CN105806597B - A kind of multi-faceted optic test platform of multi-angle - Google Patents
A kind of multi-faceted optic test platform of multi-angle Download PDFInfo
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- CN105806597B CN105806597B CN201610151145.0A CN201610151145A CN105806597B CN 105806597 B CN105806597 B CN 105806597B CN 201610151145 A CN201610151145 A CN 201610151145A CN 105806597 B CN105806597 B CN 105806597B
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- fixture
- turntable
- dead man
- generating laser
- test platform
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M11/00—Testing of optical apparatus; Testing structures by optical methods not otherwise provided for
- G01M11/02—Testing optical properties
- G01M11/04—Optical benches therefor
Abstract
The invention discloses a kind of multi-faceted optic test platform of multi-angle, including test platform, the test platform is provided with full angle turntable, generating laser fixture one, generating laser fixture two, fibre-optical probe fixture, wherein:Full angle turntable and the installation site of generating laser fixture two are symmetrical, and generating laser fixture one and fibre-optical probe jig installation position are symmetrical;Beneficial effects of the present invention:The equipment portable can dispose under various circumstances, the test for light source multi-faceted available for multi-angle.The test of the parameters such as the luminous flux of light source, ultraviolet radioactive, color can be met.
Description
Technical field
The present invention relates to technical field of optical test, and in particular to a kind of multi-faceted optic test platform of multi-angle.
Background technology
The important parameter when luminous flux of light source, ultraviolet radioactive, color etc. are all applications, it is the important finger for evaluating light source
Mark.At present, the measurement of light source all uses optical detecting platform, and optical detecting platform is installation optical detection main frame and test block
Bogey, its main function are realized in detection process, and test block and optical detection main frame are individually fixed in support frame
On, and test specimen position in detection process is realized by auxiliary equipments such as drive system mounted thereto, legacy system, sensor-based systems
The accurate focusing adjustment put, is operated with completing whole optical detection.Chinese patent application file CN202351022U discloses one
The optic test platform of kind Seeker Coordinator, including fixing end and movable end, fixing end include guide rail, are arranged on guide rail
And can move along the rail base, be arranged at optional clip on base, bearing, outer ring and the optional clip of bearing are connected, bearing
Inner ring be connected with infrared optical system component to be measured, movable end includes bidimensional translation stage, the branch that is fixed on bidimensional translation stage
Light microscope on frame, fixation and support, clamped infrared optical system component and optical microphotograph to be measured on optional clip
Mirror is in same optical axis.The utility model for infrared optical system component to be measured by providing the optional clip and axle that support
Hold, realize the rotation of infrared optical system component to be measured, scanning circle is observed by rotating infrared optical system component to be measured
Size, it is achieved thereby that right angle three-dimensional coordinate measurement and circumference measurement.
Chinese patent application file CN204679251U discloses a kind of stable type optic test platform.It is by more than three
The base (5) of interconnection is connected through screw rod (4) thereon and height adjustment nut (6) and transition piece with platform (1) respectively
It is S-shaped structural member (3) to connect composition, particularly transition piece, and the upper end (31) of S-shaped structural member (3) is through bolt (2) and platform (1)
Bottom surface is fixedly connected, lower end (32) are fixed on screw rod (4) through clamp nut (7) and height adjustment nut (6);Described S-shaped
The basal surface of structural member (3) upper end (31) and the upper surface of lower end (32) are same level, and described lower end (32) are through thereon
Borehole jack loaded on screw rod (4), the length of described upper end (31) is 9~11cm, width is 5~6cm, thickness 5mm, described
Lower end (32) length be 6~8cm, width is 5~6cm, thickness 5mm.It has high stability, can widely answer
For various optics and observation field.
However, it is disadvantageous in that existing for existing optical detecting platform:Optic test part is directly fixed on carriage
On frame, although disclosure satisfy that the demand of positioning, but it is difficult to the excessive locus to test block and posture progress multi-angle
Accurate adjustment, adjustability is poor.
The content of the invention
The problem of existing instant invention overcomes prior art, it is proposed that a kind of multi-faceted optic test platform of multi-angle, should
Test platform can carry out the accurate adjustment of multi-angle to the locus of test of light source part and posture, and it is adjustable to solve prior art
The defects of property difference.
The concrete technical scheme of the present invention is as follows:
A kind of multi-faceted optic test platform of multi-angle, including test platform 1, the test platform 1 are provided with full angle
Turntable 2, generating laser fixture 1, generating laser fixture 24, fibre-optical probe fixture 5;Wherein:Full angle turntable 2
It is symmetrical arranged with generating laser fixture 24, generating laser fixture 1 is symmetrical arranged with fibre-optical probe fixture 5.
The full angle turntable 2 includes 3 points of clamping adjustment frames 21, and 3 points of clampings adjustment frame 21 is connected by lamp holder
Connect bottom plate 1, lamp holder connecting bottom board 2 62 is connected with both translation stages 22, both translation stages 22 include it is suitable
Top 1, chassis 1, top 2 223, the chassis 2 224 of secondary connection, both translation stages 22 pass through rotation
Support 231 is connected with rotation platform 1, and the rotation platform 1 includes runing rest 231, the upper disk two being sequentially connected with
232nd, base 1, the rotation platform 1 pass through turntable support 2 63, turntable support 3 64, turntable support 4 65 and hand
Move long anomaly moving stage 24 to be connected, the long anomaly moving stage 24 manually includes top 3 241 and base 2 243, the top three
241st, sliding block 242 is provided between base two, the long anomaly moving stage 24 manually passes through turntable flat board 251 and rotation translation stage 2 25
It is connected, the rotation translation stage 2 25 includes the turntable flat board 251, upper disk 1, chassis 3 253 being sequentially connected with, the full-shape
Spend turntable 2 and left-right rotation is driven by turntable bottom plate 66.
Preferably, the generating laser fixture 1 includes Laser emission clamp head 31, the Laser emission clamp head 31
Bottom passes through presser type dead man lifting support 1, presser type dead man lifting support 2 33 and presser type dead man lifting support pressing plate
One 34, presser type dead man lifting support pressing plate 2 35 is connected, and the top of Laser emission clamp head 31 is provided with generating laser
36, the generating laser fixture 1 passes through presser type dead man lifting support pressing plate 1 and presser type dead man lifting support pressure
Plate 2 35 is connected with test platform 1;
Preferably, the fibre-optical probe fixture 5 includes presser type dead man lifting support 3 51, the presser type dead man lifting
The top of support 3 51 is provided with fibre-optical probe grip block 52, and fibre-optical probe 53, institute are clamped with the fibre-optical probe grip block 52
State the bottom of presser type dead man lifting support 3 51 and presser type dead man lifting support pressing plate 3 54, the fibre-optical probe fixture are installed
5 are connected by presser type dead man lifting support pressing plate 3 54 with test platform 1;
Preferably, the generating laser fixture 24 is identical with the structure of generating laser fixture 1;
Preferably, the rotation platform one (23), rotation translation stage two (25) have built-in motor.
Preferably, the generating laser (36) transmitting for cross laser ray.
Beneficial effect:The present invention provides a kind of multi-faceted optic test platform of multi-angle, portable can be placed in varying environment
Under, the test for light source multi-faceted available for multi-angle.The parameters such as the luminous flux of light source, ultraviolet radioactive, color can be met
Test.The test platform can carry out the accurate adjustment of multi-angle to the locus of test of light source part and posture, solve existing
There is the defects of technology adjustability difference.
Brief description of the drawings
Fig. 1 is a kind of structural representation of the multi-faceted optic test platform of multi-angle of the present invention;
Fig. 2 is the structural representation of full angle turntable;
Fig. 3 is the side view of full angle turntable;
Fig. 4 is the structural representation of generating laser fixture;
Fig. 5 is the structural representation of fibre-optical probe fixture;
Embodiment
In order to allow those skilled in the art to more fully understand technical scheme, below in conjunction with the accompanying drawings to the present invention
It is further elaborated.
Embodiment one
The present invention provides a kind of multi-faceted optic test platform of multi-angle, including test platform 1, on the test platform 1
Provided with full angle turntable 2, generating laser fixture 1, generating laser fixture 24, fibre-optical probe fixture 5;Wherein:Full-shape
Degree turntable 2 is symmetrical arranged with generating laser fixture 24, and generating laser fixture 1 is symmetrically set with fibre-optical probe fixture 5
Put.
Full angle turntable 2 includes 3 points of clamping adjustment frames 21, and 3 points of clampings adjustment frame 21 connects bottom by lamp holder
Plate 1, lamp holder connecting bottom board 2 62 are connected with both translation stages 22, and both translation stages 22 include sequentially connecting
Top 1, chassis 1, top 2 223, the chassis 2 224 connect, both translation stages 22 pass through runing rest
231 are connected with rotation platform 1, and the rotation platform 1 includes the runing rest 231, upper disk 2 232, bottom being sequentially connected with
Seat 1, the rotation platform 1 has built-in motor, and the rotation platform 1 passes through turntable support 2 63, turntable support
3 64, turntable support 4 65 is connected with manual long anomaly moving stage 24, and the long anomaly moving stage 24 manually includes top 3 241 and bottom
Seat 2 243, is provided with sliding block 242 between the top 3 241, base two, the long anomaly moving stage 24 manually passes through turntable flat board
251 are connected with rotation translation stage 2 25, and the rotation translation stage 2 25 includes turntable flat board 251, the upper disk one being sequentially connected with
252nd, chassis 3 253, the rotation translation stage 2 25 have built-in motor, and the full angle turntable 2 passes through the band of turntable bottom plate 66
Dynamic left-right rotation.
Generating laser fixture 1 includes Laser emission clamp head 31, and the bottom of Laser emission clamp head 31 passes through pressure
Board-like dead man lifting support 1, presser type dead man lifting support 2 33 and presser type dead man lifting support pressing plate 1, pressing plate
Formula dead man lifting support pressing plate 2 35 is connected, and the top of Laser emission clamp head 31 is provided with generating laser 36, described to swash
What optical transmitting set 36 was launched passes through presser type dead man lifting support pressure for cross laser ray, the generating laser fixture 1
Plate 1 and presser type dead man lifting support pressing plate 2 35 are connected with test platform 1, pass through presser type dead man lifting support 1
Regulation with presser type dead man lifting support 2 33 can change the locus of the laser beam of the transmitting of generating laser 36, described
Generating laser fixture 24 is identical with the structure of generating laser fixture 1.
Fibre-optical probe fixture 5 includes presser type dead man lifting support 3 51, on the presser type dead man lifting support 3 51
Portion is provided with fibre-optical probe grip block 52, and fibre-optical probe 53 is clamped with the fibre-optical probe grip block 52, and the presser type pulls out
The bottom of bar lifting support 3 51 is provided with presser type dead man lifting support pressing plate 3 54, and the fibre-optical probe fixture 5 passes through pressing plate
Formula dead man lifting support pressing plate 3 54 is connected with test platform 1.
The specific operation process of the test platform:Test of light source part is fixed in 3 points of clamping adjustment frames 21, Laser emission
Device fixture 1 and generating laser fixture 24 are simultaneously to test of light source part center and the emission center cross laser of fibre-optical probe 53
Ray, by this two cross laser rays come determine test of light source part and fibre-optical probe 53 whether spacial alignment, can lead to first
The height of generating laser fixture 1 and generating laser fixture 24 is overregulated to ensure that launched cross laser ray exists
Corresponding locus overlaps, and then manually combines the top 1 of translation stage 22 and chassis 1 realizes that light source is surveyed
The upper-lower height regulation of test specimen, test of light source part is realized on top 2 223, the chassis 2 224 for manually combining translation stage 22
Left and right distance is adjusted, manually the relative longitudinal separation of the long adjustable light sources test block of anomaly moving stage 24 and fibre-optical probe 53,
The coincidence point of two cross laser rays is directed at by this series of regulation test of light source part center, then is pressed by adjusting
The height of board-like dead man lifting support 3 51 makes the cross laser ray that the center of fibre-optical probe 53 alignment generating laser 36 is sent,
So far the locus calibration of test of light source part and fibre-optical probe 53 finishes, finally by the spectrum analysis of connection fibre-optical probe 53
Instrument draws the parameters such as the luminous flux of test of light source part, ultraviolet radioactive, color, then can also be by controlling rotation platform 1
Built-in motor adjustable light sources test block perpendicular angle, by controlling the built-in motor of rotation platform 2 25 adjustable
The angle for saving test of light source part horizontal plane measures the parameters such as the luminous flux of each angle of test of light source part, ultraviolet radioactive, color.
Embodiment two
The present invention provides a kind of multi-faceted optic test platform of multi-angle, including test platform 1, on the test platform 1
Provided with full angle turntable 2, generating laser fixture 1, generating laser fixture 24, fibre-optical probe fixture 5;Wherein:Full-shape
Degree turntable 2 is symmetrical arranged with generating laser fixture 24, and generating laser fixture 1 is symmetrically set with fibre-optical probe fixture 5
Put.
Full angle turntable 2 includes 3 points of clamping adjustment frames 21, and 3 points of clampings adjustment frame 21 connects bottom by lamp holder
Plate 1, lamp holder connecting bottom board 2 62 are connected with both translation stages 22, and both translation stages 22 include sequentially connecting
Top 1, chassis 1, top 2 223, the chassis 2 224 connect, both translation stages 22 pass through runing rest
231 are connected with rotation platform 1, and the rotation platform 1 includes the runing rest 231, upper disk 2 232, bottom being sequentially connected with
Seat 1, the rotation platform 1 has built-in motor, and the rotation platform 1 passes through turntable support 2 63, turntable support
3 64, turntable support 4 65 is connected with manual long anomaly moving stage 24, and the long anomaly moving stage 24 manually includes top 3 241 and bottom
Seat 2 243, is provided with sliding block 242 between the top 3 241, base two, the long anomaly moving stage 24 manually passes through turntable flat board
251 are connected with rotation translation stage 2 25, and the rotation translation stage 2 25 includes turntable flat board 251, the upper disk one being sequentially connected with
252nd, chassis 3 253, the rotation translation stage 2 25 have built-in motor, and the full angle turntable 2 passes through the band of turntable bottom plate 66
Dynamic left-right rotation;Wire pressing block 1 is installed on the lamp holder connecting bottom board 2 62, pressure is installed on the turntable support 2 63
Line block 3 631, the wire pressing block 1 are used for pushing down wire with wire pressing block 3 631, make wiring attractive in appearance.
Generating laser fixture 1 includes Laser emission clamp head 31, and the bottom of Laser emission clamp head 31 passes through pressure
Board-like dead man lifting support 1, presser type dead man lifting support 2 33 and presser type dead man lifting support pressing plate 1, pressing plate
Formula dead man lifting support pressing plate 2 35 is connected, and the top of Laser emission clamp head 31 is provided with generating laser 36, described to swash
What optical transmitting set 36 was launched passes through presser type dead man lifting support pressure for cross laser ray, the generating laser fixture 1
Plate 1 and presser type dead man lifting support pressing plate 2 35 are connected with test platform 1, pass through presser type dead man lifting support 1
Regulation with presser type dead man lifting support 2 33 can change the locus of the laser beam of the transmitting of generating laser 36, described
Generating laser fixture 24 is identical with the structure of generating laser fixture 1.
Fibre-optical probe fixture 5 includes presser type dead man lifting support 3 51, on the presser type dead man lifting support 3 51
Portion is provided with fibre-optical probe grip block 52, and fibre-optical probe 53 is clamped with the fibre-optical probe grip block 52, and the presser type pulls out
The bottom of bar lifting support 3 51 is provided with presser type dead man lifting support pressing plate 3 54, and the fibre-optical probe fixture 5 passes through pressing plate
Formula dead man lifting support pressing plate 3 54 is connected with test platform 1.
The specific operation process of the test platform:Test of light source part is fixed in 3 points of clamping adjustment frames 21, Laser emission
Device fixture 1 and generating laser fixture 24 are simultaneously to test of light source part center and the emission center cross laser of fibre-optical probe 53
Ray, by this two cross laser rays come determine test of light source part and fibre-optical probe 53 whether spacial alignment, can lead to first
The height of generating laser fixture 1 and generating laser fixture 24 is overregulated to ensure that launched cross laser ray exists
Corresponding locus overlaps, and then manually combines the top 1 of translation stage 22 and chassis 1 realizes that light source is surveyed
The upper-lower height regulation of test specimen, test of light source part is realized on top 2 223, the chassis 2 224 for manually combining translation stage 22
Left and right distance is adjusted, manually the relative longitudinal separation of the long adjustable light sources test block of anomaly moving stage 24 and fibre-optical probe 53,
The coincidence point of two cross laser rays is directed at by this series of regulation test of light source part center, then is pressed by adjusting
The height of board-like dead man lifting support 3 51 makes the cross laser ray that the center of fibre-optical probe 53 alignment generating laser 36 is sent,
So far the locus calibration of test of light source part and fibre-optical probe 53 finishes, finally by the spectrum analysis of connection fibre-optical probe 53
Instrument draws the parameters such as the luminous flux of test of light source part, ultraviolet radioactive, color, then can also be by controlling rotation platform 1
Built-in motor adjustable light sources test block perpendicular angle, by controlling the built-in motor of rotation platform 2 25 adjustable
The angle for saving test of light source part horizontal plane measures the parameters such as the luminous flux of each angle of test of light source part, ultraviolet radioactive, color.
In addition to the implementation, the present invention can also have other embodiment.It is all to use equivalent substitution or equivalent transformation shape
Into technical scheme, all fall within the protection domains of application claims.
Claims (6)
- A kind of 1. multi-faceted optic test platform of multi-angle, it is characterised in that:Including test platform (1), the test platform (1) It is provided with full angle turntable (2), generating laser fixture one (3), generating laser fixture two (4), fibre-optical probe fixture (5);Wherein:Full angle turntable (2) is symmetrical arranged with generating laser fixture two (4), generating laser fixture one (3) and light Fine probe gripper (5) is symmetrical arranged;The full angle turntable (2) includes 3 points of clamping adjustment frames (21), 3 points of clampings Adjustment frame (21) is connected by lamp holder connecting bottom board one (61), lamp holder connecting bottom board two (62) with both translation stages (22), Both translation stages (22) include top one (221), chassis one (222), top two (223), the chassis being sequentially connected with Two (224), both translation stages (22) are connected by runing rest (231) with rotation platform one (23), the rotation Platform one (23) includes runing rest (231), upper disk two (232), the base one (233) being sequentially connected with, the rotation platform one (23) it is connected by turntable support two (63), turntable support three (64), turntable support four (65) with manual long anomaly moving stage (24), The long anomaly moving stage (24) manually includes top three (241) and base two (243), between the top three (241), base two Provided with sliding block (242), the long anomaly moving stage (24) manually is connected by turntable flat board (251) with rotation translation stage two (25), The rotation translation stage two (25) includes the turntable flat board (251), upper disk one (252), chassis three (253) being sequentially connected with, described Full angle turntable (2) drives left-right rotation by turntable bottom plate (66).
- A kind of 2. multi-faceted optic test platform of multi-angle according to claim 1, it is characterised in that:The generating laser Fixture one (3) includes Laser emission clamp head (31), and Laser emission clamp head (31) bottom is lifted by presser type dead man Support one (32), presser type dead man lifting support two (33) and presser type dead man lifting support pressing plate one (34), presser type dead man Lifting support pressing plate two (35) is connected, and Laser emission clamp head (31) top is provided with generating laser (36), described to swash Optical transmitting set fixture one (3) passes through presser type dead man lifting support pressing plate one (34) and presser type dead man lifting support pressing plate two (35) it is connected with test platform (1).
- A kind of 3. multi-faceted optic test platform of multi-angle according to claim 1, it is characterised in that:The fibre-optical probe folder Tool (5) includes presser type dead man lifting support three (51), and described (51) top of presser type dead man lifting support three is provided with optical fiber Pop one's head in grip block (52), fibre-optical probe (53), the presser type dead man lifting are clamped with the fibre-optical probe grip block (52) Support three (51) bottom is provided with presser type dead man lifting support pressing plate three (54), and the fibre-optical probe fixture (5) passes through pressing plate Formula dead man lifting support pressing plate three (54) is connected with test platform (1).
- A kind of 4. multi-faceted optic test platform of multi-angle according to claim 1, it is characterised in that:The generating laser Fixture two (4) is identical with generating laser fixture one (3) structure.
- A kind of 5. multi-faceted optic test platform of multi-angle according to claim 1, it is characterised in that:The rotation platform one (23), rotating translation stage two (25) has built-in motor.
- A kind of 6. multi-faceted optic test platform of multi-angle according to claim 2, it is characterised in that:The generating laser (36) transmitting for cross laser ray.
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CN110749425B (en) * | 2019-10-31 | 2020-08-14 | 厦门大学 | LED multi-angle optical testing device and testing method |
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