CN108534816A - Light sensor test equipment and precision, brightness, the test method for receiving angular - Google Patents
Light sensor test equipment and precision, brightness, the test method for receiving angular Download PDFInfo
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- CN108534816A CN108534816A CN201810294738.1A CN201810294738A CN108534816A CN 108534816 A CN108534816 A CN 108534816A CN 201810294738 A CN201810294738 A CN 201810294738A CN 108534816 A CN108534816 A CN 108534816A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D18/00—Testing or calibrating apparatus or arrangements provided for in groups G01D1/00 - G01D15/00
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Abstract
The present embodiments relate to light sensor test, a kind of light sensor test equipment and precision, brightness, the test method for receiving angular are disclosed.In the present invention, light sensor test equipment includes fixed plate, for installing Devices to test;Mounting bracket is oppositely arranged for installing test suite, and with fixed plate, and Devices to test is towards mounting bracket;Drive module, driving mounting bracket are moved;Main control unit stores at least one coordinate bit, and each coordinate bit corresponds to a type of Devices to test for controlling drive module;Main control unit transfers any one coordinate bit, and controls drive module according to the coordinate bit transferred, and drives mounting bracket to move to the coordinate bit by drive module;Main control unit control test suite device under test is tested.Compared with prior art so that it is more convenient to the items test of the optical sensor in electronic equipment, the testing time is shortened, testing efficiency, while the accuracy higher tested are improved.
Description
Technical field
The present embodiments relate to light sensor tests, more particularly to light sensor test equipment and precision, brightness, receipts light
The test method of angle.
Background technology
Electronic equipment is equipped with optical sensor, and optical sensor can extend the working time of battery to the maximum extent.Light passes
Sensor contributes to display to provide soft picture.It, can be certainly using the liquid crystal display of optical sensor when ambient brightness is higher
It is dynamic to be tuned into high brightness.When external environment is dark, display will be tuned into low-light level, realize automatic regulating lightness.To make equipment
Optical sensor meet the requirements to the adjusting of screen intensity, produce design when, need adjust test electronic equipment light sensing
Influence of the device to screen intensity.In existing detection, need to detect precision, brightness and the receipts when optical sensor adjusts screen
Angular needs, when testing different projects, to use different testing elements, it is therefore desirable to every to complete these tests
Testing element is installed when item test, test angle is adjusted, to meet testing requirement.Inventor has found, in existing test, needs
When testing disparity items, testing element is constantly replaced, also needs to readjust test according to test condition after replacing element
Element angle, the process for replacing testing element and adjusting test angle is relatively complicated, wastes the testing time, affects test effect
Rate, and continuous disassemble element adjust angle so that the accuracy for adjusting test is not high.
Invention content
Embodiment of the present invention is designed to provide a kind of light sensor test equipment so as to the light in electronic equipment
The items test of sensor is more convenient, shortens the testing time, improves testing efficiency, while the accuracy higher tested.
In order to solve the above technical problems, embodiments of the present invention provide a kind of light sensor test equipment, including:
Fixed plate, for installing Devices to test;
Mounting bracket is oppositely arranged for installing test suite, and with the fixed plate, and the Devices to test is towards the peace
It shelves;
Drive module, for driving the mounting bracket to be moved;
Main control unit is electrically connected with the drive module, for controlling the drive module, is additionally operable to storage at least one
A coordinate bit, and each coordinate bit corresponds to a type of Devices to test;
Wherein, the main control unit is additionally operable to transfer any one coordinate bit, and is controlled according to the coordinate bit transferred
The drive module drives the mounting bracket to move to the coordinate bit by the drive module;The main control unit, is additionally operable to
After the coordinate bit that the mounting bracket is transferred to the main control unit, controls the test suite and the Devices to test is surveyed
Examination.
Embodiments of the present invention additionally provide a kind of method for testing precision of optical sensor, are surveyed using above-mentioned optical sensor
Equipment is tried, the method for testing precision of the optical sensor includes the following steps:
According to the type of Devices to test, the drive module is controlled using the main control unit, is driven by the drive module
The mounting bracket is moved, the mounting bracket is adjusted to predeterminated position;
The mounting bracket records the current seat of the mounting bracket after being adjusted to predeterminated position, using the main control unit
Mark;
According to the type of Devices to test, using the main control unit transfer with corresponding to the Devices to test type described in
Coordinate bit;
Main control unit is being obtained with after the coordinate bit corresponding to the Devices to test type, controls the drive module, by
The drive module drives the mounting bracket to move to the coordinate bit;
After the mounting bracket moves to the coordinate bit that the main control unit is transferred, test group is controlled using main control unit
Part tests the Devices to test by the test suite.
Embodiments of the present invention additionally provide a kind of luminance test method of optical sensor, are surveyed using above-mentioned optical sensor
Equipment is tried, the luminance test method of the optical sensor includes the following steps:
According to the type of Devices to test, the drive module is controlled using the main control unit, is driven by the drive module
The mounting bracket is moved, the mounting bracket is adjusted to the first predeterminated position;
It is current that the mounting bracket records the mounting bracket after being adjusted to the first predeterminated position, using the main control unit
The first coordinate bit;
According to the type of Devices to test, the drive module is controlled using the main control unit, is driven by the drive module
The mounting bracket is moved, the mounting bracket is adjusted to the second predeterminated position;
It is current that the mounting bracket records the mounting bracket after being adjusted to the second predeterminated position, using the main control unit
The second coordinate bit;
According to the type of Devices to test, using the main control unit transfer with corresponding to the Devices to test type described in
First coordinate bit;
Main control unit is being obtained with after the coordinate bit corresponding to the Devices to test type, controls the drive module, by
The drive module drives the mounting bracket to move to first coordinate bit;
After the mounting bracket moves to the first coordinate bit that the main control unit is transferred, is controlled and tested using main control unit
Component tests the Devices to test by the test suite;
When the Devices to test is after the first coordinate bit test, transferred and the Devices to test using the main control unit
Second coordinate bit corresponding to type;
Main control unit is being obtained with after the second coordinate bit corresponding to the Devices to test type, controls the driving mould
Block drives the mounting bracket to move to second coordinate bit by the drive module;
After the mounting bracket moves to the second coordinate bit that the main control unit is transferred, is controlled and tested using main control unit
Group valence, tests the Devices to test by the test suite.
Embodiments of the present invention additionally provide a kind of light sensor test equipment, including,
Fixed plate, for installing Devices to test;
Mounting bracket is oppositely arranged for installing test suite, and with the fixed plate, and the Devices to test is towards the peace
It shelves;
Drive module, for driving the mounting bracket to be moved;
Power plant module, for driving the fixed plate;
Main control unit is electrically connected respectively with the drive module, the power plant module and the test suite, for controlling
The drive module and the power plant module are made, is additionally operable to store at least one coordinate bit, and each coordinate bit corresponds to one
The Devices to test of type;
Wherein, the main control unit is additionally operable to transfer any one coordinate bit, and is controlled according to the coordinate bit transferred
The drive module drives the mounting bracket to move to the coordinate bit by the drive module;
The main control unit is additionally operable to after the coordinate bit that mounting bracket moves to that the main control unit is transferred, and is controlled described dynamic
Power module drives the fixed plate to be moved by preset test path, and controls the test suite to the Devices to test
It is tested.
Embodiments of the present invention additionally provide a kind of receipts angular test method of optical sensor, using above-mentioned light sensing
The receipts angular test method of device test equipment, the optical sensor includes the following steps:
According to the type of Devices to test, the drive module is controlled using the main control unit, is driven by the drive module
The mounting bracket is moved, the mounting bracket is adjusted to predeterminated position;
The mounting bracket records the current seat of the mounting bracket after being adjusted to predeterminated position, using the main control unit
Mark;
According to the type of Devices to test, using the main control unit transfer with corresponding to the Devices to test type described in
Coordinate bit;
Main control unit is being obtained with after the coordinate bit corresponding to the Devices to test type, controls the drive module, by
The drive module drives the mounting bracket to move to the coordinate bit;
After the mounting bracket moves to the coordinate bit that the main control unit is transferred, control described in the power plant module drive
Fixed plate is moved by preset test path, and is controlled the test suite and tested the Devices to test.
Embodiment of the present invention in terms of existing technologies, due to being equipped with fixed plate, mounting bracket, drive module and master control
Unit, Devices to test are mounted in fixed plate, and mounting bracket installs test suite.Main control unit controls drive module, is additionally operable to deposit
At least one coordinate bit is stored up, and each coordinate bit corresponds to a type of Devices to test.Main control unit transfers any one
Coordinate bit, and the drive module is controlled according to the coordinate bit transferred, drive module drives mounting bracket to move to the coordinate bit.
After the coordinate bit that mounting bracket is transferred to main control unit, main control unit control test suite device under test is tested.Meanwhile by
In being additionally provided with power plant module, for driving fixed plate.After the coordinate bit that mounting bracket moves to that main control unit is transferred, main control unit
Control power plant module drive fixed plate moved by preset test path, and control test suite to the Devices to test into
Row test.To which a variety of tests of optical sensor can be completed by light sensor test equipment, realize by automatically controlling installation
Frame and fixed plate, and ensure that mounting bracket and fixed plate are moved according to testing requirement, the position moved to is more accurate so as to electricity
The items test of optical sensor in sub- equipment is more convenient, shortens the testing time, improves testing efficiency, while testing
Accuracy higher.
In addition, light sensor test equipment, including:
Pedestal, for placing the fixed plate and the mounting bracket;
The drive module includes:
First driving means, for driving the mounting bracket edge to be moved perpendicular to the direction of the fixed plate;
Second driving device, for driving the mounting bracket to be moved along the direction for being parallel to the fixed plate;
Third driving device, for driving the mounting bracket edge to be moved perpendicular to the direction of the pedestal;
Wherein, the first driving means, second driving device and the third driving device and the master control list
Member is electrically connected, and is controlled by the main control unit.
In addition, the light sensor test equipment further includes:
First track is arranged on the base, and first track extends along perpendicular to the direction of the fixed plate;
Second track, the extending direction along first track are slidably disposed on first track, and along flat
Row extends in the direction of the fixed plate;
Third track, the extending direction along second track are slidably disposed on second track, and along vertical
Directly extend in the direction of the pedestal;
Wherein, the first driving means connect second track, for driving the peace by second track
The extending direction shelved along first track moves;
Second driving device connects the third track, for driving the mounting bracket edge by the third track
The extending direction of second track moves;
The third driving device connects the mounting bracket, for driving the mounting bracket along the extension side of the third track
To sliding.
In addition, the first driving means include:The third leading screw being connect with second track and the third leading screw
The first connected driving motor;
Wherein, the third leading screw extends along first track extending direction, first driving motor and the master
It controls unit to be electrically connected, and first driving motor is for driving the third leading screw to rotate;
The third leading screw is used to that second track to be driven to slide along the extending direction of first track in rotation
It is dynamic;Second track is used to, in sliding, the mounting bracket be driven to move along first track extending direction;
Second driving device includes:The 4th lead screw that is connect with the third track is connect with the 4th leading screw
The second driving motor;
Wherein, the 4th lead screw extends along second track extending direction, second driving motor and the master
It controls unit to be electrically connected, and second driving motor is for driving the 4th leading screw to rotate;
4th leading screw is used to that the third track to be driven to slide along the extending direction of second track in rotation
It is dynamic;The third track is used to, in sliding, the mounting bracket be driven to move along second track extending direction;
The third driving device includes:The 5th leading screw that is connect with the mounting bracket is connect with the 5th leading screw
Third driving motor;
Wherein, the 5th lead screw extends along the third track extending direction, the third driving motor and the master
It controls unit to be electrically connected, and the third driving motor is for driving the 5th leading screw to rotate;
5th leading screw is used to that the mounting bracket to be driven to slide along the extending direction of the third track in rotation.
To may make third track to be slided along the extending direction of the second track, mounting bracket is slided along the extending direction of third track.
In addition, light sensor test equipment, including:
Pedestal, for placing the fixed plate and the mounting bracket;
The fixed drive module includes:
Four-drive device, for driving the fixed plate to be rotated centered on first axle, the first axle and institute
It is perpendicular to state pedestal;
5th driving device, for driving the fixed plate to be rotated centered on second axis, the second axis and institute
It is parallel to state pedestal;
Wherein, the four-drive device and the 5th driving device are electrically connected with the main control unit, and by institute
State main control unit control.
In addition, the four-drive device includes:Fixed frame on the base is set, for driving the fixed frame
The 4th driving motor rotated centered on first axle, and the 4th driving motor is electrically connected with the main control unit;
Wherein, the fixed frame is used to rotate centered on driving the fixed plate by the first axle in rotation;
5th driving device includes:With the fixed frame be flexibly connected and be connected with the fixed plate connecting shaft, and
The connecting shaft is connected and for driving the 5th driving motor that the connecting shaft is rotated centered on the second axis;And described
Five driving motors are electrically connected with the main control unit;
Wherein, the connecting shaft is used to rotate centered on driving the fixed plate by the second axis in rotation.To
Fixed plate is driven by fixed frame so that fixed plate is rotated centered on first axle, and fixed plate is driven by connecting shaft so that Gu
Fixed board is rotated centered on second axis.
Description of the drawings
One or more embodiments are illustrated by the picture in corresponding attached drawing, these exemplary theorys
The bright restriction not constituted to embodiment, the element with same reference numbers label is expressed as similar element in attached drawing, removes
Non- to have special statement, composition does not limit the figure in attached drawing.
Fig. 1 is first embodiment of the invention light sensor test equipment front view;
Fig. 2 is first embodiment of the invention light sensor test equipment vertical view;
Fig. 3 is the vertical view that Auxiliary Track is equipped in first embodiment of the invention light sensor test equipment;
Fig. 4 is the circuit module figure of first embodiment of the invention light sensor test equipment;
Fig. 5 is second embodiment of the invention light sensor test device structure schematic diagram;
Fig. 6 is the circuit module figure of second embodiment of the invention light sensor test equipment;
Fig. 7 is the method for testing precision flow chart of third embodiment of the invention optical sensor;
Fig. 8 is the luminance test method flow diagram of four embodiment of the invention optical sensor;
Fig. 9 is the receipts angular test method flow chart of fifth embodiment of the invention optical sensor.
Specific implementation mode
In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with attached drawing to the present invention
Each embodiment be explained in detail.However, it will be understood by those skilled in the art that in each embodiment party of the present invention
In formula, in order to make the reader understand this application better, many technical details are proposed.But even if without these technical details
And various changes and modifications based on the following respective embodiments, it can also realize the application technical solution claimed.
The first embodiment of the present invention is related to a kind of light sensor test equipment, as shown in Figure 1, Figure 2 and Figure 4, including
Fixed plate 2, mounting bracket 5, drive module and main control unit, fixed plate 2 are surveyed for installing Devices to test, mounting bracket 5 for installing
Component is tried, and is oppositely arranged with fixed plate 2, Devices to test is towards mounting bracket 5.Drive module driving mounting bracket 5 is moved, main
It controls unit to be electrically connected with drive module, for controlling drive module, is additionally operable to store at least one coordinate bit, and each coordinate
The corresponding a type of Devices to test in position.Main control unit is additionally operable to transfer any one coordinate bit, and according to the coordinate bit transferred
Drive module is controlled, drives mounting bracket 5 to move to the coordinate bit by drive module.Main control unit is additionally operable in mounting bracket 5 to master
After the coordinate bit that control unit is transferred, control test suite device under test is tested.
It is to be measured through the above it is not difficult to find that due to being equipped with fixed plate 2, mounting bracket 5, drive module and main control unit
Equipment is mounted in fixed plate 2, and mounting bracket 5 installs test suite.Main control unit controls drive module, is additionally operable to storage at least one
A coordinate bit, and each coordinate bit corresponds to a type of Devices to test.Main control unit transfers any one coordinate bit, and according to
The coordinate bit control drive module transferred, drive module drive mounting bracket 5 to move to the coordinate bit.Master control list is arrived in mounting bracket 5
After the coordinate bit that member is transferred, main control unit control test suite device under test is tested.To pass through light sensor test
Equipment can complete a variety of tests of optical sensor, realize by automatically controlling mounting bracket 5 and fixed plate 2, and ensure 5 He of mounting bracket
Fixed plate 2 is moved according to testing requirement, and the position moved to is more accurate so as to the items of the optical sensor in electronic equipment
It tests more convenient, shortens the testing time, improve testing efficiency, while the accuracy higher tested.
Further, as shown in Figure 1, light sensor test equipment further includes the bottom for placing fixed plate 2 and mounting bracket 5
Seat 1.Drive module includes that first driving means 6, the second driving device 7 and third driving device 8, first driving means 6 are used for
Driving mounting bracket perpendicular to the direction of fixed plate 2 along moving, and the second driving device 7 is for driving mounting bracket 5 along being parallel to fixation
The direction of plate 2 moves, and third driving device 8 is for driving mounting bracket 5 to be moved along perpendicular to the direction of pedestal 1.First driving dress
It sets the 6, second driving device 7 and third driving device 8 to be electrically connected with main control unit, and is controlled by main control unit.
It will be further appreciated that as depicted in figs. 1 and 2, in order to keep the direction of motion of mounting bracket 5 accurate, being not easy to deviate, light
Sensor testing apparatus further includes the first track 10, the second track 11 and third track 12.First track 10 is arranged in pedestal 1
On, and the first track 10 extends along perpendicular to the direction of fixed plate 2.Second track 11 can be slided along the extending direction of the first track 10
It is arranged dynamicly on the first track 10, and extends along the direction for being parallel to fixed plate 2, and 11 bottom end of the second track is stuck in the first rail
It is more steady when being not easily disconnected from the first track 10 to the second track 11, and being slided along 10 extending direction of the first track on road 10.
Third track 12 is slidably disposed on along the extending direction of the second track 11 on the second track 11, and along perpendicular to pedestal 1
Direction extends.First driving means 6 connect the second track 11, and first driving means 6 drive 5 edge of mounting bracket by the second track 11
The extending direction of first track 10 moves, and the bottom end of third track 12 is stuck on the second track 11, not to third track 12
It is more steady when being easily detached from the second track 11, and being moved along 11 extending direction of the second track.Second driving device 7 connects third rail
Road 12, the second driving device 7 drive mounting bracket 5 to be moved along the extending direction of the second track 11 by third track 12.Third is driven
Dynamic device 8 connects mounting bracket 5, and third driving device 8 is driven mounting bracket 5 and slided along the extending direction of third track 12.
Further, as depicted in figs. 1 and 2, first driving means 6 include the third leading screw being connect with the second track 11
61, the first driving motor 62 being connected with third leading screw 61.Third leading screw 61 extends along 10 extending direction of the first track, and first drives
Dynamic motor 62 is electrically connected with main control unit, and the first driving motor 62 is for driving third leading screw 61 to rotate.Third leading screw 61
For in rotation, the second track 11 being driven to be slided along the extending direction of the first track 10;Second track 11 is used in sliding,
Mounting bracket 5 is driven to be moved along 10 extending direction of the first track.To may make the second track 11 along the extension side of the first track 10
To sliding.
In addition, as depicted in figs. 1 and 2, the second driving device 7 include the 4th lead screw 71 connect with third track 12, and
Second driving motor 72 of the 4th leading screw connection.4th lead screw 71 extends along 11 extending direction of the second track, the second driving motor
72 are electrically connected with main control unit, and the second driving motor 72 is for driving the rotation of the 4th leading screw.4th leading screw is for rotating
When, drive third track 12 to be slided along the extending direction of the second track 11;Third track 12 is used to, in sliding, drive mounting bracket
5 move along 11 extending direction of the second track.To may make third track 12 to be slided along the extending direction of the second track 11.
Further, as depicted in figs. 1 and 2, third driving device 8 include the 5th leading screw 81 being connect with mounting bracket 5, with
The third driving motor 82 of 5th leading screw 81 connection.5th lead screw extends along 12 extending direction of third track, third driving motor
82 are electrically connected with main control unit, and third driving motor 82 is for driving the rotation of the 5th leading screw 81.5th leading screw 81 is used for
When rotation, mounting bracket 5 is driven to be slided along the extending direction of third track 12.So that the prolonging along third track 12 of mounting bracket 5
Stretch direction sliding.In actual use, as shown in figure 3, light sensor test equipment further includes being arranged on pedestal 1 and with first
10 first Auxiliary Track, 13 and second Auxiliary Track 14 disposed in parallel of track, and the first track 10 is arranged in the first Auxiliary Track
13 and second between Auxiliary Track 14.Second track 11 is slidably connected with the first Auxiliary Track 13 and the second Auxiliary Track 14.From
And support force is provided to the second track 11 and auxiliary is oriented to by the first Auxiliary Track 13 and the second Auxiliary Track 14, it may make the
Two tracks 11 slide more stable along 10 extending direction of the first track.
Second embodiment of the present invention is related to a kind of light sensor test equipment.Second embodiment and the first embodiment party
Formula is roughly the same, and in second embodiment of the invention, as shown in Figure 5 and Figure 6, light sensor test equipment further includes power mould
Block, power plant module is for driving fixed plate 2.Main control unit is electrically connected with drive module, power plant module and test suite, is used for
Drive module and power plant module are controlled, is additionally operable to store at least one coordinate bit, and each coordinate bit corresponds to a type of wait for
Measurement equipment;Main control unit is additionally operable to transfer any one coordinate bit, and controls drive module according to the coordinate bit transferred, by driving
Module drives mounting bracket 5 to move to the coordinate bit.Main control unit is additionally operable to move to the coordinate that main control unit is transferred in mounting bracket 5
Behind position, control power plant module drives fixed plate 2 to be moved by preset test path, and controls test suite device under test
It is tested.It drives fixed plate 2 to move to control power plant module by main control unit, realizes the automatic running of fixed plate 2, and
The movement position of fixed plate 2 is more accurate.
Further, as shown in Figure 5 and Figure 6, fixed drive module includes four-drive device 3 and the 5th driving device 4.
For four-drive device 3 for driving fixed plate 2 to be rotated centered on first axle N, first axle N and pedestal 1 are perpendicular.5th
For driving device 4 for driving fixed plate 2 to be rotated centered on second axis P, second axis P is parallel with pedestal 1.4th driving
Device 3 and the 5th driving device 5 are electrically connected with main control unit, and are controlled by main control unit.
Specifically, as shown in figure 5, there is multiple mounting holes 9 in fixed plate 2, according to actual conditions can by Devices to test and
Illumination photometer is mounted on and is fixed in fixed plate 2 by different mounting holes 9, passes through different mounting holes 9 so that Devices to test and photograph
Degree meter may be mounted at the different location of fixed plate 2, and other elements can also be in the light of actual conditions fixed in fixed plate 2.4th
Driving device 3 include be arranged on pedestal 1 fixed frame 31, for driving fixed frame 31 by first axle N centered on rotate
4th driving motor 32, and the 4th driving motor 32 is electrically connected with main control unit.Fixed frame 31 drives fixed plate 2 in rotation
It is rotated centered on first axle N, to drive fixed plate 2 by fixed frame 31 so that during fixed plate 2 is with first axle N
The heart rotates.5th driving device 4 includes the connecting shaft 41 and 41 phase of connecting shaft for being flexibly connected with fixed frame 31 and being connected with fixed plate 2
Even and for driving the 5th driving motor 42 that connecting shaft 41 is rotated centered on second axis P, and the 5th driving motor 42 and master
Unit is controlled to be electrically connected.Connecting shaft 41 rotates centered on driving fixed plate 2 by second axis P in rotation, to pass through connecting shaft 41
Drive fixed plate 2 so that fixed plate 2 is rotated centered on second axis P.
Third embodiment of the present invention is related to a kind of method for testing precision of optical sensor.The accuracy test of optical sensor
Method is tested using the light sensor test equipment in first embodiment, as shown in fig. 7, the precision of optical sensor is surveyed
Method for testing includes the following steps:
Step 701 controls drive module using main control unit, is driven and installed by drive module according to the type of Devices to test
Frame adjusts mounting bracket to predeterminated position;
Step 702 mounting bracket is after being adjusted to predeterminated position, using the current coordinate bit of main control unit record mounting bracket;
Step 703 is transferred and the coordinate corresponding to Devices to test type according to the type of Devices to test using main control unit
Position;
Step 704 main control unit is being obtained with after the coordinate bit corresponding to Devices to test type, drive module is controlled, by driving
Dynamic module drive mounting bracket moves to the coordinate bit;
Step 705 controls test suite after mounting bracket moves to the coordinate bit that main control unit is transferred, using main control unit,
It is tested by test suite device under test.
The 4th embodiment of the present invention is related to a kind of luminance test method of optical sensor.The luminance test of optical sensor
Method is tested using the light sensor test equipment in first embodiment, as shown in figure 8, the brightness of optical sensor is surveyed
Method for testing includes the following steps:
Step 801 controls drive module using main control unit, is driven and installed by drive module according to the type of Devices to test
Frame adjusts mounting bracket to the first predeterminated position;
Step 802 mounting bracket after being adjusted to the first predeterminated position, using main control unit record mounting bracket it is current the
One coordinate bit;
Step 803 controls drive module using main control unit, is driven and installed by drive module according to the type of Devices to test
Frame adjusts mounting bracket to the second predeterminated position;
Step 804 mounting bracket after being adjusted to the second predeterminated position, using main control unit record mounting bracket it is current the
Two coordinate bits;
Step 805 is transferred and first corresponding to Devices to test type according to the type of Devices to test using main control unit
Coordinate bit;
Step 806 main control unit is being obtained with after the coordinate bit corresponding to Devices to test type, drive module is controlled, by driving
Dynamic module drive mounting bracket moves to first coordinate bit;
Step 807 is controlled using main control unit and is tested after mounting bracket moves to the first coordinate bit that main control unit is transferred
Component is tested by test suite device under test;
Step 808 works as Devices to test after the first coordinate bit test, is transferred and the Devices to test using main control unit
The second coordinate bit corresponding to type;
Step 809 main control unit is being obtained with after the second coordinate bit corresponding to Devices to test type, controls drive module,
Second coordinate bit is moved to by drive module driving mounting bracket;
Step 810 is controlled using main control unit and is tested after mounting bracket moves to the second coordinate bit that main control unit is transferred
Component is tested by test suite device under test.
The 5th embodiment of the present invention is related to a kind of receipts angular test method of optical sensor.The receipts light of optical sensor
Angle measurement method, using the light sensor test system in second embodiment, as shown in figure 9, the receipts optic angle of optical sensor
Degree test method includes the following steps:
Step 901 controls drive module using main control unit, is driven and installed by drive module according to the type of Devices to test
Frame adjusts mounting bracket to predeterminated position;
Step 902 mounting bracket is after being adjusted to predeterminated position, using the current coordinate bit of main control unit record mounting bracket;
Step 903 is transferred and the coordinate corresponding to Devices to test type according to the type of Devices to test using main control unit
Position;
Step 904 main control unit is being obtained with after the coordinate bit corresponding to Devices to test type, drive module is controlled, by driving
Dynamic module drive mounting bracket moves to the coordinate bit;
For step 905 after mounting bracket moves to the coordinate bit that main control unit is transferred, control power plant module drives fixed plate to press
Preset test path is moved, and is controlled test suite device under test and tested.
It will be understood by those skilled in the art that the respective embodiments described above are to realize specific embodiments of the present invention,
And in practical applications, can to it, various changes can be made in the form and details, without departing from the spirit and scope of the present invention.
Claims (10)
1. a kind of light sensor test equipment, which is characterized in that including:
Fixed plate, for installing Devices to test;
Mounting bracket is oppositely arranged for installing test suite, and with the fixed plate, and the Devices to test is towards the installation
Frame;
Drive module, for driving the mounting bracket to be moved;
Main control unit is electrically connected with the drive module and test suite, for controlling the drive module, is additionally operable to store
At least one coordinate bit, and each coordinate bit corresponds to a type of Devices to test;
Wherein, the main control unit is additionally operable to transfer any one coordinate bit, and according to described in the coordinate bit control transferred
Drive module drives the mounting bracket to move to the coordinate bit by the drive module;The main control unit, is additionally operable to described
After the coordinate bit that mounting bracket is transferred to the main control unit, controls the test suite and the Devices to test is tested.
2. light sensor test equipment according to claim 1, which is characterized in that including:
Pedestal, for placing the fixed plate and the mounting bracket;
The drive module includes:
First driving means, for driving the mounting bracket edge to be moved perpendicular to the direction of the fixed plate;
Second driving device, for driving the mounting bracket to be moved along the direction for being parallel to the fixed plate;
Third driving device, for driving the mounting bracket edge to be moved perpendicular to the direction of the pedestal;
Wherein, the first driving means, second driving device and the third driving device and main control unit electricity
Property connection, and controlled by the main control unit.
3. light sensor test equipment according to claim 2, which is characterized in that the light sensor test equipment is also wrapped
It includes:
First track is arranged on the base, and first track extends along perpendicular to the direction of the fixed plate;
Second track, the extending direction along first track are slidably disposed on first track, and edge is parallel to
The direction of the fixed plate extends;
Third track, the extending direction along second track are slidably disposed on second track, and along perpendicular to
The direction of the pedestal extends;
Wherein, the first driving means connect second track, for driving the mounting bracket by second track
Extending direction along first track moves;
Second driving device connects the third track, for driving the mounting bracket described in by the third track
The extending direction of second track moves;
The third driving device connects the mounting bracket, is slided along the extending direction of the third track for driving the mounting bracket
It is dynamic.
4. light sensor test equipment according to claim 3, which is characterized in that the first driving means include:With
The third leading screw of the second track connection, the first driving motor being connected with the third leading screw;
Wherein, the third leading screw extends along first track extending direction, first driving motor and the master control list
Member is electrically connected, and first driving motor is for driving the third leading screw to rotate;
The third leading screw is used to that second track to be driven to slide along the extending direction of first track in rotation;Institute
The second track is stated in sliding, the mounting bracket being driven to be moved along first track extending direction;
Second driving device includes:The 4th lead screw that is connect with the third track, connect with the 4th leading screw
Two driving motors;
Wherein, the 4th lead screw extends along second track extending direction, second driving motor and the master control list
Member is electrically connected, and second driving motor is for driving the 4th leading screw to rotate;
4th leading screw is used to that the third track to be driven to slide along the extending direction of second track in rotation;Institute
Third track is stated in sliding, the mounting bracket being driven to be moved along second track extending direction;
The third driving device includes:The 5th leading screw being connect with the mounting bracket, the third being connect with the 5th leading screw
Driving motor;
Wherein, the 5th lead screw extends along the third track extending direction, the third driving motor and the master control list
Member is electrically connected, and the third driving motor is for driving the 5th leading screw to rotate;
5th leading screw is used to that the mounting bracket to be driven to slide along the extending direction of the third track in rotation.
5. a kind of light sensor test equipment, which is characterized in that including,
Fixed plate, for installing Devices to test;
Mounting bracket is oppositely arranged for installing test suite, and with the fixed plate, and the Devices to test is towards the installation
Frame;
Drive module, for driving the mounting bracket to be moved;
Power plant module, for driving the fixed plate;
Main control unit is electrically connected respectively with the drive module, the power plant module and the test suite, for controlling
Drive module and the power plant module are stated, is additionally operable to store at least one coordinate bit, and each coordinate bit corresponds to a type
The Devices to test of type;
Wherein, the main control unit is additionally operable to transfer any one coordinate bit, and according to described in the coordinate bit control transferred
Drive module drives the mounting bracket to move to the coordinate bit by the drive module;
The main control unit is additionally operable to after the coordinate bit that mounting bracket moves to that the main control unit is transferred, and controls the power mould
Block drives the fixed plate to be moved by preset test path, and controls the test suite and carried out to the Devices to test
Test.
6. light sensor test equipment according to claim 5, which is characterized in that including:
Pedestal, for placing the fixed plate and the mounting bracket;
The drive module includes:
First driving means, for driving the mounting bracket edge to be moved perpendicular to the direction of the fixed plate;
Second driving device, for driving the mounting bracket to be moved along the direction for being parallel to the fixed plate;
Third driving device, for driving the mounting bracket edge to be moved perpendicular to the direction of the pedestal;
Wherein, the first driving means, second driving device and the third driving device and main control unit electricity
Property connection, and controlled by the main control unit;
The fixed drive module includes:
Four-drive device, for driving the fixed plate to be rotated centered on first axle, the first axle and the bottom
Seat is perpendicular;
5th driving device, for driving the fixed plate to be rotated centered on second axis, the second axis and the bottom
Seat is parallel;
Wherein, the four-drive device and the 5th driving device are electrically connected with the main control unit, and by the master
Control unit control.
7. light sensor test equipment according to claim 6, which is characterized in that the four-drive device includes:If
Fixed frame on the base, the 4th driving motor for driving the fixed frame to be rotated centered on first axle are set,
And the 4th driving motor is electrically connected with the main control unit;
Wherein, the fixed frame is used to rotate centered on driving the fixed plate by the first axle in rotation;
5th driving device includes:With the fixed frame be flexibly connected and be connected with the fixed plate connecting shaft, with it is described
Connecting shaft is connected and for driving the 5th driving motor that the connecting shaft is rotated centered on the second axis;And the described 5th drives
Dynamic motor is electrically connected with the main control unit;
Wherein, the connecting shaft is used to rotate centered on driving the fixed plate by the second axis in rotation.
8. a kind of optical sensor method for testing precision, which is characterized in that passed using the light as described in claim 1-4 any one
Sensor test equipment is tested, and the method for testing precision of the optical sensor includes the following steps:
According to the type of Devices to test, the drive module is controlled using the main control unit, institute is driven by the drive module
Mounting bracket is stated, the mounting bracket is adjusted to predeterminated position;
The mounting bracket records the current coordinate of the mounting bracket after being adjusted to predeterminated position, using the main control unit
Position;
According to the type of Devices to test, transferred and the coordinate corresponding to the Devices to test type using the main control unit
Position;
Main control unit is being obtained with after the coordinate bit corresponding to the Devices to test type, the drive module is controlled, by described
Drive module drives the mounting bracket to move to the coordinate bit;
After the mounting bracket moves to the coordinate bit that the main control unit is transferred, test suite is controlled using main control unit, by
The test suite tests the Devices to test.
9. a kind of optical sensor luminance test method, which is characterized in that using any one optical sensor such as claim 1-4
The luminance test method of test equipment, the optical sensor includes the following steps:
According to the type of Devices to test, the drive module is controlled using the main control unit, institute is driven by the drive module
Mounting bracket is stated, the mounting bracket is adjusted to the first predeterminated position;
The mounting bracket records current the of the mounting bracket after being adjusted to the first predeterminated position, using the main control unit
One coordinate bit;
According to the type of Devices to test, the drive module is controlled using the main control unit, institute is driven by the drive module
Mounting bracket is stated, the mounting bracket is adjusted to the second predeterminated position;
The mounting bracket records current the of the mounting bracket after being adjusted to the second predeterminated position, using the main control unit
Two coordinate bits;
According to the type of Devices to test, transferred and described first corresponding to the Devices to test type using the main control unit
Coordinate bit;
Main control unit is being obtained with after the coordinate bit corresponding to the Devices to test type, the drive module is controlled, by described
Drive module drives the mounting bracket to move to first coordinate bit;
After the mounting bracket moves to the first coordinate bit that the main control unit is transferred, test group is controlled using main control unit
Part tests the Devices to test by the test suite;
When the Devices to test is after the first coordinate bit test, transferred and the Devices to test type using the main control unit
Corresponding second coordinate bit;
Main control unit is being obtained with after the second coordinate bit corresponding to the Devices to test type, controls the drive module, by
The drive module drives the mounting bracket to move to second coordinate bit;
After the mounting bracket moves to the second coordinate bit that the main control unit is transferred, test group is controlled using main control unit
Part tests the Devices to test by the test suite.
10. a kind of optical sensor receives angular test method, which is characterized in that using any one institute such as claim 5-7
The receipts angular test method of the light sensor test system stated, the optical sensor includes the following steps:
According to the type of Devices to test, the drive module is controlled using the main control unit, institute is driven by the drive module
Mounting bracket is stated, the mounting bracket is adjusted to predeterminated position;
The mounting bracket records the current coordinate of the mounting bracket after being adjusted to predeterminated position, using the main control unit
Position;
According to the type of Devices to test, transferred and the coordinate corresponding to the Devices to test type using the main control unit
Position;
Main control unit is being obtained with after the coordinate bit corresponding to the Devices to test type, the drive module is controlled, by described
Drive module drives the mounting bracket to move to the coordinate bit;
After the mounting bracket moves to the coordinate bit that the main control unit is transferred, controls the power plant module and drive the fixation
Plate is moved by preset test path, and is controlled the test suite and tested the Devices to test.
Priority Applications (1)
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CN201810294738.1A CN108534816A (en) | 2018-03-30 | 2018-03-30 | Light sensor test equipment and precision, brightness, the test method for receiving angular |
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CN201810294738.1A CN108534816A (en) | 2018-03-30 | 2018-03-30 | Light sensor test equipment and precision, brightness, the test method for receiving angular |
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Cited By (1)
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Application publication date: 20180914 |