CN108732191A - Layering automatic detection device applied to optical lens for cell phone - Google Patents
Layering automatic detection device applied to optical lens for cell phone Download PDFInfo
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- CN108732191A CN108732191A CN201810853097.9A CN201810853097A CN108732191A CN 108732191 A CN108732191 A CN 108732191A CN 201810853097 A CN201810853097 A CN 201810853097A CN 108732191 A CN108732191 A CN 108732191A
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- 238000001514 detection method Methods 0.000 title claims abstract description 125
- 230000003287 optical effect Effects 0.000 title claims abstract description 26
- 230000001678 irradiating effect Effects 0.000 claims abstract description 31
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 17
- 230000005855 radiation Effects 0.000 claims description 60
- 230000003321 amplification Effects 0.000 claims description 8
- 238000003199 nucleic acid amplification method Methods 0.000 claims description 8
- 238000005286 illumination Methods 0.000 claims description 3
- 239000000428 dust Substances 0.000 abstract description 12
- 238000007689 inspection Methods 0.000 description 5
- 238000010586 diagram Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 2
- 239000008187 granular material Substances 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000011514 reflex Effects 0.000 description 2
- 238000012360 testing method Methods 0.000 description 2
- 238000004458 analytical method Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000003384 imaging method Methods 0.000 description 1
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N21/00—Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
- G01N21/84—Systems specially adapted for particular applications
- G01N21/88—Investigating the presence of flaws or contamination
- G01N21/95—Investigating the presence of flaws or contamination characterised by the material or shape of the object to be examined
- G01N21/958—Inspecting transparent materials or objects, e.g. windscreens
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Abstract
This application discloses the layering automatic detection devices applied to optical lens for cell phone, including pedestal, the pedestal is equipped with places station to place the camera lens of camera lens, the lower section that the camera lens places station is equipped with the lower irradiating and detecting portion that detection can be irradiated to camera lens reverse side, and the top of the camera lens placement station is equipped with and can be worked at the same time with the lower irradiating and detecting portion to be irradiated the upper irradiating and detecting portion of detection to lens face.The application, which can be realized, to be carried out positive and negative to mobile lens while detecting, and solves the problems, such as that traditional Shot Detection equipment can only carry out single side detection, can detect that camera lens is whether dirty or dust, detection efficiency height, error smaller improve the accuracy of judgement more quickly.
Description
【Technical field】
The present invention relates to mobile lens detection device technical fields, more particularly to the layering applied to optical lens for cell phone is certainly
Motion detection device.
【Background technology】
Mobile lens detection is an important indicator of handset capability test, and traditional mobile lens project detection mode,
After camera lens is shot chart, then by imaging analysis, analyze that camera lens is whether dirty or dust, but traditional detection is set
It is standby to carry out single side detection to mobile lens, the positive and negative of mobile lens can not be detected simultaneously, and can only be to specific one
Kind distance detection can not be layered multiple spurs from automatic detection, and detection efficiency is low, and analytical error is big, influences the accurate of judgement
Property.
Not yet find that the technical solution to solve the above problems occurs at present.
It is necessary in view of this, carrying out improvement to current mobile lens detection device.
【Invention content】
It, can not be to mobile phone purpose of the present invention is to overcome existing detection device to carry out single side detection to mobile lens
The technical issues of positive and negative of camera lens detects simultaneously, provides the layering automatic detection device applied to optical lens for cell phone.
To achieve the above object, present invention employs the following technical solutions:
Applied to the layering automatic detection device of optical lens for cell phone, including pedestal 1, the pedestal 1 is equipped with to put
The camera lens for setting camera lens places station 101, and the lower section of the camera lens placement station 101, which is equipped with, can be irradiated camera lens reverse side detection
Lower irradiating and detecting portion 2, the top that the camera lens places station 101 is equipped with and can work at the same time use with the lower irradiating and detecting portion 2
To be irradiated the upper irradiating and detecting portion 3 of detection to lens face.
To realize superior technique effect, the invention also includes have:
The layering automatic detection device as described above for being applied to optical lens for cell phone, the pedestal 1 are equipped with guide rail
102, the lower irradiating and detecting portion 2 be set to the guide rail 102 on, and can be slided up and down along the guide rail 102 with adjust detection away from
From the upper irradiating and detecting portion 3 is set on the guide rail 102, and the pedestal 1, which is equipped with, drives 3 liters of the upper irradiating and detecting portion
Drop carries out camera lens to realize the driving device 4 of layered weighting.
The layering automatic detection device as described above for being applied to optical lens for cell phone, the upper irradiating and detecting portion 3 includes
Upper radiation source group 3a and upper detection phase unit 3b, the upper radiation source group 3a are set on the guide rail 102, and can be along described
Guide rail 102 is slided up and down to adjust irradiation position, and the upper detection phase unit 3b is set on the guide rail 102 and is located on described
The top of radiation source group 3a, the driving device 4 are servo motor, to drive the upper detection phase unit 3b liftings, institute
It states camera lens and places station 101, upper radiation source group 3a and upper detection phase unit 3b coaxial arrangements.
The layering automatic detection device as described above for being applied to optical lens for cell phone, the upper radiation source group 3a include
It can be equipped with first that light irradiates from lower to upper along the upper Mobile base 301 that the guide rail 102 moves, the upper Mobile base 301
Radiation source 302, the central part of the upper Mobile base 301 is equipped with places the concentric detection hole 303 of station 101 with the camera lens,
The upper Mobile base 301, which is equipped with, to reflex to the detection hole 303 by the light focusing that first radiation source 302 is sent out
Light source reflecting housing 304.
The layering automatic detection device as described above for being applied to optical lens for cell phone, the upper detection phase unit 3b include
It can be connect with the driving device 4 along the detection sliding seat 305 that the guide rail 102 moves, described 305 one end of detection sliding seat,
The other end is equipped with the first detection camera 306 and the first high definition camera lens with the first detection camera 306 cooperation to enlarged drawing
307。
The layering automatic detection device as described above for being applied to optical lens for cell phone, first radiation source 302 are
White light, blue light, yellow light or feux rouges, first radiation source 302 are several, are set along 303 circumference array of the detection hole
It sets, the light source reflecting housing 304 is arc-shaped reflector, and the first detection camera 306 is 100~300 frame frequencies, 200~800
The camera of ten thousand pixels, the first high definition camera lens 307 be 200~8,000,000 pixels, 2~8 times of amplification factors camera lens.
The layering automatic detection device as described above for being applied to optical lens for cell phone, the lower irradiating and detecting portion 2 includes
Lower radiation source group 2a and lower detection phase unit 2b, the lower radiation source group 2a are set on the guide rail 102, and can be along described
Guide rail 102 is slided up and down to adjust irradiation position, and the lower detection phase unit 2b is set on the guide rail 102 and under described
The lower section of radiation source group 2a, the camera lens are placed station 101, lower radiation source group 2a and lower detection phase unit 2b and are coaxially set
It sets.
The layering automatic detection device as described above for being applied to optical lens for cell phone, the lower radiation source group 2a include
It can be equipped with the light-resource fousing slot in inner concavity along the lower mobile base 201 that the guide rail 102 moves, the lower mobile base 201
202, the light-resource fousing slot 202 is equipped with can be along the second radiation source 203 of its center oblique illumination.
The layering automatic detection device as described above for being applied to optical lens for cell phone, the lower detection phase unit 2b include
Can along the adjustment seat 204 that the guide rail 102 moves, the adjustment seat 204 be equipped with the second detection camera 205 and with second inspection
The cooperation of camera 205 is surveyed to the second high definition camera lens 206 of enlarged drawing.
The layering automatic detection device as described above for being applied to optical lens for cell phone, second radiation source 203 are
Feux rouges, blue light, yellow light or white light, it is described second detection camera 205 be 100~300 frame frequencies, 100~3,000,000 pixels camera,
The second high definition camera lens 206 be 100~3,000,000 pixels, 8~12 times of amplification factors camera lens.
Compared with prior art, the present invention has the following advantages:
The present invention can realize detects mobile lens progress positive and negative simultaneously, and solving traditional Shot Detection equipment can only be into
The problem of row single side detects can detect that camera lens is whether dirty or dust, detection efficiency height, error smaller improve more quickly
The accuracy of judgement.
【Description of the drawings】
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly described.To those skilled in the art, without creative efforts, also
It can be obtain other attached drawings according to these attached drawings.It should be evident that following attached drawings are only the section Example of the present invention.
Fig. 1 is the structural schematic diagram one of the embodiment of the present invention;
Fig. 2 is the structural schematic diagram two of the embodiment of the present invention;
Fig. 3 is the partial exploded view of the embodiment of the present invention;
Fig. 4 is the structural schematic diagram three of the embodiment of the present invention;
Fig. 5 is the schematic diagram for detecting phase unit in the embodiment of the present invention and declining.
【Specific implementation mode】
Below in conjunction with attached drawing to the constitution content of the present invention, it is solved the technical issues of and advantageous effect work it is further detailed
It describes in detail bright.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention
Range.
As shown in fig. 1~fig. 5, the invention discloses the layering automatic detection devices applied to optical lens for cell phone, including
Pedestal 1, the pedestal 1 is equipped with places station 101 to place the camera lens of camera lens, and the camera lens places the lower section of station 101
Equipped with the lower irradiating and detecting portion 2 that can be irradiated detection to camera lens reverse side, the camera lens places the top of station 101, and be equipped with can be with
The lower irradiating and detecting portion 2 works at the same time to be irradiated lens face in the upper irradiating and detecting portion 3 of detection.Energy of the invention is real
Now positive and negative is carried out to mobile lens to detect simultaneously, solve the problems, such as that traditional Shot Detection equipment can only carry out single side detection,
It can detect that camera lens is whether dirty or dust, detection efficiency height, error smaller improve the accuracy of judgement more quickly.
In the embodiment of the present application, the pedestal 1 is equipped with guide rail 102, and the lower irradiating and detecting portion 2 is set to the guide rail
It on 102, and can be slided up and down along the guide rail 102 to adjust detecting distance, the upper irradiating and detecting portion 3 is set to the guide rail
On 102, the pedestal 1, which is equipped with, drives the upper lifting of irradiating and detecting portion 3 to realize the driving for carrying out layered weighting to camera lens
Device 4.It the advantage is that by being arranged that the upper lifting of irradiating and detecting portion 3 is driven to carry out layered weighting to camera lens to realize
Driving device 4, can realize that the more detecting distances of layering detect automatically, preferably analyze in camera lens whether have dirty or dust, subtract
Few check frequency, it is ensured that quality and promotion detection efficiency.Layered weighting in being moved using high speed camera is examined simultaneously from tow sides
It surveys, detection efficiency higher, irradiating and detecting is passed image data by ccd image sensor and circuit board after taking lens behind portion
It is defeated, the picture quality of testing lens can be judged by software to judge whether camera lens has that there are dirty or dusts.
Further, the upper irradiating and detecting portion 3 include upper radiation source group 3a and upper detection phase unit 3b, it is described can photograph well
Light source group 3a is penetrated on the guide rail 102, and can be slided up and down along the guide rail 102 to adjust irradiation position, the upper inspection
The top that phase unit 3b is set on the guide rail 102 and is located at the upper radiation source group 3a is surveyed, the driving device 4 is servo
Motor, to drive the upper detection phase unit 3b liftings, the camera lens to place station 101, upper radiation source group 3a and upper inspection
Survey the 3b coaxial arrangements of phase unit.It the advantage is that radiation source group can easily and flexibly adjust irradiation position, it is easy to use.
Further, the upper radiation source group 3a include can be along the upper Mobile base 301 that the guide rail 102 moves, institute
It states Mobile base 301 and is equipped with the first radiation source 302 that light irradiates from lower to upper, the central part of the upper Mobile base 301
Equipped with the concentric detection hole 303 of station 101 is placed with the camera lens, the upper Mobile base 301, which is equipped with, to be shone described first
It penetrates the light that light source 302 is sent out and focuses the light source reflecting housing 304 for reflexing to the detection hole 303.It the advantage is that by the way that light is arranged
The first radiation source and reflex to detection hole equipped with the light that the first radiation source is sent out can be focused that line irradiates from lower to upper
Light source reflecting housing, light source can be equably irradiated on mobile lens, to enable upper detection phase unit more clearly to shoot mobile phone
The picture of camera lens stays the clearer presentation of dirty or dust energy in mobile lens, improves the accuracy of judgement, this embodiment is
Best embodiment.When being directly irradiated on mobile lens from top to bottom such as light source, detecting the accuracy rate of judgement reduces 40%.
Further, the upper detection phase unit 3b include can along the detection sliding seat 305 that the guide rail 102 moves,
Described 305 one end of detection sliding seat is connect with the driving device 4, the other end be equipped with first detection camera 306 and with this first
The cooperation of camera 306 is detected to the first high definition camera lens 307 of enlarged drawing.It the advantage is that structure setting is reasonable, use adjusting
It is convenient.
Further, first radiation source 302 is white light, blue light, yellow light or feux rouges, first radiation source
302 be several, is arranged along 303 circumference array of the detection hole, and the light source reflecting housing 304 is arc-shaped reflector, institute
The first detection camera 306 is stated as 100~300 frame frequencies, the camera of 200~8,000,000 pixels, the first high definition camera lens 307 is 200
The camera lens of~800 ten thousand pixels, 2~8 times of amplification factors.In practical application, first radiation source is white light, first inspection
Survey camera 306 is 200 frame frequency, 5,000,000 pixel high speed, high resolution camera, and the first high definition camera lens 307 is 5 times of 5,000,000 pixel
Amplification factor ultra high-definition camera lens, the advantage is that can detect the small dust granule or dirty to 5um sizes.
In the embodiment of the present application, the lower irradiating and detecting portion 2 includes lower radiation source group 2a and lower detection phase unit 2b, institute
Lower radiation source group 2a is stated on the guide rail 102, and can be slided up and down along the guide rail 102 to adjust irradiation position, institute
It states lower detection phase unit 2b to be set on the guide rail 102 and be located at the lower section of the lower radiation source group 2a, the camera lens is placed
Station 101, lower radiation source group 2a and lower detection phase unit 2b coaxial arrangements.It the advantage is that lower radiation source group can facilitate spirit
Irradiation position is adjusted livingly, it is easy to use.
Specifically, the lower radiation source group 2a include can be along the lower mobile base 201 that the guide rail 102 moves, under described
Mobile base 201 is equipped with the light-resource fousing slot 202 in inner concavity, and the light-resource fousing slot 202 is equipped with can be centroclinal along its
Second radiation source 203 of irradiation.It the advantage is that by the way that the light-resource fousing slot in inner concavity, light source are arranged in lower mobile base
Focusing setting on slot can preferably gather along the second radiation source of its center oblique illumination, light to being irradiated in mobile lens
Lower part can make lower detection phase unit more clearly shoot picture detection.In addition, the second radiation source and the first radiation source coordinate
In use, the detection result of detection phase unit is best above and below.
More specifically, the lower detection phase unit 2b includes can be along the adjustment seat 204 that the guide rail 102 moves, the tune
It saves seat 204 and is equipped with the second detection camera 205 and the second high definition mirror with the second detection camera 205 cooperation to enlarged drawing
First 206.It the advantage is that structure setting is reasonable, use is easy to adjust.
More specifically, second radiation source 203 is feux rouges, blue light, yellow light or white light, the second detection camera
205 for 100~300 frame frequencies, 100~3,000,000 pixels camera, the second high definition camera lens 206 be 100~3,000,000 pixels, 8
The camera lens of~12 times of amplification factors.In practical application, second radiation source is feux rouges, and the second detection camera 205 is
The camera of 200 frame frequencies, 2,000,000 pixels, the second high definition camera lens 206 be 2,000,000 pixels, 10 times of amplification factors high definition mirror
Head.It the advantage is that further detect from camera lens reverse side and confirm whether camera lens has dirty or dust.
Radiation modality:
First radiation source 302 irradiates white light, and the second radiation source 203 irradiates feux rouges, is best detection light efficiency, from just
Anti- two sides is detected simultaneously, more efficient, and detection is more acurrate.
In conclusion the present invention has the advantages that:
1, the application, which can be realized, carries out positive and negative to mobile lens while detecting, and solving traditional Shot Detection equipment can only
The problem of carrying out single side detection can detect that camera lens is whether dirty or dust, detection efficiency height, error smaller carry more quickly
The accuracy that height judges.
2, the application drives the upper irradiating and detecting portion lifting to carry out layered weighting to camera lens to realize by being arranged
Driving device, can realize that the more detecting distances of layering detect automatically, preferably analyze in camera lens whether have dirty or dust, reduce
Check frequency, by the way that high speed, high resolution camera and high definition camera lens is arranged, can detect the small dust granule to 5um sizes or
It is dirty, it is ensured that quality and promotion detection efficiency.
3, the application is by being arranged the first radiation source for irradiating from lower to upper of light and equipped with can be by the first radiation source
The light sent out focuses the light source reflecting housing for reflexing to detection hole, and light source can be equably irradiated on mobile lens, to make upper inspection
The picture of mobile lens can more clearly be shot by surveying phase unit, stay the clearer presentation of dirty or dust energy in mobile lens.
It is as described above the embodiment for combining particular content to provide, does not assert that the specific implementation of the present invention is confined to
These explanations.It is all approximate with method of the invention, structure etc., identical, or for making several skills under the premise of present inventive concept
Art deduction or replace, all should be considered as protection scope of the present invention.
Claims (10)
1. applied to the layering automatic detection device of optical lens for cell phone, including pedestal (1), the pedestal (1) be equipped with to
The camera lens for placing camera lens places station (101), it is characterised in that:The lower section of the camera lens placement station (101) is equipped with can be to mirror
Head reverse side is irradiated the lower irradiating and detecting portion (2) of detection, the camera lens place station (101) top be equipped with can with it is described under
Irradiating and detecting portion (2) works at the same time to be irradiated lens face the upper irradiating and detecting portion (3) of detection.
2. the layering automatic detection device according to claim 1 applied to optical lens for cell phone, it is characterised in that:It is described
Pedestal (1) is equipped with guide rail (102), and the lower irradiating and detecting portion (2) is set on the guide rail (102), and can be along the guide rail
(102) it slides up and down to adjust detecting distance, the upper irradiating and detecting portion (3) is set on the guide rail (102), the pedestal
(1) it is equipped with and drives upper irradiating and detecting portion (3) lifting to realize the driving device (4) for carrying out layered weighting to camera lens.
3. the layering automatic detection device according to claim 2 applied to optical lens for cell phone, it is characterised in that:It is described
Upper irradiating and detecting portion (3) includes upper radiation source group (3a) and upper detection phase unit (3b), and the upper radiation source group (3a) sets
In on the guide rail (102), and can be slided up and down along the guide rail (102) to adjust irradiation position, the upper detection phase unit
(3b) is set to the top on the guide rail (102) and positioned at the upper radiation source group (3a), and the driving device (4) is servo
Motor, to drive upper detection phase unit (3b) lifting, the camera lens to place station (101), upper radiation source group (3a)
And upper detection phase unit (3b) coaxial arrangement.
4. the layering automatic detection device according to claim 3 applied to optical lens for cell phone, it is characterised in that:It is described
Upper radiation source group (3a) includes can be along the mobile upper Mobile base (301) of the guide rail (102), the upper Mobile base (301)
Equipped with the first radiation source (302) that light irradiates from lower to upper, the central part of the upper Mobile base (301) is equipped with and the mirror
Head places the concentric detection hole (303) of station (101), and the upper Mobile base (301) is equipped with can be by first radiation source
(302) light sent out focuses the light source reflecting housing (304) for reflexing to the detection hole (303).
5. the layering automatic detection device according to claim 4 applied to optical lens for cell phone, it is characterised in that:It is described
Upper detection phase unit (3b) includes can be along the mobile detection sliding seat (305) of the guide rail (102), the detection sliding seat
(305) one end is connect with the driving device (4), the other end be equipped with first detection camera (306) and with this first detection camera
(306) coordinate the first high definition camera lens (307) to enlarged drawing.
6. the layering automatic detection device according to claim 5 applied to optical lens for cell phone, it is characterised in that:It is described
First radiation source (302) is white light, blue light, yellow light or feux rouges, and first radiation source (302) is several, along institute
The setting of detection hole (303) circumference array is stated, the light source reflecting housing (304) is arc-shaped reflector, the first detection camera
(306) it is 100~300 frame frequencies, the camera of 200~8,000,000 pixels, the first high definition camera lens (307) is 200~8,000,000 pictures
The camera lens of element, 2~8 times of amplification factors.
7. the layering automatic detection device according to claim 2 applied to optical lens for cell phone, it is characterised in that:It is described
Lower irradiating and detecting portion (2) includes lower radiation source group (2a) and lower detection phase unit (2b), and the lower radiation source group (2a) sets
In on the guide rail (102), and can be slided up and down along the guide rail (102) to adjust irradiation position, the lower detection phase unit
(2b) is set to the lower section on the guide rail (102) and positioned at the lower radiation source group (2a), and the camera lens places station
(101), lower radiation source group (2a) and the coaxial arrangement of lower detection phase unit (2b).
8. the layering automatic detection device according to claim 7 applied to optical lens for cell phone, it is characterised in that:It is described
Lower radiation source group (2a) includes can be in the mobile lower mobile base (201) of the guide rail (102), the lower mobile base (201)
Equipped with the light-resource fousing slot (202) in inner concavity, the light-resource fousing slot (202) is equipped with can be along the of its center oblique illumination
Two radiation sources (203).
9. the layering automatic detection device according to claim 8 applied to optical lens for cell phone, it is characterised in that:It is described
Lower detection phase unit (2b) includes that can be equipped with along the mobile adjustment seat (204) of the guide rail (102), the adjustment seat (204)
Second detects camera (205) and coordinates the second high definition camera lens (206) to enlarged drawing with the second detection camera (205).
10. the layering automatic detection device according to claim 9 applied to optical lens for cell phone, it is characterised in that:Institute
It is feux rouges, blue light, yellow light or white light to state the second radiation source (203), and the second detection camera (205) is 100~300 frames
Frequently, the camera of 100~3,000,000 pixels, the second high definition camera lens (206) are 100~3,000,000 pixels, 8~12 times of amplification factors
Camera lens.
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109580651A (en) * | 2019-01-03 | 2019-04-05 | 苏州市星光精密机械有限公司 | Detection device, detection method, detection system and the cleaning equipment of VR glasses |
CN109580651B (en) * | 2019-01-03 | 2024-04-16 | 苏州市星光精密机械有限公司 | VR glasses detection equipment, detection method, detection system and cleaning equipment |
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