communication agency 141.In the present embodiment, One installation position 121, the second installation position 122, the 3rd installation position 123, the 4th installation position 124 are detachably provided with carrier 15.Carry Tool 15 includes cover plate 151 and bottom plate 152.Its bottom plate 152 is provided with the coffret 152a to match with communication interface 142.Carry Tool 15 is used to carry tested module, and processing module by cover plate 151 and bottom plate 152 grips, and module and bottom plate 152 electrical connections.Module is realized by coffret 152a and communication interface 141a to be electrically connected with the module test equipment invented Connect.By above-mentioned setting, by the driving effect of displacement mechanism 142, make communication interface 141a and the bottom plate on communication agency 141 Coffret 152a on 152 is removably connected, realize between module and module test equipment it is quick electrically connect, improve The testing efficiency of the module test equipment of the present invention.Meanwhile multiple (at least two) modules can be placed in carrier 15, pass through Above-mentioned set-up mode, it is possible to achieve multiple modules are also turned on, it is achieved thereby that on carrier 15 all modules test, further Improve the efficiency of module test.By carrying out relative set to the position that module is placed on carrier 15, so that it may realize different moulds The test of group, the versatility of the module test equipment of the present invention is improved, further saves cost.

According to the present invention, by the rotation of rotation platform 12, the carrier 15 on different installation positions can be realized and different works The connection of communicator 14 on position, it is achieved thereby that module in carrier 15 on same installation position for disparity items Test.In the rotation process of rotation platform 12, it is not necessary to carrier 15 is carried out to repeat dismounting, ensure that module in test process The fixation of position, so as to ensure that the consistent of benchmark in whole test process, the precision to module test is ensure that, ensure that production Quality.

As shown in Fig. 2 according to one embodiment of the present invention, the first test cell 2 includes the He of the first testing light source 21 First driving means 22.In the present embodiment, testing light source 21 is fixedly supported upon in first driving means 22, is driven by first The driving of dynamic device 22, testing light source 21 vertically can be moved linearly.When needs pair are corresponding with the first test cell 2 When module on installation position is tested, first driving means 22 drive the first testing light source 21 to move upwards, until the first survey It is relative with the position for installing carrier 15 to try light source 21.After the completion of testing module, first driving means 22 drive the first test light Source 21 move downward return initial position, it is necessary to on next installation position module test, the first test cell 2 again according to Said process is run.In the present embodiment, the first testing light source 21 is OTP light sources.

With reference to shown in Fig. 2, Fig. 5 and Fig. 6, according to one embodiment of the present invention, the second test cell 3 includes nearly burnt survey Die trial block 31 and remote burnt test module 32.In the present embodiment, nearly burnt test module 31 is located at remote burnt test module 32 and folder Hold between unit 1.

With reference to shown in Fig. 2 and Fig. 5, according to one embodiment of the present invention, nearly burnt test module 31 includes nearly burnt light source 311st, the nearly burnt drive mechanism 314 of the nearly burnt drive mechanism 313, second of nearly burnt target 312, first, nearly burnt support 315.In this implementation In mode, nearly burnt light source 311 is supported on nearly burnt support 315, and vertically nearly burnt light source 311 can relative proximity Jiao's support 315 movements.Nearly burnt target 312 is removably mounted on nearly burnt light source 311, can be needed according to test easily to nearly burnt light source Nearly burnt target 312 on 311 is changed.First nearly burnt drive mechanism 313 is connected with nearly burnt light source 311, near by first The closely burnt light source 311 of the driving of burnt drive mechanism 313 can be moved up and down vertically, nearly Jiao on nearly burnt light source 311 Target 312 also moves up and down therewith.Nearly burnt support 315 is fixedly supported upon in the second nearly burnt drive mechanism 314, near burnt by second Drive mechanism 314 can drive the nearly burnt light source 311 being supported on nearly burnt support 315 and nearly burnt target 312 to move in the horizontal direction. In the present embodiment, reinforcement 315a is additionally provided with nearly burnt support 315, nearly burnt support is added by reinforcement 315a 315 stability in moving process, it ensure that the position of nearly burnt light source 311 and nearly burnt target 312 is stable, to ensureing the present invention Module test equipment precision it is beneficial.Can be accurate by the nearly burnt drive mechanism 314 of the first nearly burnt drive mechanism 313 and second The distance between carrier 15 on nearly burnt light source 311 and nearly burnt target 312 and corresponding installation position is efficiently adjusted, so as to ensure The precision of nearly burnt test is carried out to module, further ensures the quality of product.In the present embodiment, the first nearly burnt drive Spindle gear is respectively adopted in the nearly burnt drive mechanism 314 of motivation structure 313, second.

With reference to shown in Fig. 2 and Fig. 6, according to one embodiment of the present invention, remote burnt test module 32 includes remote burnt light source 321st, remote burnt target 322, remote burnt drive device 323, teleconverter 324, increment drive device 325 and remote burnt support 326.In this reality Apply in mode, remote burnt target 322 is removably connected with remote burnt light source 321.Remote burnt light source 321 is supported on remote burnt support 326, Remote burnt support 326 is fixedly supported upon in remote burnt drive device 323.The first fastener 326a is provided with remote burnt support 326, is used for Remote burnt target 322 is fixed, when needing to change remote burnt target 322, the first fastener 326a unclamped, will remote burnt target 322 Extraction can be with changing.Moved in the horizontal direction by the remote burnt support 326 of effect driving of remote burnt drive device 323, so as to drive Far burnt light source 321 and remote burnt target 322 moves, and realizes on remote burnt light source 321 and remote burnt target 322 and corresponding installation position Carrier 15 between distance adjustment.Remote burnt light source adjustment device 321a is additionally provided with remote burnt light source 321, is adjusted by remote burnt light source Regulating device 321a can realize the regulation to the remote burnt brightness of light source 321.In the present embodiment, teleconverter 324 is located at remote burnt light Between source 321 and nearly burnt test module 31, teleconverter 324 is connected with each other with increment drive device 325, passes through increment drive device 325 effect driving teleconverter 324 is vertically linear mobile.When carrying out remote burnt test to module, increment drive device 325 driving teleconverters 324 move upwards, and remote burnt drive device 323 drives the remote burnt remote burnt light source of the horizontal movement of light source 321 adjustment The distance between 321 and carrier 15.After the remote burnt test for completing module, increment drive device 325 drives teleconverter 324 to transport downwards Dynamic to return to initial position, remote burnt drive device 323 drives remote burnt light source 321 to return to initial position.

According to invention, the second test cell 3 can complete the remote burnt and near burnt test of module, improve the test of module Efficiency.The nearly nearly burnt test module 31 of burnt test can be accurate by the nearly burnt drive mechanism 314 of the first nearly burnt drive mechanism 313 and second The distance between carrier 15 on nearly burnt light source 311 and nearly burnt target 312 and corresponding installation position is really efficiently adjusted, also simultaneously Nearly burnt light source 311 can easily be withdrawn and closely burnt target 312 avoids the influence to remote burnt test module 32.Remote burnt test mould By using teleconverter 324 remote the distance between burnt light source 321 and carrier 15 are reduced in block 32, reduce whole second and survey The volume of unit 3 is tried, further saves the space-consuming of the module test equipment of the present invention.

With reference to shown in Fig. 2 and Fig. 7, according to one embodiment of the present invention, the 3rd test cell 4 includes the second test light Source 41, the first target 42, the first light source bracket 43 and the first fixed block 44.In the present embodiment, the first target 42 is detachable Ground is connected with each other with the second testing light source 41.Vertically the second testing light source 41 is slidably connected with the first light source bracket 43. Position of second testing light source 41 on the first light source bracket 43 is fixed by the first fixed block 44.In present embodiment In, the upper-lower position of the second testing light source 41 can be manually adjusted, and tested second by the first fixed block 44 Position of the light source 41 on the first light source bracket 43 is fixed.It is additionally provided with 3rd test cell 4 for controlling the second testing light source Second testing light source adjusting means 45 of 41 brightness.In the present embodiment, the second testing light source 41 is PDAF20 light sources, first Target 42 is PDAF20 targets.

With reference to shown in Fig. 2 and Fig. 8, according to one embodiment of the present invention, the 4th test cell 5 includes the 3rd test light Source 51, the second target 52, secondary light source support 53, dark-state test board 54 and dark-state test board drive mechanism 55.In this embodiment party In formula, the second target 52 is supported on the 3rd testing light source 51, and the second target 52 and the 3rd testing light source 51 are removably Connection.3rd testing light source 51 is vertically fixedly supported on secondary light source support 53.In the present embodiment, dark-state test board 54 between the 3rd testing light source 51 and grip unit 1.Dark-state test board drive mechanism 55 interconnects with the phase of dark-state test board 54 Connect, dark-state test board drive mechanism 55 can drive dark-state test board 54 vertically to move.In the present embodiment, the 3rd survey Examination light source 51 is PDAF50 light sources, and the second target 52 is PDAF50 targets.

With reference to shown in Fig. 1, Fig. 2 and Fig. 9, control unit 7 is also included according to module test equipment of the present invention.In this embodiment party In formula, control unit 7 respectively with grip unit 1, the first test cell 2, the second test cell 3, the 3rd test cell 4 and the 4th Test cell 5 electrically connects.Can be realized to grip unit 1 by control unit 7, the first test cell 2, the second test cell 3, Motion control and the parameter setting of 3rd test cell 4 and the 4th test cell 5, and control unit 7 can also gather clamping The test information that communicator 14 transmits on unit 1, and module is tested.

With reference to the above-mentioned description of the invention, further the module testing method of the present invention is described in detail.

According to one embodiment of the present invention, included according to the detection method of the present invention：

S1. to carrier 15 of the first installation position 121 installation with module, the survey to module on the first installation position 121 is completed Examination；

S2. rotation platform 12 rotates, and the first installation position 121 is relative with the second test cell 3；

S3. to carrier 15 of the second installation position 122 installation with module, the first installation position 121 and the second installation position are completed The test of module on 122；

S4. rotation platform 12 rotates, and the first installation position 121 is relative with the 3rd test cell 4；

S5. to carrier 15 of the 3rd installation position 123 installation with module, complete to the first installation position 121, the second installation position 122nd, on the 3rd installation position 123 module test；

S6. rotation platform 12 rotates, and the first installation position 121 is relative with the 4th test cell 5；

S7. to carrier 15 of the 4th installation position 124 installation with module, complete to the installation of the first installation position 121, second The test of module on 122, the 3rd installation positions 123 in position, the 4th installation position 124；

S8. repeat step S1-S7, until all detection is completed.

According to one embodiment of the present invention, to carrier 15 of the first installation position 121 installation with module, complete to the Further comprise on one installation position 121 the step of the test of module：

Step S11. in the present embodiment, module is installed between the cover plate 151 of carrier 15 and bottom plate 152.Mould will be housed Group is installed on the first installation position 121 of rotation platform 12 in carrier 15.Carrier 15 it is vertical be arranged on the first installation position 121 On, carrier 15 is arranged in a mutually vertical manner by bottom plate 152 and the first installation position 121.

In the present embodiment, the communicator 14 on the first station 131 passes through displacement mechanism 142 to step S12. The linear movement of communication agency 141 is driven, the communication interface 141a on communication agency 141 connects with the transmission on the bottom plate 152 of carrier 15 Mouth 152a is connected, so as to realize the connection of the module in carrier 15 and control unit 7.

In the present embodiment, first driving means 22 drive the first testing light source 21 to be moved upward to and carry to step S13. Have 15 relative positions.Module on carrier 15 is imaged to the first testing light source 21.

In the present embodiment, module passes the image of intake by the coffret 152a on carrier 15 to step S14. Go out, and be transferred to control unit 7 by communication interface 141a and tested.After the completion of test, displacement mechanism 142 moves, and makes to lead to Letter mechanism 141 moves to the direction away from carrier 15, and communication interface 141a disconnects with coffret 152a.First driving dress Put 22 the first testing light sources of driving 21 to move downward, the first testing light source 21 is returned to initial position.

According to one embodiment of the present invention, to carrier 15 of the second installation position 122 installation with module, first is completed Further comprise on the installation position 122 of installation position 121 and second the step of the test of module：

Step S31. in the present embodiment, module is installed between the cover plate 151 of carrier 15 and bottom plate 152.Mould will be housed Group is installed on the second installation position 122 of rotation platform 12 in carrier 15.Carrier 15 it is vertical be arranged on the second installation position 122 On, carrier 15 is arranged in a mutually vertical manner by bottom plate 152 and the second installation position 122.

Step S32. repeat steps S12-S14 completes the test to the module in carrier 15 on the second installation position 122, herein Repeat no more；

In the present embodiment, the communicator 14 in second station 132 passes through displacement mechanism 142 to step S33. The linear movement of communication agency 141 is driven, the communication interface 141a on communication agency 141 connects with the transmission on the bottom plate 152 of carrier 15 Mouth 152a is connected, so as to realize the connection of the module in carrier 15 and control unit 7.

Step S34. in the present embodiment, the first nearly burnt drive mechanism 313 drive the nearly burnt vertical shift of light source 311 to The relative position of carrier 15, the second nearly burnt drive mechanism 314 drive nearly burnt light source 311 move horizontally the nearly burnt light source 311 of adjustment with The image of intake is passed through the transmission on carrier 15 by the distance between carrier 15, the image of the nearly burnt mark version 312 of module intake, module Interface 152a is spread out of, and is transferred to control unit 7 by communication interface 141a and is tested.After completing test, the first nearly burnt drive The nearly burnt drive mechanism 314 of motivation structure 313 and second is moved respectively, and drives nearly burnt light source 311 to return to initial position.

Step S35. increments drive device 325 drives the vertical shift of teleconverter 324 to the position relative with carrier 15.It is remote burnt Drive device 323 drives remote burnt light source 321 to move horizontally adjustment remote the distance between burnt light source 321 and carrier 15.Module absorbs The image of remote burnt target 322, module spreads out of the image of intake by the coffret 152a on carrier 15, and is connect by communication Mouth 141a is transferred to control unit 7 and tested.Increment drive device 325 drives teleconverter 324 to return to initial position, remote burnt drive Dynamic device 323 drives remote burnt light source 321 to return to initial position.Displacement mechanism 142 moves, and makes communication interface 141a and coffret 152a disconnects, and remote burnt light source 321 returns to initial position；

S36. the detection to module on the first installation position 121 is completed.

According to one embodiment of the present invention, to carrier 15 of the 3rd installation position 123 installation with module, complete to the One installation position 121, the second installation position 122, on the 3rd installation position 123 module test；The step of further comprise：

S51. in the present embodiment, module is installed between the cover plate 151 of carrier 15 and bottom plate 152.By equipped with module It is installed in carrier 15 on the 3rd installation position 123 of rotation platform 12.Carrier 15 is vertical to be arranged on the 3rd installation position 123, Carrier 15 is arranged in a mutually vertical manner by bottom plate 152 and the 3rd installation position 123.

S52. repeat step S12-S14 completes the test to the module in carrier 15 on the 3rd installation position 123, herein no longer Repeat；

S53. repeat step S33-S35 completes the test to the module in carrier 15 on the second installation position 122, herein no longer Repeat；

S54. in the present embodiment, the communicator 14 in 3rd station 133 is driven by displacement mechanism 142 The linear movement of communication agency 141, the communication interface 141a on communication agency 141 and the coffret on the bottom plate 152 of carrier 15 152a is connected, so as to realize the connection of the module in carrier 15 and control unit 7.

S55. in the present embodiment, module in carrier 15 absorbs the image of the first target 42, and module is by the figure of intake As being spread out of by the coffret 152a on carrier 15, and it is transferred to control unit 7 by communication interface 141a and is tested.Position Telephone-moving structure 142 moves, and disconnects communication interface 141a and coffret 152a；

S55. the test to the module in carrier 15 on the first installation position 121 is completed.

According to one embodiment of the present invention, to carrier 15 of the 4th installation position 124 installation with module, complete to the One installation position 122 of installation position 121, second, the 3rd installation position 123, on the 4th installation position 124 the step of the test of module Include：

S71. in the present embodiment, module is installed between the cover plate 151 of carrier 15 and bottom plate 152.By equipped with module It is installed in carrier 15 on the 4th installation position 124 of rotation platform 12.Carrier 15 is vertical to be arranged on the 4th installation position 124, Carrier 15 is arranged in a mutually vertical manner by bottom plate 152 and the 4th installation position 124.

S72. repeat step S12-S14 completes the test to the module in carrier 15 on the 4th installation position 124, herein no longer Repeat；

S73. repeat step S33-S35 completes the test to the module in carrier 15 on the 3rd installation position 123, herein no longer Repeat；

S74. repeat step S54-S55 completes the test to the module in carrier 15 on the second installation position 122, herein no longer Repeat；

S75. in the present embodiment, the communicator 14 on the 4th station 134 is driven by displacement mechanism 142 The linear movement of communication agency 141, the communication interface 141a on communication agency 141 and the coffret on the bottom plate 152 of carrier 15 152a is connected, so as to realize the connection of the module in carrier 15 and control unit 7.

S76. in the present embodiment, the module in carrier 15 absorbs the image of the second target 52.Module is by the figure of intake As being spread out of by the coffret 152a on carrier 15, and it is transferred to control unit 7 by communication interface 141a and is tested.

S77. in the present embodiment, dark-state test board drive mechanism 55 drive dark-state test board 54 vertically movable to load Have a 15 relative positions, the image of the module intake dark-state test board 54 in carrier 15.The image of intake is passed through carrier by module Coffret 152a outflows on 15, and be transferred to control unit 7 by communication interface 141a and tested.Displacement mechanism 142 Motion, disconnect communication interface 141a and coffret 152a；

S78. the test to the module in carrier 15 on the first installation position 121 is completed.

For the equipment and structure of wherein not detailed description, it should be understood that take the existing common apparatus in this area and lead to It is practiced with method.

An embodiment of the invention is the foregoing is only, is not intended to limit the invention, for this area For technical staff, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made is any Modification, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims

A kind of 1. module test equipment, it is characterised in that including：Grip unit (1), the first test cell (2), the second test are single First (3), the 3rd test cell (4) and the 4th test cell (5)；

The grip unit (1) and first test cell (2), second test cell (3), the 3rd test cell (4) mutually can be oppositely arranged with displacement with the 4th test cell (5).
2. module test equipment according to claim 1, it is characterised in that first test cell (2), described second Test cell (3), the 3rd test cell (4) and the 4th test cell (5) are set around the grip unit (1), And first test cell (2), second test cell (3), the 3rd test cell (4) and the 4th test are single First (5) are equally spaced between each other.
3. module test equipment according to claim 1, it is characterised in that the grip unit (1) is located at linear rows Arrange first test cell (2) set, second test cell (3), the 3rd test cell (4) and the described 4th The same side of test cell (5).
4. module test equipment according to claim 2, it is characterised in that the grip unit (1) includes：

Supporting member (11)；

Rotation platform (12), the rotation platform (12) are rotatably supported on the supporting member (11)；

Station platform (13), mutually coaxially fixed bearing is located at the supporting to the station platform (13) with the rotation platform (12) On part (11), and the station platform (13) is located above the rotation platform (12)；

Communicator (14), the communicator (14) are fixedly attached on the station platform (13)；

Carrier (15), the carrier (15) and the rotation platform (12) are detachably connected.
5. module test equipment according to claim 4, it is characterised in that the station platform (13) includes：

First station (131), first station (131) setting corresponding with first test cell (2)；

Second station (132), the second station (132) setting corresponding with second test cell (3)；

3rd station (133), 3rd station (133) setting corresponding with the 3rd test cell (4)；

4th station (134), the 4th station (134) setting corresponding with the 4th test cell (5).
6. module test equipment according to claim 5, it is characterised in that the rotation platform (12) includes：

First installation position (121), first installation position (121) setting corresponding with first test cell (2)；

Second installation position (122), second installation position (122) setting corresponding with second test cell (3)；

3rd installation position (123), the 3rd installation position (123) setting corresponding with the 3rd test cell (4)；

4th installation position (124), the 4th installation position (124) setting corresponding with the 4th test cell (5).
7. module test equipment according to claim 6, it is characterised in that first station (131), second work Position (132), the 3rd station (133), the 4th station (134) are separately installed with the communicator (14)；

The communicator (14) includes communication agency (141), and the displacement mechanism that the driving communication agency (141) is mobile (142), wherein, the communication agency (141) is provided with communication interface (141a).
8. module test equipment according to claim 7, it is characterised in that the carrier (15) is pacified with described first respectively Dress position (121), the second installation position (122), the 3rd installation position (123), the 4th installation position (124) are detachably connected；

The carrier (15) includes cover plate (151) and bottom plate (152), wherein the bottom plate (152) is provided with and the communication interface (142) coffret (152a) to match.
9. the module test equipment according to one of claims 1 to 3, it is characterised in that the first test cell (2) bag Include：

First testing light source (21)；

First driving means (22), the first driving means (22) are connected with each other with first testing light source (21), and drive Move the first testing light source (21) vertical shift.
10. the module test equipment according to one of claims 1 to 3, it is characterised in that second test cell (3) Including：Nearly burnt test module (31) and remote burnt test module (32)；

The nearly burnt test module (31) is positioned at described far between burnt test module (32) and the grip unit (1).
11. module test equipment according to claim 10, it is characterised in that the nearly burnt test module (31) includes：

Nearly burnt light source (311)；

Nearly burnt target (312), the nearly burnt target (312) and the nearly burnt light source (311) are detachably connected；

First nearly burnt drive mechanism (313), the described first nearly burnt drive mechanism (313) driving nearly burnt light source (311) are vertical It is mobile；

Second nearly burnt drive mechanism (314), the described second nearly burnt drive mechanism (314) driving nearly burnt light source (311) are horizontal It is mobile.
12. module test equipment according to claim 11, it is characterised in that the remote burnt test module (32) includes：

Remote burnt light source (321)；

Remote burnt target (322), the remote burnt target (322) and the remote burnt light source (321) are detachably connected；

Remote burnt drive device (323), remote burnt drive device (323) the driving remote burnt light source (321) move horizontally；

Teleconverter (324), the teleconverter (324) positioned at the remote burnt light source (321) and the nearly burnt test module (31) it Between；

Increment drive device (325), the increment drive device (325) drive teleconverter (324) vertical shift.
13. the module test equipment according to one of claims 1 to 3, it is characterised in that the 3rd test cell (4) Including：

Second testing light source (41)；

First target (42), first target (42) and second testing light source (41) are detachably connected；

First light source bracket (43), second testing light source (41) are vertically slided with first light source bracket (43) Connection；

First fixed block (44), for fixing position of second testing light source (41) on first light source bracket (43) Put.
14. the module test equipment according to one of claims 1 to 3, it is characterised in that the 4th test cell (5) Including：

3rd testing light source (51)；

Second target (52), second target (52) and the 3rd testing light source (51) are detachably connected；

Secondary light source support (53), the 3rd testing light source (51) are fixedly attached on the secondary light source support (53).
15. module test equipment according to claim 14, it is characterised in that the 4th test cell (5) also includes：

Dark-state test board (54), the dark-state test board (54) are located at the 3rd testing light source (51) and the grip unit (1) between；

Dark-state test board drive mechanism (55), the dark-state test board drive mechanism (55) drive the dark-state test board (54) perpendicular Straight motion.
16. the module test equipment according to one of claims 1 to 3, it is characterised in that also include：

Frame (6), for supporting the grip unit (1), first test cell (2), second test cell (3), 3rd test cell (4) and the 4th test cell (5)；

Control unit (7), described control unit (7) are first test cell (2), described respectively with the grip unit (1) Second test cell (3), the 3rd test cell (4) and the 4th test cell (5) electrical connection.
17. a kind of module testing method, including：

S1. to carrier (15) of the first installation position (121) installation with module, complete to module on the first installation position (121) Test；

S2. rotation platform (12) rotates, and the first installation position (121) are relative with the second test cell (3)；

S3. to carrier (15) of the second installation position (122) installation with module, the first installation position (121) and the second installation are completed The test of module on position (122)；

S4. rotation platform (12) rotates, and the first installation position (121) are relative with the 3rd test cell (4)；

S5. to carrier (15) of the 3rd installation position (123) installation with module, complete to the first installation position (121), the second installation The test of module on position (122), the 3rd installation position (123)；

S6. rotation platform (12) rotates, and the first installation position (121) are relative with the 4th test cell (5)；

S7. to carrier (15) of the 4th installation position (124) installation with module, complete to the first installation position (121), second peace Fill position (122), the 3rd installation position (123), on the 4th installation position (124) module test；

S8. repeat step S1-S7, until all detection is completed.
18. module testing method according to claim 17, it is characterised in that have to the first installation position (121) installation The carrier (15) of module, complete to further comprising on the first installation position (121) the step of the test of module：

S11. to carrier (15) of the first installation position (121) installation with module；

S12. the coffret in the communication interface (141a) and carrier (15) on the communicator (14) on the first station (131) (152a) is connected；

S13. first driving means (22) drive the first testing light source (21) to be moved upward to the position relative with the carrier (15) Put；

S14. module absorbs image and completes to test, and the communication interface (141a) disconnects with the coffret (152a), institute State the first testing light source (21) and return to initial position.
19. module testing method according to claim 18, it is characterised in that have to the second installation position (122) installation The carrier (15) of module, it is further in the step of completing the test of module on the first installation position (121) and the second installation position (122) Including：

S31. to carrier (15) of the second installation position (122) installation with module；

S32. repeat step S12-S14 completes the test to module on the second installation position (122)；

S33. the coffret in the communication interface (141a) and carrier (15) on the communicator (14) in second station (132) (152a) is connected；

S34. the first nearly burnt nearly burnt light source (311) vertical shift of drive mechanism (313) driving extremely position relative with carrier (15), The second nearly burnt nearly burnt light source (311) of drive mechanism (314) driving moves horizontally adjustment closely between burnt light source (311) and carrier (15) Distance, the image of the nearly burnt mark version (312) of module intake, the nearly burnt light source (311) returns to initial position；

S35. increment drive device (325) driving teleconverter (324) vertical shift is far burnt to drive to the position relative with carrier (15) The dynamic remote burnt light source (321) of device (323) driving moves horizontally adjustment remote the distance between burnt light source (321) and carrier (15), mould The image of the remote burnt target (322) of group intake, the communication interface (141a) disconnect with the coffret (152a), described remote burnt Light source (321) returns to initial position；

S36. the test to module on the first installation position (121) is completed.
20. module testing method according to claim 19, it is characterised in that have to the installation of the 3rd installation position (123) The carrier (15) of module, complete to module on the first installation position (121), the second installation position (122), the 3rd installation position (123) The step of test, further comprises：

S51. to carrier (15) of the 3rd installation position (123) installation with module；

S52. repeat step S12-S14 completes the test to module on the 3rd installation position (123)；

S53. repeat step S33-S35 completes the test to module on the second installation position (122)；

S54. the coffret in the communication interface (141a) and carrier (15) on the communicator (14) in 3rd station (133) (152a) is connected；

S55. module absorbs the image of the first target (42), and the communication interface (141a) is disconnected with the coffret (152a) Open；

S55. the test to module on the first installation position (121) is completed.
21. module testing method according to claim 20, it is characterised in that have to the installation of the 4th installation position (124) The carrier (15) of module, complete to the first installation position (121), second installation position (122), the 3rd installation position (123), the 4th Include on individual installation position (124) the step of the test of module：

S71. to carrier (15) of the 4th installation position (124) installation with module；

S72. repeat step S12-S14 completes the test to module on the 4th installation position (124)；

S73. repeat step S33-S35 completes the test to module on the 3rd installation position (123)；

S74. repeat step S54-S55 completes the test to module on the second installation position (122)；

S75. the coffret in the communication interface (141a) and carrier (15) on the communicator (14) on the 4th station (134) (152a) is connected；

S76. module absorbs the image of the second target (52)；

S77. dark-state test board drive mechanism (55) driving dark-state test board (54) is vertically movable to the position relative with carrier (15) Put, the image of module intake dark-state test board (54), the communication interface (141a) disconnects with the coffret (152a)；

S78. the test to module on the first installation position (121) is completed.