CN208383420U - A kind of camera module detection device - Google Patents
A kind of camera module detection device Download PDFInfo
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- CN208383420U CN208383420U CN201821054533.8U CN201821054533U CN208383420U CN 208383420 U CN208383420 U CN 208383420U CN 201821054533 U CN201821054533 U CN 201821054533U CN 208383420 U CN208383420 U CN 208383420U
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Abstract
The utility model discloses a kind of camera module detection devices.The equipment includes: rotating mechanism, is used to camera module being sent to testing agency and detect;Dark-state testing agency is used for detection of the camera module under different-colour condition light source;Continuous auto-focusing AFC testing agency, is used to detect the AFC of the camera module;Data communication channel DCC testing agency is used to detect the DCC of the camera module.The utility model realizes camera module automatic detection, avoid the problems such as missing inspection and false retrieval that visual inspection is easy to appear and human eye influence health under the light source irradiation of different-colour for a long time, improve detection efficiency and detection accuracy, simultaneously, the device integration is high, the problems such as it is big to solve conventional detection devices occupied space, distinct device is needed to carry out multinomial detection.
Description
Technical field
The utility model relates to technical field of optical detection more particularly to a kind of camera module detection devices.
Background technique
With the continuous progress of science and technology with the update iteration of electronic product, more and more electronic products are equipped with camera shooting and clap
There is higher quality requirement for camera module to guarantee to bring preferably shooting experience to consumer according to function.
In current production process, the detection of camera module is usually to be detected, distinguished by artificial eye, is done so
Not only detection efficiency is low, but also is easy to happen missing inspection and false retrieval, this camera module high for quality requirement is very not
Benefit;Meanwhile the light source for carrying out different-colour to camera module being needed to be irradiated when test, human eye is for a long time in this environment
Lower work can generate influence very serious to health.In addition, camera module will be by dark-state detection and far-and-near focus detection
Etc. multinomial detection, different detection modes needs different detection devices, and every kind of detection device is respectively independent, and occupied space is big,
And it needs to carry out every detection under distinct device.
Therefore, in order to improve production detection efficiency and detection accuracy, equipment occupation space is reduced, while personnel from severe
Working environment in free, need to develop the high equipment of a set of integrated level, camera module can be detected automatically.
Utility model content
The utility model provides a kind of camera module detection device, is examined using machine vision instead of existing artificial eye
It surveys, improves detection efficiency and detection accuracy, and each testing agency is integrated in an equipment, solve conventional detection devices
Occupied space is big, needs the problems such as multinomial detection is carried out under distinct device.
To achieve the above object, the utility model uses following technical scheme:
A kind of camera module detection device, comprising: rotating mechanism, dark-state testing agency, continuous auto-focusing AFC detection machine
Structure, data communication channel DCC testing agency and rack;
The rotating mechanism is detected for the camera module to be sent to each testing agency;
The dark-state testing agency, for detection of the camera module under different-colour condition light source;
The AFC testing agency is detected for the AFC function to the camera module;
The DCC testing agency, detects for the data communication channel to the camera module;
The rack is used to support the rotating mechanism and multiple testing agencies.
The utility model has the following beneficial effects: the utility model provides a kind of camera module detection device, machine is utilized
Vision replaces traditional visual inspection, and each testing agency is integrated in one.People when solving camera module detection
The problems such as work naked eyes detection is easy to appear missing inspection and false retrieval, improves detection efficiency and detection accuracy, avoids human eye for a long time
Health is influenced under the light source irradiation of different-colour, meanwhile, the device integration is high, solves conventional detection devices occupancy
Space is big, needs the problems such as every detection is carried out under distinct device.
Detailed description of the invention
Fig. 1 is the camera module detection device overall structure figure that specific embodiment of the present invention provides.
Fig. 2 is the rotating mechanism structure chart for the camera module detection device that specific embodiment of the present invention provides.
Fig. 3 is the carrier structure for the camera module detection device rotating mechanism that specific embodiment of the present invention provides
Figure.
Fig. 4 is the dark-state testing agency structure for the camera module detection device that specific embodiment of the present invention provides
Figure.
Fig. 5 is the AFC testing agency structure chart for the camera module detection device that specific embodiment of the present invention provides.
Fig. 6 is the DCC testing agency structure chart for the camera module detection device that specific embodiment of the present invention provides.
Fig. 7 is the camera module overhaul flow chart that specific embodiment of the present invention provides.
Fig. 8 is another camera module overhaul flow chart that specific embodiment of the present invention provides.
Fig. 9 is another camera module overhaul flow chart that specific embodiment of the present invention provides.
Figure 10 is another camera module overhaul flow chart that specific embodiment of the present invention provides.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein
Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.In addition it should be noted that
, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.
Embodiment one
As shown in Figure 1, present embodiments provide for a kind of camera module detection device, the equipment include: rotating mechanism 11,
Dark-state testing agency 12, AFC testing agency 13, DCC testing agency 14 and rack 15.Rotating mechanism 11 is installed in detection device
Centre, along clockwise direction, the position of dark-state testing agency 12, AFC testing agency 13 and DCC testing agency 14 is located at rotation
Mechanism 12 9 o'clock direction, 12 o'clock direction and 3 o'clock direction, rotating mechanism and each testing agency be both secured in rack 15.
The camera module detection device has carried out the processing of nigrescence matt, to guarantee light stability.
Optionally, camera module detection device further includes test industrial personal computer, power control cabinet and display.
Optionally, which is controlled by upper computer software, and the operation interface of upper computer software is controlled and shown
The information such as start and stop, debugging and the creation data of equipment.
Rotating mechanism 12 includes at least three for carrying the station of camera module to be detected, to meet dark-state detection simultaneously
The needs of mechanism, AFC testing agency and DCC testing agency, and be successively sent to the camera module to be detected of carrying by rotation
Each testing agency is detected.
Optionally, as shown in Fig. 2, rotating mechanism 12 includes: turntable 21 and dynamical system.Turntable 21 includes four average
Station positioned at disk peripheral direction is respectively used to as operation of feeding and discharging, dark-state testing agency, AFC testing agency and DCC detection
Mechanism carries camera module to be detected.Each station includes a carrier 22, one logical heart circular holes 23 and four positioning apertures 24,
Carrier 22 is symmetrically installed along the circumferencial direction of turntable 21, wherein the angle between two neighboring carrier is 90 °, it is close on turntable 21
The position of each carrier 22 is provided with logical heart circular hole 23, wherein the angle between two neighboring logical heart circular hole is also 90 °, whirler
The dynamical system of structure 12 is direct-drive motor, and the straight line cylinder installed by turntable bottom positions logical heart circular hole, with
Turntable is stopped to continue to rotate when turntable being made to rotate in place or stop operating.Position on turntable 21 close to each carrier 22 is also set
It is equipped with logical heart aperture 24, when rotating mechanism rotates to each detection machine, positioning dress is driven by the positioning cylinder of each testing agency
It sets and carrier 22 is positioned.
Optionally, carrier 22 is equipped with multiple independent camera module fixed fixtures, as shown in figure 3, with the installation of carrier 22
There are four for independent camera module fixed fixture 31.Camera module passes through the interior probe and survey with spring of fixed fixture 31
Industrial personal computer is tried to be connected.When needing to detect the camera module of other specifications, it is only necessary to replace fixed fixture 31.The rotation of carrier 22
Axis 32, can be driven by servo motor makes carrier switch horizontal and vertical two states.
Dark-state testing agency includes at least two kinds of different light sources, so that camera module to be detected is in different-colour, different angles
It is detected under degree and the light source in orientation.
Optionally, by taking Fig. 4 includes the dark-state testing agency 12 of three kinds of different-colour light sources as an example, when carrier 22 is rotated to dark
When state testing agency, the positioning cylinder band dynamic positioning system for rising the mechanism positions carrier 22.It is carried out in camera module
When detection, carrier 22 keeps horizontality.Two light sources of light source fixing frame following settings, respectively first light source and the second light
Source drives the light source in linear guide to be moved in parallel above carrier 22 to switch first light source and the by servo motor
Two light sources.Third light source is set on the right side of light source fixing frame, is around provided with black-out cloth, is needed when testing the third light source by the
Three light sources are put down, and black-out cloth is covered on tested product, avoid the interference of other light sources, and third light source passes through lifting cylinder control
Light source lifting processed.
The AFC testing agency is detected for the AFC function to the camera module to be detected;
Optionally, as shown in figure 5, AFC testing agency includes 13: distance light source component 51, dipped beam source component 52 and teleconverter
Component 53.When the rotation of carrier 22 is to the testing agency, the rising cylinder band dynamic positioning system of the testing agency to carrier 22 into
Row positioning.When camera module is detected, carrier 22 is made to keep vertical state first, it is made to be parallel to distance light source component, close
Light source assembly and increment mirror assembly, then carry out remote test of light source, drive dipped beam source component to be moved to by servo motor later
Close to sources test is carried out before carrier 22, carries out teleconverter before driving increment mirror assembly to be moved to carrier 22 finally by servo motor
Test.Three kinds of tests are respectively intended to detection camera module and change focal length in the irradiation of distance light source, close to sources irradiation and teleconverter
In the case of focus function it is whether normal.
Optionally, distance light source and close to sources carry out front and back adjusting by handle rotary screw rod at a distance from carrier 22, according to
The requirement of camera module detected is different, regulation handle rotary screw rod, to reach the required suitable distance of detection.
DCC testing agency is detected for the data communication channel to camera module to be detected.
Optionally, as shown in fig. 6, DCC testing agency 14 includes: distance light source component 61 and dipped beam source component 62.Work as carrier
When 22 rotations to the mechanism, the rising cylinder band dynamic positioning system of the mechanism positions carrier 22.Camera module is carried out
When test, so that carrier 22 is kept vertical state first, so that it is parallel to distance light source and close to sources, then carry out remote test of light source,
Whether working properly the camera module to be detected data communication channel under the irradiation of distance light source is detected, finally by servo motor
Close to sources test is carried out before driving dipped beam source component to be moved to carrier 22.Two kinds of tests are respectively intended to detection camera module in distance light
Source irradiation is lower and whether the lower data communication channel of close to sources irradiation is working properly.
Optionally, distance light source component and dipped beam source component carry out front and back tune by handle rotary screw rod at a distance from carrier 22
Section, regulation handle rotary screw rod different according to the requirement of camera module detected, to reach the required suitable distance of detection.
A kind of camera module detection device is present embodiments provided, replaces traditional artificial eye to examine using machine vision
It surveys, dark-state testing agency, AFC testing agency and DCC testing agency is integrated in one, which can detect more simultaneously
A camera module.Visual inspection is easy to appear the problems such as missing inspection and false retrieval when solving camera module detection, greatly mentions
High detection efficiency and detection accuracy, avoiding human eye influences health under the light source irradiation of different-colour for a long time, together
When, the device integration is high, and it is big to solve conventional detection devices occupied space, needs to carry out every detection etc. under distinct device
Problem.
Embodiment two
As shown in fig. 7, being the detected whole flow process of a camera module.After detection device starting, in loading and unloading station
It is put into camera module to be detected, after rotating mechanism 11 rotates clockwise 90 °, camera module rotates to dark-state testing agency 12,
After the mechanism positions carrier 22, dark-state detection is carried out, linear guide is driven to switch first light source and the by servo motor
Two light sources, and the lifting of third light source is controlled by lifting cylinder, to be detected under different-colour, different angle and different direction
Whether camera module works normally;After dark-state detects, rotating mechanism 11 rotates clockwise 90 ° again, camera module rotation
To AFC testing agency 13, after which positions carrier 22, AFC Function detection is carried out, carrier 22 is made to keep vertical shape first
State, then carries out remote test of light source, close to sources test and teleconverter test, and three kinds of tests are respectively intended to detection camera module remote
Whether focus function is normal in the case that light source irradiation, close to sources irradiation and teleconverter change focal length;AFC Function detection terminates
Afterwards, rotating mechanism 11 rotates clockwise 90 ° again, and camera module enters DCC testing agency 14, which positions carrier 22
Afterwards, DCC detection is carried out, carrier 22 is made to keep vertical state first, then carries out remote test of light source and close to sources test, two kinds of surveys
Examination is respectively intended to detection camera module, and whether data communication channel works normally under the irradiation of distance light source and under close to sources irradiation;
After DCC is detected, since 11 connection wire of rotating mechanism and tracheae are more, to prevent, rotating mechanism from passing through wire rod and tracheae is sent out
Raw torsion, in the case where 270 ° of clockwise rotation of rotating mechanism 11, rotating mechanism 11 returns for 270 ° of rotation counterclockwise
To original position, later, in loading and unloading station, the camera module for having detected and having finished is removed, is put into new camera module to be detected, weight
The testing process of multiple top.
Optionally, when 270 ° of the rotation counterclockwise of rotating mechanism 11 returns to progress operation of feeding and discharging in situ, other three station
Detection is still carried out in corresponding testing agency, guarantees that the camera module on four groups of carriers all passes through three detection machines in this way
The complete detection of structure.
Optionally, 90 ° are rotated clockwise every time, all there can be camera module to come out from DCC testing agency 14, are entered up and down
Expect station position, the detection of all mechanisms is completed in the camera module at this time, first removes the camera module for having detected and having finished, then put
Enter new camera module to be detected.
Optionally, it either rotates clockwise or rotates counterclockwise, before rotation, guarantee loading and unloading station and the other three
Station is completed current task, and rotating mechanism 11 could start to rotate.
A testing process for present embodiments providing the camera module detection device, is put into be detected in loading and unloading station
After camera module, camera module to be detected is successively sent to by each testing agency by rotating mechanism and is detected, in an equipment
Just multinomial detection content is completed, the camera module finished is detected, still can return to initial position, facilitates operation of feeding and discharging, together
When, any moment is when the camera module of a certain station is when carrying out a certain detection or operation of feeding and discharging, the camera shooting mould of other station
Group also works in corresponding testing agency or upper and lower discharge position, guarantee equipment each testing agency and upper and lower discharge position
It is working, is substantially increasing detection efficiency.
Embodiment three
As shown in figure 8, being the detected whole flow process of another camera module.After detection device starting, rotating mechanism 11
After rotating clockwise 90 °, camera module to be detected is put into after rotating mechanism 11 rotates clockwise 90 ° in loading and unloading station and is taken the photograph
As mould group rotates to dark-state testing agency 12, after which positions carrier 22, dark-state detection is carried out, is driven by servo motor
Linear guide controls the lifting of third light source by lifting cylinder to switch first light source and second light source, thus not homochromy
Whether detection camera module works normally under temperature, different angle and different direction;After dark-state detects, rotating mechanism 11 is again suitable
Hour hands are rotated by 90 °, and camera module rotates to AFC testing agency 13, after which positions carrier 22, carry out AFC Function detection,
So that carrier 22 is kept vertical state first, then carries out remote test of light source, close to sources test and teleconverter test, three kinds of tests point
Camera module focus function in the case where the irradiation of distance light source, close to sources irradiation and teleconverter change focal length, which Yong Lai not detected, is
It is no normal;After AFC Function detection, since 11 connection wire of rotating mechanism and tracheae are more, to prevent rotating mechanism from passing through
Wire rod and tracheae twist, in the case where 270 ° of clockwise rotation of rotating mechanism 11,11 inverse time of rotating mechanism
Needle rotates 270 °, and camera module enters DCC testing agency 14, after which positions carrier 22, carries out DCC detection, first
So that carrier 22 is kept vertical state, then carry out remote test of light source and close to sources test, two kinds of tests are respectively intended to detection camera shooting
Whether data communication channel works normally mould group in the case where distance light source is irradiated and under close to sources irradiation;After DCC is detected, whirler
Structure 11 rotates clockwise 90 °, return to loading and unloading station position, later, in loading and unloading station position, removes to have detected and finishes
Camera module is put into new camera module to be detected, repeats the testing process of top.
Optionally, rotating mechanism 11 counterclockwise rotation 270 ° when, three detection station corresponding testing agency into
Row detection, loading and unloading station are carried out removing the camera module and the operation for being put into camera module to be detected that detection finishes, be protected in this way
It demonstrate,proves the camera module on four groups of carriers all and have passed through the complete detection of three testing agencies.
Optionally, 90 ° are rotated clockwise every time, all there can be camera module to come out from DCC testing agency 14, are entered up and down
Expect station position, the detection of all mechanisms is completed in the camera module at this time, first removes the camera module for having detected and having finished, then put
Enter new camera module to be detected.
Optionally, it either rotates clockwise or rotates counterclockwise, before rotation, guarantee loading and unloading station and the other three
Station is completed current operation, and rotating mechanism 11 could start to rotate.
A testing process for present embodiments providing the camera module detection device, is put into be detected in loading and unloading station
After camera module, camera module to be detected is successively sent to by each testing agency by rotating mechanism and is detected, in an equipment
Just multinomial detection content is completed, the camera module finished is detected, still can return to initial position, facilitates operation of feeding and discharging, together
When, any moment is when the camera module of a certain station is when carrying out a certain detection or operation of feeding and discharging, the camera shooting mould of other station
Group also at corresponding testing agency or upper and lower discharge position work, guarantee equipment each testing agency and upper and lower discharge position
It is all working, is substantially increasing detection efficiency.
Example IV
As shown in figure 9, being the detected whole flow process of another camera module.After detection device starting, rotating mechanism 11
After rotating clockwise 180 °, it is put into camera module to be detected in loading and unloading station, rotating mechanism 11 rotates clockwise 90 °, takes the photograph
As mould group rotates to dark-state testing agency 12, after which positions carrier 22, dark-state detection is carried out, is driven by servo motor
Linear guide controls the lifting of third light source by lifting cylinder to switch first light source and second light source, thus not homochromy
Whether detection camera module works normally under temperature, different angle and different direction;After dark-state detects, due to rotating mechanism 11
Connection wire and tracheae are more, twist to prevent rotating mechanism from passing through wire rod and tracheae, in the up time of rotating mechanism 11
In the case where 270 ° of needle rotary motion, 270 ° of the rotation counterclockwise of rotating mechanism 11, camera module enters AFC testing agency 13,
After the mechanism positions carrier 22, AFC Function detection is carried out, carrier 22 is made to keep vertical state first, then carries out distance light source
Test, close to sources test and teleconverter test, three kinds of tests are respectively intended to detection camera module and shine in the irradiation of distance light source, close to sources
Penetrate and teleconverter change focal length in the case where focus function it is whether normal;After AFC Function detection, rotating mechanism 11 is suitable again
Hour hands are rotated by 90 °, and camera module rotates to AFC testing agency 13, after which positions carrier 22, carry out AFC Function detection;
After AFC Function detection, camera module enters DCC testing agency 14, after which positions carrier 22, carries out DCC inspection
It surveys, carrier 22 is made to keep vertical state first, then carry out remote test of light source and close to sources test, two kinds of tests are respectively intended to examine
Surveying camera module, whether data communication channel works normally under the irradiation of distance light source and under close to sources irradiation;After DCC is detected,
Rotating mechanism 11 rotates clockwise 90 ° again, returns to loading and unloading station position, later, in loading and unloading station position, removes and has examined
The camera module finished is surveyed, new camera module to be detected is put into, repeats the testing process of top.
Optionally, when rotating mechanism 11 rotates 270 ° counterclockwise, three detection station are in corresponding testing agency position
It sets and still carries out detection, loading and unloading station carries out removing the camera module and the behaviour for being put into camera module to be detected that detection finishes
Make, guarantees that the camera module on four groups of carriers all have passed through the complete detection of three testing agencies in this way.
Optionally, 90 ° are rotated clockwise every time, all there can be camera module to come out from DCC testing agency 14, are entered up and down
Expect station position, the detection of all mechanisms is completed in the camera module at this time, first removes the camera module for having detected and having finished, then put
Enter new camera module to be detected.
Optionally, it either rotates clockwise or rotates counterclockwise, before rotation, guarantee loading and unloading station and the other three
Station is completed current operation, and rotating mechanism 11 could start to rotate.
A testing process for present embodiments providing the camera module detection device, is put into be detected in loading and unloading station
After camera module, camera module to be detected is successively sent to by each testing agency by rotating mechanism and is detected, in an equipment
Just multinomial detection content is completed, the camera module finished is detected, still can return to initial position, facilitates operation of feeding and discharging, together
When, any moment is when the camera module of a certain station is when carrying out a certain detection or operation of feeding and discharging, the camera shooting mould of other station
Group also at corresponding testing agency or upper and lower discharge position work, guarantee equipment each testing agency and upper and lower discharge position
It is all working, is substantially increasing detection efficiency.
Embodiment five
It as shown in Figure 10, is the detected whole flow process of another camera module.After detection device starting, rotating mechanism 11
After rotating clockwise 270 °, it is put into camera module to be detected in loading and unloading station, since 11 connection wire of rotating mechanism is gentle
It manages more, twists to prevent rotating mechanism from passing through wire rod and tracheae, in the clockwise rotation of rotating mechanism 11
In the case where 270 °, 270 ° of the rotation counterclockwise of rotating mechanism 11, camera module enters dark-state testing agency 12, and the mechanism is to carrier
After 22 positioning, dark-state detection is carried out, drives linear guide to switch first light source and second light source by servo motor, and pass through
Lifting cylinder controls the lifting of third light source, to whether detect camera module under different-colour, different angle and different direction
It works normally;After dark-state detects, rotating mechanism 11 rotates clockwise 90 °, and camera module enters AFC testing agency 13,
After the mechanism positions carrier 22, AFC Function detection is carried out;After AFC Function detection, the rotation clockwise again of rotating mechanism 11
Turn 90 °, camera module rotates to AFC testing agency 13, after which positions carrier 22, carries out AFC Function detection, makes first
Carrier 22 keeps vertical state, then carries out remote test of light source, close to sources test and teleconverter test, three kinds of tests and is respectively intended to
Detect camera module distance light source irradiation, close to sources irradiation and teleconverter change focal length in the case where focus function whether just
Often;After AFC Function detection, camera module enters DCC testing agency 14, after which positions carrier 22, carries out DCC
Detection makes carrier 22 keep vertical state first, then carries out remote test of light source and close to sources test, and two kinds of tests are respectively intended to
Whether data communication channel works normally detection camera module under the irradiation of distance light source and under close to sources irradiation;DCC detection terminates
Afterwards, rotating mechanism 11 rotates clockwise 90 ° again, returns to loading and unloading station position, later, in loading and unloading station position, removes
The camera module finished is detected, new camera module to be detected is put into, repeats the testing process of top.
Optionally, when rotating mechanism 11 rotates 270 ° counterclockwise, three detection station are in corresponding testing agency position
It sets and still carries out detection, loading and unloading station carries out removing the camera module and the behaviour for being put into camera module to be detected that detection finishes
Make, guarantees that the camera module on four groups of carriers all have passed through the complete detection of three testing agencies in this way.
Optionally, 90 ° are rotated clockwise every time, all there can be camera module to come out from DCC testing agency 14, are entered up and down
Expect station position, the detection of all mechanisms is completed in the camera module at this time, first removes the camera module for having detected and having finished, then put
Enter new camera module to be detected.
Optionally, it either rotates clockwise or rotates counterclockwise, before rotation, guarantee loading and unloading station and the other three
Station is completed current operation, and rotating mechanism 11 could start to rotate.
A testing process for present embodiments providing the camera module detection device, is put into be detected in loading and unloading station
After camera module, camera module to be detected is successively sent to by each testing agency by rotating mechanism and is detected, in an equipment
Just multinomial detection content is completed, the camera module finished is detected, still can return to initial position, facilitates operation of feeding and discharging, together
When, any moment is when the camera module of a certain station is when carrying out a certain detection or operation of feeding and discharging, the camera shooting mould of other station
Group also at corresponding testing agency or upper and lower discharge position work, guarantee equipment each testing agency and upper and lower discharge position
It is all working, is substantially increasing detection efficiency.
Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting
Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright
Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments
The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from
It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended
Scope of the claims determine.
Claims (10)
1. a kind of camera module detection device characterized by comprising rotating mechanism, dark-state testing agency, continuous auto-focusing
AFC testing agency, data communication channel DCC testing agency and rack;
The rotating mechanism, the dark-state testing agency, the AFC testing agency and the DCC testing agency are fixed on described
In rack;
It include at least three on the rotating mechanism for carrying the detection station of camera module to be detected, the rotating mechanism is used
It is detected in the camera module to be detected of carrying is successively sent to each testing agency by rotation;
The dark-state testing agency, for the detection to the camera module to be detected under different-colour condition light source;
The AFC testing agency is detected for the AFC function to the camera module to be detected;
The DCC testing agency is detected for the data communication channel to the camera module to be detected.
2. camera module detection device according to claim 1, which is characterized in that the rotating mechanism includes: turntable;
It include four average station positioned at the disk peripheral direction on the turntable, four station are for being upper and lower
Expect that operation, dark-state testing agency, AFC testing agency and DCC testing agency carry camera module to be detected.
3. camera module detection device according to claim 2, which is characterized in that each station includes: carrier;
The carrier is symmetrically installed along disk peripheral direction, wherein the angle between the two neighboring carrier is 90 °.
4. camera module detection device according to claim 3, which is characterized in that each carrier includes: multiple only
Vertical camera module fixed fixture;
The fixed fixture, for fixing the camera module to be detected.
5. camera module detection device according to claim 1, which is characterized in that dark-state testing agency includes: the first light
Source, second light source and third light source;
The first light source and the second light source are mounted below light source fixing frame;The third light source is mounted on light source and fixes
On the right side of frame;The first light source, the second light source and the third light source are used in different-colour, different angle and non-Tongfang
Whether the lower detection camera module of the light source irradiation of position works normally.
6. camera module detection device according to claim 5, which is characterized in that the first light source and second light
Source drives the light source in linear guide to switch by servo motor;The third light source by lifting cylinder drive increase or under
Drop.
7. camera module detection device according to claim 1, which is characterized in that the AFC testing agency includes: distance light
Source component, dipped beam source component, increment mirror assembly and handle rotary screw rod component;
The distance light source component detects focusing of the camera module to be detected under the irradiation of distance light source for providing distance light source
Function;
The dipped beam source component detects focusing of the camera module to be detected under close to sources irradiation for providing close to sources
Function;
The increment mirror assembly detects focus function of the camera module to be detected under different focal length for changing focal length;
The handle rotary screw rod, for adjusting the spacing in distance light source and carrier and the spacing of close to sources and carrier.
8. camera module detection device according to claim 1, which is characterized in that the DCC testing agency includes: distance light
Source component, dipped beam source component and handle rotary screw rod component;
The distance light source component detects the data communication channel of the camera module to be detected in distance light for providing distance light source
Whether worked normally under the irradiation of source;
The dipped beam source component detects the data communication channel of the camera module to be detected in dipped beam for providing close to sources
Whether worked normally under the irradiation of source;
The handle rotary screw rod, for adjusting the spacing in distance light source and carrier and the spacing of close to sources and carrier.
9. camera module detection device according to claim 1 characterized by comprising display;
The display, for showing the start and stop, debugging and creation data information of equipment.
10. camera module detection device according to claim 1 characterized by comprising power control cabinet and industrial personal computer;
The power control cabinet, for providing electric power safeguard for the camera module detection device;
The industrial personal computer, the control system as the camera module detection device.
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Publication number | Priority date | Publication date | Assignee | Title |
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CN112153367A (en) * | 2019-06-26 | 2020-12-29 | 宁波舜宇光电信息有限公司 | Automatic detection machine for testing camera module |
CN112203041A (en) * | 2019-07-08 | 2021-01-08 | 宁波舜宇光电信息有限公司 | Shooting and material buckling equipment |
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2018
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CN112153367A (en) * | 2019-06-26 | 2020-12-29 | 宁波舜宇光电信息有限公司 | Automatic detection machine for testing camera module |
CN112153367B (en) * | 2019-06-26 | 2024-05-10 | 宁波舜宇光电信息有限公司 | Automatic detector for testing camera module |
CN112203041A (en) * | 2019-07-08 | 2021-01-08 | 宁波舜宇光电信息有限公司 | Shooting and material buckling equipment |
CN112203041B (en) * | 2019-07-08 | 2023-04-07 | 宁波舜宇光电信息有限公司 | Shooting and material buckling equipment |
CN112824850A (en) * | 2019-11-21 | 2021-05-21 | 宁波舜宇光电信息有限公司 | State detection, material taking and placing control device of openable tool and module detection equipment |
CN112985770A (en) * | 2019-12-17 | 2021-06-18 | 宁波舜宇光电信息有限公司 | Target mechanism and corresponding module detection equipment |
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CN114071118A (en) * | 2020-07-30 | 2022-02-18 | 宁波舜宇光电信息有限公司 | Camera module detection equipment |
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