CN106200253A - Camera module glare tester board and glare tester method - Google Patents

Abstract

A kind of camera module glare tester board, comprising: test light box and be arranged on light source, black box and the measurement jig in test light box.A light hole it is formed with on black box.Measurement jig includes: bogey, rotary apparatus, test device, support means and driving means.Bogey is used for housing camera module, and camera module is used for capturing dazzle image.The lens location of light source, light hole and camera module is relative, so that the light transmission light hole vertical irradiation that light source sends is to camera lens.Rotary apparatus includes the second loading plate and the 3rd loading plate, and bogey is fixed on the second loading plate, and the second loading plate can be fixed on the 3rd loading plate after the 3rd loading plate rotates a special angle around the central shaft of the camera lens of camera module.Test device is used for controlling camera module and carries out glare tester.3rd loading plate and driving means are each attached in support means, and driving means rotates for driving the 3rd loading plate.The invention still further relates to a kind of glare tester method.

Description

Camera module glare tester board and glare tester method

Technical field

The present invention relates to digitized video field, particularly relate to a kind of camera module glare tester board.

Background technology

Smart mobile phone Industry Quick Development in recent years, the demand of photographing module also increases substantially, and there have been requirements at the higher level in consumer to the performance parameter of mobile phone camera.The parameter that dazzle is important as evaluating and testing photographic head, has important impact for image frame.

Traditional glare tester method is: under dark situation, and tester's manually rotary test tool manually captures the picture of camera module shooting by click program to predetermined angular, an other tester, completes glare tester.Above-mentioned measurement jig running accuracy is the highest, and during taking pictures, hands is easily shaken, and easily causes picture abnormal, increases the difficulty judged；Cannot automatization, time and effort consuming；Must carry out between dark place, easily be disturbed by external environment condition scattered light, cause erroneous judgement.

Summary of the invention

In view of this, the present invention proposes a kind of camera module glare tester board that can solve the problem that above-mentioned technical problem and glare tester method.

A kind of camera module glare tester board, comprising:

One test light box；

One is arranged on the light source in this test light box；

One is arranged on the black box in this test light box, and this black box is formed a light hole；

One is arranged on the measurement jig in this test light box, and this measurement jig includes: a bogey, a rotary apparatus, a test device, a support means and a driving means；This bogey is used for housing this camera module, and this camera module is used for capturing glare tester image；The lens location of this light source, this light hole and this camera module is relative, so that this light hole vertical irradiation of light transmission that this light source sends is to this camera lens；This rotary apparatus includes the 3rd loading plate that one second loading plate and is fixed on this second loading plate, this bogey is fixed on this second loading plate, and this second loading plate can be fixed on the 3rd loading plate after the 3rd loading plate rotates a special angle around the central shaft of the camera lens of this camera module；This test device is used for controlling this camera module and carries out glare tester；3rd loading plate and this driving means are each attached in this support means, and this driving means is used for driving the 3rd loading plate to rotate.

A kind of method utilizing above-mentioned camera module glare tester board to carry out glare tester, it comprises the steps:

This test device is connected with the computer being provided with test program；

Open light source, and this second loading plate is rotated to first test angle set in advance；

It is placed on needing the camera module testing dazzle in this bogey；

Start test program and this camera module is carried out glare tester, particularly as follows: this driving means drives this rotary apparatus to rotate to certain several second test angle set in advance successively, this testing cassete controls this camera module and carries out image-capture in each second test angle；The image captured according to this camera module, it is judged that whether this camera module has dazzle to occur.Camera module glare tester board and method of testing, measuring accuracy and automaticity that the present invention provides are high；The impact on test system of the external reflection light veiling glare can be eliminated, little by ectocine；Save time, laborsaving；Level, vertical, the glare tester in two oblique 45 degree of directions, wide coverage is provided for photographic head.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of camera module glare tester board.

Fig. 2 is the schematic perspective view of measurement jig.

Fig. 3 is the decomposing schematic representation of the measurement jig shown in Fig. 2.

Fig. 4 is the decomposing schematic representation in another direction of the measurement jig shown in Fig. 2.

Main element symbol description

Camera module glare tester board	100
		Test light box	10
Top board	11
		Dividing plate	12
First surface	121
		Base plate	13
Light source	20
		Black box	30
Second surface	31
		3rd surface	32
Light hole	33
		Measurement jig	40
Bogey	41
		Upper cover plate	411
Camera aperture	4111
		First loading plate	412
First accepting groove	4121
		Rotary apparatus	42
Second loading plate	421
		4th surface	4211
5th surface	4212
		Latch	422
3rd loading plate	423
		6th surface	4231
7th surface	4232
		First groove	4233
Second groove	4234
		Transverse slat	4235
First fixing hole	4236
		First scale	4237
Magnet	4238
		First fixed block	424
8th surface	4241
		9th surface	4242
Tenth surface	4243
		First axis hole	4244
Second fixed block	425
		11st surface	4251
12nd surface	4252
		Second axis hole	4253
3rd fixed block	426
		Pointer	427
First power transmission shaft	428
		First end	4281
The second end	4282
		Second driving shaft	429
3rd end	4291
		4th end	4292
Test device	43
		Testing cassete	431
Clamp	432
		Card column	433
Support means	44
		4th loading plate	441
13rd surface	4411
		14th surface	4412
5th loading plate	442
		Second accepting groove	443
First gripper shoe	444
		15th surface	4441
16th surface	4442
		Triaxial hole	4443
3rd groove	4444
		Second scale	4445
Second gripper shoe	445
		17th surface	4451
18th surface	4452
		4th axis hole	4453
Driving means	45
		Driver	451
Drive shaft	4511
		Drive main body	4512
Containment vessel	452
		First runner	453
Second runner	454
		Belt tightening wheel	455
Calibrating stem	456
		Induction apparatus	457
Sensor block	4571

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

A kind of camera module glare tester board provided the present invention incorporated by reference to Fig. 1 to Fig. 4 and embodiment below is further described.

Referring to Fig. 1, a kind of camera module glare tester board 100, it includes test light box 10, light source 20, black box 30 and a measurement jig 40.

This test light box 10 is a dark airtight light box, and in the present embodiment, this test light box 10 is substantially in cuboid-type.This test light box 10 includes that top board 11, dividing plate 12, base plate 13 and is perpendicular to the side door (not shown) of top board 11 and base plate 13.This dividing plate 12 includes a first surface 121.This top board 11, this dividing plate 12 and this base plate 13 is parallel to each other and this test light box 10 is divided into two parts by this dividing plate 12.A storage tank (not shown) it is formed with on this base plate 13.

This light source 20 is formed on this top board 11, and in the present embodiment, this light source 20 is an electric filament lamp.

This black box 30 is formed on this first surface 121 of this dividing plate 12, and this black box 30 includes that a second surface 31, being parallel to first surface 121 is parallel to the 3rd surface 32 and the light hole 33 on this second surface the 31, the 3rd surface 32 through of this second surface 31.3rd surface 32 contacts with this first surface 121.This light hole 33 is the most right with this light source 20.Obviously, this dividing plate 12 is also formed with a light hole (not shown) corresponding with this light hole 33.In the present embodiment, this black box 30 is in rectangular-shaped.

Referring to Fig. 2, this measurement jig 40 includes bogey 41, rotary apparatus 42, test device 43, support means 44 and a driving means 45.

Referring to Fig. 3 ~ 4, this bogey 41 includes upper cover plate 411 and one first loading plate 412, and this upper cover plate 411 is pivotally connected with this first loading plate 412.This upper cover plate 411 includes a camera aperture 4111, and this first loading plate 412 includes one first accepting groove 4121, and this first accepting groove 4121 is for housing a camera module (not shown), and the camera lens of this camera module is relative with this camera aperture 4111 position.

This rotary apparatus 42 includes one second loading plate 421, an at least latch 422, the 3rd loading plate 423,1 first fixed block 424,1 second fixed block 425, the 3rd fixed block 426, pointer 427,1 first power transmission shaft 428 and a second driving shaft 429.

This second loading plate 421 includes one the 4th surface 4211 and fiveth surface 4212 parallel with the 4th surface 4211.It is also formed with one on this second loading plate 421 and runs through the 4th surface 4211 and the fixing hole (not shown) on the 5th surface 4212, it is interior and concordant with the 5th surface 4212 that one end of this latch 422 is housed in this fixing hole, and the other end protrudes from the 4th surface 4211.Being also formed with a blind hole (not shown) from the 5th surface 4212 to the 4th surface 4211, the center of this blind hole is relative with the center of this camera aperture 4111.

3rd loading plate 423 includes one the 6th surface 4231 and one the 7th surface 4232.6th surface 4231 is parallel to the 7th surface 4232, and the 7th surface 4232 is parallel to the 5th surface 4212.It is also formed with on 3rd loading plate 423 running through the 6th surface 4231 and one first groove 4233 and one second groove 4234 on the 7th surface 4232.This first groove 4233 adjoins with this second groove 4234, and the part defining the 3rd loading plate 423 between this first groove 4233 and this second groove 4234 is transverse slat 4235.It is formed with one on this transverse slat 4235 and runs through the 6th surface 4231 and first fixing hole 4236 on the 7th surface 4232.This first fixing hole 4236 and the blind hole formed to the 4th surface 4211 from the 5th surface 4212 coordinate a pin, this second loading plate 421 is fixed together with the 3rd loading plate 423, this first fixing hole 4236 shares a central shaft with this camera aperture 4111, and this second loading plate 421 can rotate along the central shaft of this camera aperture 4111 and this first fixing hole 4236.

Being also formed with one first scale 4237 on the 6th surface 4231, this first scale 4237 is a semicircle with this first fixing hole 4236 as the center of circle, and scale is+90 ~ 0 ~-90, and in the present embodiment, this first scale 4237 surrounds this second groove 4234.Multiple equally distributed Magnet 4238 it is also formed with in the inner side of this first scale 4237.The circle at these Magnet 4238 places multiple and the circle at this first scale 4237 place are a concentric circular.In the present embodiment, five these Magnet 4238 are distributed in the inner side of this first scale 4237, are spaced 45 between each two Magnet 4238.This Magnet 4238 is used for adsorbing this latch 422, and then this second loading plate 421 is fixed on the 3rd loading plate 423 after rotating to an angle.

This first fixed block 424 is fixed on one end of the 3rd loading plate 423 and near this first groove 4233, and this first fixed block 424 is thin piece of a class cuboid-type.This first fixed block 424 includes the 9th surface 4242 and 1 the tenth surface 4243 that one the 8th surface 4241, is opposing with the 8th surface 4241.8th surface 4241 is perpendicular to the 6th surface 4231 and closes on this first groove 4233, and the tenth surface 4243 is perpendicular to the 9th surface 4242 and away from the 6th surface 4231.It is formed with one first axis hole 4244 to the 8th surface 4241 from the 9th surface 4242.

This second fixed block 425 is fixed on the other end of the 3rd loading plate 423, and relative with the position of this first fixed block 424.This second fixed block 425 includes that one is parallel to the 8th surface 4241 and the 11st surface 4251 and ten two surface 4252 opposing with the 11st surface 4251 near this first scale 4237.It is formed with one second axis hole 4253 to the 11st surface 4251 from the 12nd surface 4252.

3rd fixed block 426 is fixed on the tenth surface 4243, and this pointer 427 is fixed on the 3rd fixed block 426, and this vertical tenth surface 4243 of pointer 427.

This first power transmission shaft 428 includes first end 4281 and the second end 4282 being connected with this first end 4281, and the diameter of this second end 4282 is less than the diameter of this first end 4281.This first end 4281 is housed in this first axis hole 4244, and this first end 4281 is fixed together with this first fixed block 424.

This second driving shaft 429 includes one the 3rd end 4291 and the 4th end 4292 being connected with the 3rd end 4291, and the diameter of the 4th end 4292 is less than the diameter of the 3rd end 4291.3rd end 4291 is housed in this second axis hole 4253, and the 3rd end 4291 is fixed together with this second fixed block 425.

This test device 43 is used for testing, including testing cassete 431, clamp 432 and four card columns 433.This testing cassete 431 is a square high test pixel plate, camera module for controlling to be contained in the first accepting groove 4121 carries out glare tester, this clamp 432 is a square plate, four these card column 433 each two group, it is separately fixed at the two ends of this clamp 432, one end of this card column 433 each is fixed on this clamp 432, and the other end is fixed on the 3rd loading plate 423.This testing cassete 431 is fixed on this clamp 432, between this card column 433 and the 3rd loading plate 423.This testing cassete 431 is electrically connected with the camera module being contained in this first accepting groove 4121, has the computer of pre-designed test program to be connected by USB data line with storage.

This support means 44 includes one the 4th loading plate 441, the 5th loading plate 442,1 first gripper shoe 444 and one second gripper shoe 445.

In the present embodiment, the 4th loading plate the 441, the 5th loading plate the 442, first gripper shoe 444 and the second gripper shoe 445 are square plate.

The size being smaller in size than the 4th loading plate 441 of the 5th loading plate 442.4th loading plate 441 includes the 13rd surface 4411 and ten four surface 4412 opposing with the 13rd surface 4411 being parallel to the 6th surface 4231.5th loading plate 442 is fixed on the 14th surface 4412, and the 5th loading plate 442 is placed in the storage tank (not shown) being formed on this base plate 13 completely.One second accepting groove 443 running through the 5th loading plate 442 is formed to the 5th loading plate 442 from the 13rd surface 4411.The position of this second accepting groove 443 is relative with the position of this testing cassete 431, when the thickness being perpendicular on the 13rd direction, surface 4411 of this testing cassete 431 is bigger, for accommodating this testing cassete 431 of part.

This first gripper shoe 444 is fixed on the one end on the 13rd surface 4411, and this first gripper shoe 444 includes the 15th surface 4441 and ten six surface 4442 opposing with the 15th surface 4441 being perpendicular to the 13rd surface 4411.It is formed with Triaxial hole 4443 and one the 3rd groove 4444 to the 16th surface 4442 from the 15th surface 4441, this Triaxial hole 4443 is for housing the second end 4282 of this first power transmission shaft 428 of part, and the 3rd groove 4444 is positioned at this first gripper shoe 444 part that the 4th loading plate 441 protrudes relatively and near the 4th loading plate 441.Being also formed with one second scale 4445 on 15th surface 4441, this second scale 4,445 half is around this Triaxial hole 4443, and the scale of this second scale 4445 is+90 ~ 0 ~-90.

This second gripper shoe 445 is fixed on the one end on the 13rd surface 4411, and this second gripper shoe 445 is relative with this first gripper shoe 444.This second gripper shoe 445 includes ten seven surface 4451 and with ten seven surface 4451 opposing ten eight surface 4452 relative with the 15th surface 4441.Be formed with the 4th axis hole 4453 running through this second gripper shoe 445 to the 18th surface 4452 from the 17th surface 4451, the 4th axis hole 4453 is for housing the 4th end 4292 of this second driving shaft 429.4th axis hole 4453 is relative with this Triaxial hole 4443 position.

This driving means 45 includes that driver 451, containment vessel 452,1 first runner 453,1 second runner 454, belt tightening wheel 455, calibrating stem 456, induction apparatus 457 and is set in the belt (not shown) on this first runner the 453, second runner 454, belt tightening wheel 455.

This driver 451 includes drive shaft 4511 and the driving main body 4512 being connected with this drive shaft 4511.This drive shaft 4511 is through the 3rd groove 4444, and is positioned at the space that this containment vessel 452 is formed with this first gripper shoe the 444, the 4th loading plate 441.This driving main body 4512 is positioned at the 15th side, surface 4441 of this first gripper shoe 444 and its lower surface is concordant with the 14th surface 4412.

This first runner 453 is sheathed in this drive shaft 4511, this second runner 454 is sheathed on this second end 4282 of this first power transmission shaft 428, this belt tightening wheel 455 is between this first runner 453 and this second runner 454, for keeping suitable belt tension power, it is to avoid belt creep, compensate belt abrasion and aging after the elongation that causes.

This calibrating stem 456 is vertically fixed on this second runner 454, and this induction apparatus 457 is fixed on the 16th surface 4442.This induction apparatus 457 includes two relative sensor blocks 4571, coordinates the scale detecting this measurement jig 40 the most accurate with this calibrating stem 456.

The step that the camera module glare tester board 100 that the present invention provides tests dazzle is as follows:

The first step, is connected this test device with the computer being provided with test program；

Second step, opens light source 20, and this second loading plate 421 rotates to first test angle θ set in advance₁, by this latch 422 and this Magnet 4238, this second loading plate 421 is fixed on the 3rd loading plate 423；

3rd step, it would be desirable to same a batch of camera module of test dazzle is placed in this first accepting groove 4121 of this bogey 41, covers upper cover plate 411；

4th step, shuts the side door (not shown) of this test light box 10, starts test program and this camera module is carried out glare tester, particularly as follows: this driving means 45 drives this rotary apparatus 42 to rotate to certain several second test angle α set in advance successively₁、α₂、α₃…α_n(n=1,2,3 ...), this testing cassete controls this camera module and carries out image-capture, and the image captured according to the 3rd step in this second test angle each, it is judged that whether this camera module has the position that dazzle appearance and dazzle occur；

5th step, if this camera module has dazzle to occur, first test angle θ at this second loading plate 421 place when record dazzle occurs₁, and fix this second loading plate 421 first test angle θ when dazzle occurs₁, will put into this first accepting groove 4121 of this bogey 41 with this camera module with other camera modules to be measured a batch of, and start test program these other camera module to be measured is carried out glare tester；

6th step, if this camera module does not has dazzle to occur, then rotates to this second loading plate another predetermined first test angle, repeats the step that this camera module carries out glare tester.Successively this second loading plate 421 is rotated to predetermined first test angle θ set in advance₂、θ₃…θ_n(n=1,2,3 ...), repeat the step that this camera module is carried out glare tester.

In the present embodiment, this first test angle includes 0 ,+45 ,-45 ,+90 ,-90.

In the present embodiment, the first test angle is for adjusting the placing direction of camera module group lens, and the second test angle is for adjusting the angle between light source 20 and camera module group lens.

The camera module glare tester board 100 that the present invention provides has the advantage that 1) use driver 451 to control measurement jig 40 and automatically adjust angle, measuring accuracy can be as accurate as 0.1 degree and can freely control the rotary speed of driver 451, measuring accuracy is high, and automaticity is high；2) by whole test system combination in test light box 10, the impact on test system of the external reflection veiling glare can so be eliminated, little by ectocine；3) whole test procedure test image capture only needs 5s, tests more rapid, saves time；4) operating personnel is only needed just can to complete whole test operation, laborsaving；5) band unthreaded hole black box 30, the beneficially vertical irradiation of light source are placed in test light box 10；6) add the testing image function of candid photograph particular range angle continuously, meet different testing requirements；7) fixing measurement jig 40 is at 0 degree ,+45 degree ,-45 degree ,-90 four angles of degree, provides level, vertical, the glare tester in two oblique 45 degree of directions, wide coverage for photographic head.

It is understood that above example is only used for the present invention is described, it is not used as limitation of the invention.For the person of ordinary skill of the art, conceive, according to the technology of the present invention, other various corresponding changes and the deformation made, all fall within the protection domain of the claims in the present invention.

Claims (10)

1. a camera module glare tester board, comprising:

One test light box；

One is arranged on the light source in this test light box；

One is arranged on the black box in this test light box, and this black box is formed a light hole；

One is arranged on the measurement jig in this test light box, and this measurement jig includes: a bogey, a rotary apparatus, a test device, a support means and a driving means；This bogey is used for housing this camera module, and this camera module is used for capturing glare tester image；The lens location of this light source, this light hole and this camera module is relative, so that this light hole vertical irradiation of light transmission that this light source sends is to this camera lens；This rotary apparatus includes the 3rd loading plate that one second loading plate and is fixed on this second loading plate, this bogey is fixed on this second loading plate, and this second loading plate can be fixed on the 3rd loading plate after the 3rd loading plate rotates a special angle around the central shaft of the camera lens of this camera module；This test device is used for controlling this camera module and carries out glare tester；3rd loading plate and this driving means are each attached in this support means, and this driving means is used for driving the 3rd loading plate to rotate.

2. the camera module glare tester board as shown in claim 1, it is characterized in that, this bogey includes a upper cover plate and one first loading plate, this upper cover plate is pivotally connected with this first loading plate, this upper cover plate includes a camera aperture, this first loading plate includes one first accepting groove, and this first accepting groove is used for housing this camera module, and the camera lens of this camera module is relative with this camera aperture position.

3. the camera module glare tester board as shown in claim 1, it is characterised in that this support means includes one the 4th loading plate, one first gripper shoe and one second gripper shoe；This first gripper shoe is fixed on one end of the 4th loading plate, and this second gripper shoe is fixed on the other end of the 4th loading plate, and relative with this first gripper shoe.

Camera module glare tester board the most as stated in claim 3, it is characterized in that, this rotary apparatus also includes at least one latch, one first power transmission shaft and a second driving shaft, this latch is fixed on this second loading plate, this rotary apparatus is separately fixed in this first gripper shoe and this second gripper shoe by this first power transmission shaft and this second driving shaft, be also formed with on 3rd loading plate multiple in circular arc type equally distributed Magnet, these Magnet multiple are used for adsorbing this latch, and then this second loading plate is fixed on the 3rd loading plate after rotating to an angle.

5. the camera module glare tester board as shown in claim 1, it is characterized in that, this test device upper includes a testing cassete, a clamp and four card columns, this testing cassete is fixed in the space that this clamp, this card column and the 3rd loading plate are formed, this testing cassete is electrically connected with this camera module, and has the computer of test program to be connected with a storage.

6. the camera module glare tester board as shown in claim 4, it is characterized in that, this driving means includes a driver, one first runner, one second runner, one belt tightening wheel and one is set in this first runner the second runner, belt on belt tightening wheel, this driver includes a drive shaft, this first rotaring wheeling sleeve is located in the drive shaft of this driver, this second rotaring wheeling sleeve is located on this first power transmission shaft, this belt tightening wheel is between this first runner and this second runner, for keeping suitable belt tension power, avoid belt creep, compensate the elongation caused after belt weares and teares and be aging.

7. utilizing the method that the camera module glare tester board any one of claim 1 ~ 6 carries out glare tester, it comprises the steps:

This test device is connected with the computer being provided with test program；

Open light source, and this second loading plate is rotated to first test angle set in advance；

It is placed on needing the camera module testing dazzle in this bogey；

Start test program and this camera module is carried out glare tester, particularly as follows: this driving means drives this rotary apparatus to rotate to certain several second test angle set in advance successively, this testing cassete controls this camera module and carries out image-capture in each second test angle；The image captured according to this camera module, it is judged that whether this camera module has dazzle to occur.

8. the method for glare tester as claimed in claim 7, it is characterised in that further comprise the steps of:

If this camera module has dazzle to occur, first test angle at the second loading plate place when record dazzle occurs, and fix this second loading plate the first test angle when dazzle occurs, this bogey will be put into this camera module with other camera modules to be measured a batch of, and start test program these other camera module to be measured is carried out glare tester.

9. the method for glare tester as claimed in claim 7, it is characterised in that if this camera module does not has dazzle to occur, then this second loading plate is rotated to another predetermined first test angle, repeats the step that this camera module is carried out glare tester.

10. the method for glare tester as claimed in claim 7, it is characterised in that this first test angle includes 0 ,+45 ,-45 ,+90 ,-90.