CN105812638A - PDAF (Phase Detection Auto Focus) multi-station testing and burning integrated machine of camera module - Google Patents

Abstract

The invention discloses a PDAF (Phase Detection Auto Focus) multi-station testing and burning integrated machine of a camera module. The machine comprises an operation platform, one or two rotation worktables arranged on the operation platform, a drive source which is arranged under the operation platform and drives the rotation worktable to rotate positively and reversely and position, a light source mechanism A and a light source mechanism B which are arranged at the left side or the right side of the operation platform and can move back and forth, and a light source mechanism C which is arranged at the rear side of the operation platform and can move back and forth. Four testing stations are evenly distributed at periphery of the rotation worktable. Each test station is equipped with a testing main board mechanism and a product overturning mechanism which drives the testing main board mechanism and drives a to-be-tested camera module mounted on the testing main board mechanism to overturn vertically. The machine is simple in structure and convenient in use. One-person 4-station, 8-station or 16-station work can be realized. The manpower and hardware cost are saved efficiently.

Description

Photographic head module PDAF multistation test burning integration board

Technical field

The present invention relates to a kind of photographic head module detection equipment, be specifically related to a kind of photographic head module PDAF multistation test burning integration board.

Background technology

PDAF phase place is focused, and its full name is PhaseDetectionAutoFocus, and literal meaning is exactly " phase-detection auto-focusing ".Its principle is to reserve some on photo-sensitive cell to cover pixel, it is specifically used to and carries out phase-detection, the deviant of focusing is determined thus realizing accurately focusing by the distance between pixel and change thereof etc., phase place focusing need not find focusing by the front and back adjustment of mirror group, but just judge that the position of current focusing is forward or rearward by the signal of phase-detection when focus operation is at the beginning, and focusing information is told the driving module of camera lens directly mirror group is pushed into focal position accurately accurately.Its advantage is: having only to calculating and once just complete focusing, focusing speed is exceedingly fast, and reduces processor computation burden.Along with the lifting of level of consumption, it is more and more higher to consume the requirement to mobile phone camera module, and image sharpness resolution requirement is high, and phase place focusing has obviously advantage, that is, focusing speed is quite fast, and the efficiency of focusing is high.Therefore, the focusing of PDAF phase place starts to be applied on smart mobile phone.Therefore, the very necessary PDAF for mobile phone camera module tests burning hardware environment and improves, and to reach to save manpower, board cost, bigger shortening production cycle, promotes the concordance of photographic head module and the purpose of the performance of each side.

Summary of the invention

In order to solve above-mentioned technical problem, the present invention proposes a kind of photographic head module PDAF multistation test burning integration board, and simple in construction is easy to adjust, it may be achieved 1 people 4 station, 8 stations or 16 station operations, thus reaching efficiently to save manpower and hardware cost.

The technical scheme is that and be achieved in that:

A kind of photographic head module PDAF multistation test burning integration board, including operating platform, one or two rotary table being located on described operating platform, is located under described operating platform to drive described rotary table rotating the drive source positioned, is located on the left of described operating platform or light source mechanism A and light source mechanism B that right side can move forward and backward and be located at the light source mechanism C that can move forward and backward on rear side of described operating platform；On described rotary table, circumference is laid with four test bits, and each test bit is provided with testing host mechanism and drives described testing host mechanism and drive the product reversing machine structure of the photographic head module flip vertical to be measured installed on it.

Further, described testing host mechanism includes base, one or two testing host of being installed on described base and localization tool, and photographic head module to be measured is positioned on described localization tool, and corresponding testing host electrical connection；Described product reversing machine structure includes spaced two supports and drive motor F, described base is articulated between two described supports by rotating shaft, described drive motor F is installed on a support, and its power output shaft can drive described rotating shaft and drives described base flip vertical and position.

Further, being provided with two described testing hosts in the middle part of each base side by side, described localization tool is fixed in described base side by support, and is provided with two photographic head modules to be measured on described localization tool.

Further, described localization tool includes fixing seat and upset lid, described upset lid side is articulated in described fixing seat side, and described upset lid opposite side is by buckle structure and described fixing seat opposite side clamping, and described photographic head module to be measured is positioned described upset lid middle part.

Further, left and right is provided with two described rotary tables side by side, and on each rotary table, circumference is evenly equipped with four described test bits, and in each test bit, described testing host mechanism is provided with two described testing hosts and two described photographic head to be measured.

Further, described light source mechanism A includes for luminance gain the blank test panel calculated and the movable mechanism A driving described blank test panel to move forward and backward and position；Described light source mechanism B includes the hachure test panel for phase difference calculating and the movable mechanism B driving described hachure test panel to move left and right and position.

Further, the guide rail A that described movable mechanism A includes gripper shoe A, fore-and-aft direction is located on described gripper shoe A, two drive A and two the drive A being installed on described gripper shoe A coordinate the transmission of transmission with A and to drive the transmission drive motor A with A transmission, and described blank test panel slides and is located on guide rail A；The guide rail B that described movable mechanism B includes gripper shoe B, fore-and-aft direction is located on described gripper shoe B, two drive B and two the drive B being installed on described gripper shoe B coordinate the transmission of transmission with B and to drive the transmission drive motor B with B transmission, and described hachure test panel slides and is located on guide rail B.

Further, described blank test panel slide anteroposterior is located on a test panel gripper shoe A, and is moved around by screw mechanism A driving and positioned, and described test panel gripper shoe A is slidedly arranged on described guide rail A by slide block；Described hachure test panel slide anteroposterior is located on a test panel gripper shoe B, and drives it to move forward and backward by screw mechanism B and position, and described test panel gripper shoe B is slidedly arranged on described guide rail B by slide block.

Further, described light source mechanism C includes the thick lines test panel for phase difference calculating and the movable mechanism C driving described thick lines test panel to move forward and backward and position；The guide rail C that described movable mechanism C includes gripper shoe C, fore-and-aft direction is located on described gripper shoe C, described thick lines test panel C is slidedly arranged on described guide rail C by slide block, and drives it to move forward and backward by screw mechanism C and position.

Further, also including a frame, the middle part of described frame is located at by described operating platform；Corresponding each rotary table, it is provided with a PC, a controller, a display, corresponding each testing host is provided with triggering keyboard, described display, described controller, described testing host and described triggering keyboard all electrically connect with described PC, described display is fixedly arranged on described test platform the upright position to operator, and described triggering keyboard is embedded on described operating platform.

The invention has the beneficial effects as follows: the present invention provides a kind of photographic head module PDAF multistation test burning integration board, by arranging rotary table on the operational platform, and arranges on each rotary table

By being sequentially arranged three testing host mechanisms on the operational platform, left and right Liang Ge testing host mechanism realizes moving left and right positioning function by product travel mechanism, in three testing host mechanisms, photographic head module to be measured carries out vertical rotary by product reversing machine structure, it can be made towards the test burning mechanism in test window, thus starting the operations such as test and OTP burning；Therefore, the invention provides 1 people and can operate the photographic head module PDAF multistation test burning integration board of 6 stations of 3 station simultaneously, efficiently save manpower and hardware cost waste, shorten more greatly the production cycle, and improve the concordance of product and the performance of each side.

Accompanying drawing explanation

Fig. 1 is overall viewing angle perspective view of the present invention；

Fig. 2 is overall (the removing frame) perspective view of the present invention；

Fig. 3 is A place structure for amplifying schematic diagram in Fig. 2；

Fig. 4 is overall (the removing frame) top view of the present invention；

Fig. 5 is that in the present invention, rotary table and upper mechanism thereof coordinate perspective view；

Fig. 6 is that in the present invention, rotary table and upper mechanism thereof coordinate side view；

Fig. 7 is testing host mechanism structure schematic diagram in the present invention；

In conjunction with accompanying drawing, make the following instructions:

null1-operating platform，2-rotary table，3-drive source，4-light source mechanism A，401-blank test panel，402-moves forward and backward mechanism A，4021-gripper shoe A，4022-guide rail A，4023-drive A，4024-drive motor A，4025-test panel gripper shoe A，4026-screw mechanism A，5-light source mechanism B，501-hachure test panel，502-moves forward and backward mechanism B，5021-gripper shoe B，5022-guide rail B，5023-drive B，5024-drive motor B，5025-test panel gripper shoe B，5026-screw mechanism B，6-light source mechanism C，601-thick lines test panel，602-moves forward and backward mechanism C，6021-gripper shoe C，6022-guide rail C，6023-screw mechanism C，7-testing host mechanism，701-base，702-testing host，703-localization tool，7031-fixes seat，7032-overturns lid，7033-buckle structure，8-photographic head module to be measured，9-product reversing machine structure，901-support，902-drive motor F，10-frame，11-display，12-triggers keyboard.

Detailed description of the invention

In order to be more clearly understood that the technology contents of the present invention, describing in detail especially exemplified by following example, it limits the scope of the invention only for purpose of being best understood from present disclosure.

As depicted in figs. 1 and 2, a kind of photographic head module PDAF multistation test burning integration board, including operating platform 1, one or two rotary table 2 being located on described operating platform, is located under described operating platform to drive described rotary table rotating the drive source 3 positioned, is located on the left of described operating platform or light source mechanism A4 and light source mechanism B5 that right side can move forward and backward and be located at the light source mechanism C6 that can move forward and backward on rear side of described operating platform；On described rotary table, circumference is laid with four test bits, and each test bit is provided with testing host mechanism 7 and drives described testing host mechanism and drive the product reversing machine structure 9 of photographic head module 8 flip vertical to be measured installed on it.So, by arranging one or two rotary table on the operational platform, and four test bits are set on each rotary table, each test bit arranges testing host mechanism and drives the product reversing machine structure of its flip vertical, and on the left of rotary table or right side and rear side be arranged to the adjustable position of PDAF test and light source mechanism A, B and C of distance, achieve 1 people 4 station, 8 stations or 16 station operations, thus reaching efficiently to save the purpose of manpower and hardware cost.

Preferably, referring to Fig. 5 and Fig. 6, described testing host mechanism includes base 701, be installed on described base one or two testing host 702 and localization tool 703, photographic head module to be measured is positioned on described localization tool, and corresponding testing host electrical connection；Described product reversing machine structure includes spaced two supports 901 and drive motor F902, described base is articulated between two described supports by rotating shaft, described drive motor F is installed on a support, and its power output shaft can drive described rotating shaft and drives described base flip vertical and position.So, testing host mechanism installs an a testing host then corresponding photographic head module to be measured, testing host mechanism installs two testing hosts then corresponding two photographic head modules to be measured, forms double, can select according to actual needs；By rotating shaft, testing host mechanism is rotated two supports being installed on product reversing machine structure, and rotated by drive motor F drive shaft, the flip vertical of photographic head module to be measured can be realized, when installing photographic head to be measured, testing host mechanism is in level, when needs are tested, testing host mechanism is in plumbness, in order to install feeding and test.

Preferably, being provided with two described testing hosts in the middle part of each base side by side, described localization tool is fixed in described base side by support, and is provided with two photographic head modules to be measured on described localization tool.So, during double, localization tool is installed to base side, convenient installation and feeding by support.

Preferably, referring to Fig. 7, described localization tool includes fixing seat 7031 and upset lid 7032, described upset lid side is articulated in described fixing seat side, described upset lid opposite side is by buckle structure 7033 and described fixing seat opposite side clamping, and described photographic head module to be measured is positioned described upset lid middle part.So, during test, photographic head module product to be measured is installed in the upset lid opened, afterwards turn over fastening upset lid both can, photographic head module to be measured covers circuit structure by upset and electrically connects with testing host.

Preferably, left and right is provided with two described rotary tables side by side, and on each rotary table, circumference is evenly equipped with four described test bits, and in each test bit, described testing host mechanism is provided with two described testing hosts and two described photographic head to be measured.In this manner it is achieved that 1 people operates 16 station operations, save manpower and hardware cost greatly.

Preferably, include for luminance gain the blank test panel 401 calculated and the movable mechanism A402 driving described blank test panel to move forward and backward and position referring to Fig. 3, described light source mechanism A；Described light source mechanism B includes the hachure test panel 501 for phase difference calculating and the movable mechanism B502 driving described hachure test panel to move left and right and position.Blank test panel is mainly made up of blank light source, and the luminance gain for PDAF test calculates, i.e. test Gainmap data, can be driven by left/right movement device C and move around, it is located between testing host mechanism and light source mechanism A, and relative with photographic head module to be measured, test.Hachure test panel is mainly formed (for thick lines) by the some black thin bars being intervally arranged on blank light source, phase contrast is calculated for PDAF when testing, i.e. tested K value (slope: the slope of PD phase contrast and code), requirement is positioned at 20cm place before photographic head module to be measured, can be driven by left/right movement device B and move around, it is located between testing host mechanism and light source mechanism A, and relative with photographic head module to be measured.

Preferably, referring to Fig. 3, the guide rail A4022 that described movable mechanism A includes gripper shoe A4021, fore-and-aft direction is located on described gripper shoe A, two drive A4023 and two the drive A being installed on described gripper shoe A coordinate the transmission of transmission with A and to drive the transmission drive motor A4024 with A transmission, and described blank test panel slides and is located on guide rail A；The guide rail B5022 that described movable mechanism B includes gripper shoe B5021, fore-and-aft direction is located on described gripper shoe B, two drive B5023 and two the drive B being installed on described gripper shoe B coordinate the transmission of transmission with B and to drive the transmission drive motor B5024 with B transmission, and described hachure test panel slides and is located on guide rail B.So, blank test panel is slidedly arranged on guide rail A, then, it is transmitted in blank test panel through drive A and transmission band A, it is possible to achieve movable blank test panel is also positioned at the function specifying position, equally by drive motor A, hachure test panel is slidedly arranged on guide rail B, then, it is transmitted in hachure test panel by drive motor B through drive B and transmission band B, it is possible to achieve move left and right hachure test panel and be positioned at the function specifying position.Here, hachure test panel and blank test panel as common guide rails, can be slidedly arranged on guide rail A and guide rail B by guide rail A and guide rail B jointly.

Preferably, referring to Fig. 3, described blank test panel slide anteroposterior is located on a test panel gripper shoe A4025, and is moved around by screw mechanism A4026 driving and positioned, and described test panel gripper shoe A is slidedly arranged on described guide rail A by slide block；Described hachure test panel slide anteroposterior is located on a test panel gripper shoe B5025, and drives it to move forward and backward by screw mechanism B5026 and position, and described test panel gripper shoe B is slidedly arranged on described guide rail B by slide block.So, by blank test panel is slidedly arranged on test panel gripper shoe A, and driven by screw mechanism A, it may be achieved blank test panel action direction position adjustments, namely regulate the distance between blank test panel and photographic head module to be measured.Equally, by hachure test panel is slidedly arranged on test panel gripper shoe B, and driven by screw mechanism, it may be achieved hachure test panel left and right directions position adjustments, namely regulate the distance between hachure test panel and photographic head module to be measured.Here, screw mechanism A and screw mechanism B adopts the form manually tuned, it would however also be possible to employ driven by motor.Screw mechanism A and screw mechanism B is prior art, and including the nut etc. that the bearing of screw rod, standing screw coordinates with screw rod, nut, by affixed bottom adapter and test panel, can drive test panel left and right directions to move and position.

Preferably, the thick lines test panel 601 for phase difference calculating and the movable mechanism C602 driving described thick lines test panel to move forward and backward and position are included referring to Fig. 4, described light source mechanism C；The guide rail C6022 that described movable mechanism C includes gripper shoe C6021, fore-and-aft direction is located on described gripper shoe C, described thick lines test panel C is slidedly arranged on described guide rail C by slide block, and drives it to move forward and backward by screw mechanism C6023 and position.So, thick lines test panel is mainly made up of the some heavy black line bars being intervally arranged on blank light source, phase contrast is calculated for PDAF when testing, i.e. tested K value (slope: the slope of PD phase contrast and code), requirement is positioned at 40cm place before photographic head module to be measured, it can be driven to move forward and backward and position by movable mechanism.Thick lines test panel is slidedly arranged on guide rail C, and is driven by screw mechanism C, it may be achieved thick lines test panel fore-and-aft direction position adjustments, namely regulate the distance between thick lines test panel and photographic head module to be measured.

Preferably, also including a frame 10, the middle part of described frame is located at by described operating platform；Corresponding each rotary table, it is provided with a PC, a controller, a display 11, corresponding each testing host is provided with triggering keyboard 12, described display, described controller, described testing host and described triggering keyboard all electrically connect with described PC, described display is fixedly arranged on described test platform the upright position to operator, and described triggering keyboard is embedded on described operating platform.So, operating platform is located at the middle part of frame and is facilitated operator to operate, and by arranging display, it is possible to test result shown by display, facilitates operator to judge the test of photographic head module and PDAF burn job whether ok according to test result.PC sends instructions to controller, and controller can control the action of product reversing machine structure, rotary table and each light source mechanism, it is achieved automated job；By triggering the program that keyboard coordinates PC to set, every test of one-key operation photographic head module can be realized, the automatic judgement of all test items can be realized by triggering keyboard and the testing and control software of installing in PC, after entering whole testing process, employee need not pay close attention to test process, it is only necessary to sees last result.

Below for sixteen work station, illustrate that the operation principle of photographic head module PDAF multistation of the present invention test burning integration board is:

nullFirst，The position of operator is being just upper material level by rotary table，With operator just to conduct the first test bit，Operator open the localization tool of testing host mechanism in the first test bit，Load first and second product，Test is started by triggering key，Product turning device drives testing host mechanism and drives first and second product flip vertical installing on it，Then，Rotary table starts just to turn 90 degrees under the driving of its drive source and starts to test to step1 and step2 test position，Test process is: front side light source mechanism A is moved rearwards by，Make the chart figure of light source mechanism A relative with the product after upset，Carry out luminance gain calculating，And it is reset to front side，Then，Rear side light source mechanism B moves forward，Make the chart figure of light source mechanism B relative with product after upset，Carry out phase difference calculating (20cm test)，And it is reset to left side；Simultaneously, second test bit is just right with operator, operator load the 3rd and the 4th product in the testing host mechanism of second test bit, by triggering key, after first and second product test completes, on rotary table, first and second product are just going to step3 and step4 test position and are starting test, test process is: movable light source mechanism C is to distance to a declared goal, carry out phase difference calculating (40cm test), finally, calibration of testing at 50cm place；Meanwhile, the 3rd and the 4th product rotates to step1 and step2 position and starts test, and meanwhile, the 3rd test bit is just right with operator, and operator load the 5th and the 6th product in the testing host mechanism of the 3rd test bit, by triggering key；Treat that first and second product test of step3 and step4 test position completes, and the 3rd and the 3rd of step1 and step2 test position the product test completes, rotary table starts to rotate to backward position, in the testing host mechanism of the 4th test bit, load the 7th and the 8th product simultaneously, by triggering key, treat that the 3rd and the 4th product test of step3 and step4 test position completes, turntable reverses 270 degree, now, 7th and the 8th product rotates to step1 and step2 position measurement, first and second product is just right with operator, take off first and second product, it is placed in PDAF burning OK magazine, repeat as above step to test.

Above example is with reference to accompanying drawing, to a preferred embodiment of the present invention will be described in detail.Those skilled in the art by carrying out amendment on various forms or change to above-described embodiment, but when without departing substantially from the essence of the present invention, all drops within protection scope of the present invention.

Claims (10)

1. photographic head module PDAF multistation test burning integration board, it is characterised in that: one or two rotary table (2) of include operating platform (1), being located on described operating platform, it is located under described operating platform to drive described rotary table rotating the drive source (3) positioned, is located on the left of described operating platform or light source mechanism A (4) and light source mechanism B (5) that right side can move forward and backward and be located at light source mechanism C (6) that can move forward and backward on rear side of described operating platform；On described rotary table, circumference is laid with four test bits, and each test bit is provided with testing host mechanism (7) and drives described testing host mechanism and drive the product reversing machine structure (9) of photographic head module (8) flip vertical to be measured installed on it.

2. photographic head module PDAF multistation according to claim 1 test burning integration board, it is characterized in that: described testing host mechanism includes base (701), one or two testing host (702) of being installed on described base and localization tool (703), photographic head module to be measured is positioned on described localization tool, and corresponding testing host electrical connection；Described product reversing machine structure includes spaced two supports (901) and drive motor F (902), described base is articulated between two described supports by rotating shaft, described drive motor F is installed on a support, and its power output shaft can drive described rotating shaft and drives described base flip vertical and position.

3. photographic head module PDAF multistation according to claim 2 test burning integration board, it is characterized in that: in the middle part of each base, be provided with two described testing hosts side by side, described localization tool is fixed in described base side by support, and is provided with two photographic head modules to be measured on described localization tool.

4. photographic head module PDAF multistation according to claim 2 test burning integration board, it is characterized in that: described localization tool includes fixing seat (7031) and upset lid (7032), described upset lid side is articulated in described fixing seat side, described upset lid opposite side is by buckle structure (7033) and described fixing seat opposite side clamping, and described photographic head module to be measured is positioned described upset lid middle part.

5. photographic head module PDAF multistation according to claim 1 test burning integration board, it is characterized in that: left and right is provided with two described rotary tables side by side, on each rotary table, circumference is evenly equipped with four described test bits, and in each test bit, described testing host mechanism is provided with two described testing hosts and two described photographic head to be measured.

6. photographic head module PDAF multistation according to claim 1 test burning integration board, it is characterised in that: described light source mechanism A includes the blank test panel (401) for luminance gain calculating and the movable mechanism A (402) driving described blank test panel to move forward and backward and position；Described light source mechanism B includes the hachure test panel (501) for phase difference calculating and the movable mechanism B (502) driving described hachure test panel to move left and right and position.

7. photographic head module PDAF multistation according to claim 6 test burning integration board, it is characterized in that: the guide rail A (4022) that described movable mechanism A includes gripper shoe A (4021), fore-and-aft direction is located on described gripper shoe A, be installed on described gripper shoe A two drive A (4023) coordinates the transmission of transmission with A and to drive the transmission drive motor A (4024) with A transmission with two drive A, and described blank test panel slides and is located on guide rail A；Described movable mechanism B includes gripper shoe B (5021), fore-and-aft direction is located at the guide rail B (5022) on described gripper shoe B, be installed on described gripper shoe B two drive B (5023) coordinates the transmission of transmission with B and to drive the transmission drive motor B (5024) with B transmission with two drive B, and described hachure test panel slides and is located on guide rail B.

8. photographic head module PDAF multistation according to claim 7 test burning integration board, it is characterized in that: described blank test panel slide anteroposterior is located on a test panel gripper shoe A (4025), and move around by screw mechanism A (4026) driving and position, described test panel gripper shoe A is slidedly arranged on described guide rail A by slide block；Described hachure test panel slide anteroposterior is located on a test panel gripper shoe B (5025), and is driven it to move forward and backward by screw mechanism B (5026) and positioned, and described test panel gripper shoe B is slidedly arranged on described guide rail B by slide block.

9. photographic head module PDAF multistation according to claim 1 test burning integration board, it is characterised in that: described light source mechanism C includes the thick lines test panel (601) for phase difference calculating and the movable mechanism C (602) driving described thick lines test panel to move forward and backward and position；Described movable mechanism C includes gripper shoe C (6021), fore-and-aft direction is located at the guide rail C (6022) on described gripper shoe C, described thick lines test panel C is slidedly arranged on described guide rail C by slide block, and is driven it to move forward and backward by screw mechanism C (6023) and positioned.

10. photographic head module PDAF multistation according to claim 1 test burning integration board, it is characterised in that: also including a frame (10), the middle part of described frame is located at by described operating platform；Corresponding each rotary table, it is provided with a PC, a controller, a display (11), corresponding each testing host is provided with triggering keyboard (12), described display, described controller, described testing host and described triggering keyboard all electrically connect with described PC, described display is fixedly arranged on described test platform the upright position to operator, and described triggering keyboard is embedded on described operating platform.