CN109765037A - Optical parameter measurement device - Google Patents

Abstract

The present invention provides a kind of optical parameter measurement devices, the technical issues of being related to optical test equipment technical field, can be carried out multiple orientation adjustments to alleviate existing optical parameter measurement device not.The optical parameter measurement device includes bottom plate, the first regulating mechanism, access panel, the second regulating mechanism and clamping device；First regulating mechanism is installed on bottom plate, and can move along the direction perpendicular to bottom plate and along the first direction for being parallel to bottom plate；Access panel is connected to the first regulating mechanism, perpendicular to bottom plate and parallel with first direction；Clamping device is installed on the second regulating mechanism, can clamp tested optical component；Second regulating mechanism is installed on bottom plate, and for driving clamping device to move along the second direction for being parallel to bottom plate, second direction is vertical with first direction.Optical parameter measurement device provided by the invention is able to carry out the adjustment in multiple orientation, and multiple optical parameters of tested optical component is made to be measured more accurate.

Description

Optical parameter measurement device

Technical field

The present invention relates to optical test equipment technical fields, more particularly, to a kind of optical parameter measurement device.

Background technique

Optical parameter measurement device is commonly used to resolution ratio, field angle, color, distortion of measurement optical imagery mould group etc. one Or multiple parameters.But existing optical parameter measurement device, when carrying out the measurement of optical parameter, the adjusting that can be carried out has Limit, can not carry out the adjustment in multiple orientation, the parametric results of measurement are not accurate enough.

The information disclosed in the background technology section is intended only to deepen the understanding to general background technology of the present invention, without It should be considered as recognizing or implying in any form that the information constitutes the prior art known in those skilled in the art.

Summary of the invention

The purpose of the present invention is to provide a kind of optical parameter measurement devices, to alleviate existing optical parameter measurement device not The technical issues of can be carried out multiple orientation adjustments.

To solve the above problems, the present invention the following technical schemes are provided:

A kind of optical parameter measurement device, including bottom plate, the first regulating mechanism, access panel, the second regulating mechanism and clamping Mechanism；

First regulating mechanism is installed on the bottom plate, and can be along the direction perpendicular to the bottom plate and along being parallel to The first direction of the bottom plate moves；

The access panel is installed on first regulating mechanism, perpendicular to the bottom plate and parallel with the first direction；

The clamping device for clamping tested optical component is installed on second regulating mechanism, and described second is adjusted Mechanism is installed on the bottom plate, and second regulating mechanism drives the clamping device along the second party for being parallel to the bottom plate To movement, the second direction is vertical with the first direction.

Further, the clamping device includes fixture block seat, fixture block and elastic parts；

The fixture block seat is installed on second regulating mechanism；

The fixture block seat is connected with the fixture block by the elastic parts, and shape between the fixture block seat and the fixture block At grasping part, the elastic parts makes the fixture block seat and the fixture block close to each other.

Further, the fixture block seat includes sliding seat, support portion and grip slipper；

The grip slipper is connect by the support portion with the sliding seat；

The fixture block includes sliding part and clamping part；

The sliding position is slidably connected between the sliding seat and the grip slipper, and with the sliding seat；

The clamping part is connected to the sliding part, and the grasping part is formed between the grip slipper.

Further, the elastic parts includes connecting rod and spring；

One end of the connecting rod passes through the support portion and is connected to the sliding part, and the other end is located at outside the fixture block seat Portion；

The spring pocket is loaded on the connecting rod, and one end of the spring is connected to the support portion away from the sliding part Side, the other end of the spring is connected to the connecting rod.

Further, glide direction of the sliding seat towards the surface of the sliding part along the fixture block opens up sliding slot；

Slide protrusion is arranged towards the surface of the sliding seat in the sliding part, and the slide protrusion protrudes into the sliding slot simultaneously It can be slided in the sliding slot.

Further, the surface of the grip slipper towards the clamping part opens up detent slot, and the detent slot edge is parallel to The direction of the bottom plate extends.

Further, the fixture block seat further includes fixed plate, opens up strip hole in the fixed plate；

The sliding seat is connected to the fixed plate；

Fastener passes through the strip hole and the fixture block seat is connected to second regulating mechanism.

Further, second regulating mechanism includes pedestal, sliding block, screw rod and hand-operated wheel；

The pedestal is set to the bottom plate；

The sliding block is located on the pedestal；

The screw rod passes through the sliding block along the direction perpendicular to the access panel, connect with the sliding block screw-driven, And the both ends of the screw rod are supported in the pedestal；

The hand-operated wheel is set to the end far from the access panel of the screw rod.

It further, further include digital display scale, the digital display scale includes foot bar and display；

The both ends of the foot bar are connected to the pedestal along the direction perpendicular to the access panel；

The display is slidably mounted on the foot bar, and is connected with the slide block.

Further, first regulating mechanism includes fine adjustment stage and connecting plate；

The connecting plate is vertically installed in the bottom plate；

The fine adjustment stage is installed on the connecting plate towards the surface of second regulating mechanism；

The access panel is installed on the fine adjustment stage.

In conjunction with above technical scheme, bring beneficial effect of the present invention is analyzed as follows:

The present invention provides a kind of optical parameter measurement device, which includes bottom plate, the first adjusting Mechanism, access panel, the second regulating mechanism and clamping device；First regulating mechanism is installed on bottom plate, and can be along perpendicular to bottom plate Direction and moved along the first direction for being parallel to bottom plate；Access panel is connected to the first regulating mechanism, perpendicular to bottom plate and with One direction is parallel；Clamping device is installed on the second regulating mechanism, can clamp tested optical component；Second regulating mechanism is installed on Bottom plate, for driving clamping device to move along the second direction for being parallel to bottom plate, second direction is vertical with first direction.

When using the optical parameter measurement device, gripper mechanism grips are tested optical component, and resolving power test target, field angle are surveyed The optical parameters testing tools such as template, standard color card, distortion card, which are fixed on access panel, measures the multiple of tested optical component Optical parameter can be realized tested optical component and optical parameter test by adjusting the first regulating mechanism and the second regulating mechanism Front and rear, left and right and the adjustment in multiple orientation up and down between tool, until by tested optical component and optical parameter testing tool It is adjusted to the optimal measurement position of optical parameter, multiple optical parameters of tested optical component is made to be measured more accurate.

Other features and advantages of the present invention will illustrate in the following description, also, partly become from specification It obtains it is clear that understand through the implementation of the invention.The objectives and other advantages of the invention are special in the description and the appended drawings institute The structure do not pointed out is achieved and obtained.

Detailed description of the invention

It, below will be to specific in order to illustrate more clearly of the specific embodiment of the invention or technical solution in the prior art Embodiment or attached drawing needed to be used in the description of the prior art be briefly described, it should be apparent that, it is described below Attached drawing is some embodiments of the present invention, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of optical parameter measurement device provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of clamping device provided in an embodiment of the present invention.

Icon: 100- bottom plate；The first regulating mechanism of 200-；210- fine adjustment stage；220- connecting plate；300- observation Plate；310- peep hole；The second regulating mechanism of 400-；410- pedestal；420- sliding block；430- screw rod；440- hand-operated wheel； 500- clamping device；510- fixture block seat；511- sliding seat；5111- sliding slot；512- support portion；513- grip slipper； 5131- detent slot；514- fixed plate；5141- strip hole；520- fixture block；521- sliding part；5211- slide protrusion； 522- clamping part；530- elastic parts；531- connecting rod；532- spring；600- digital display scale；610- foot bar；620- Display.

Specific embodiment

Technical solution of the present invention is clearly and completely described below in conjunction with attached drawing, it is clear that described implementation Example is a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill Personnel's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, merely to Convenient for description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, It is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.In addition, term " first ", " second ", " third " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

Embodiment is described in detail with reference to the accompanying drawing:

A kind of optical parameter measurement device is present embodiments provided, please with reference to Fig. 1 in specification and Fig. 2.

As shown in Figure 1, the optical parameter measurement device includes bottom plate 100, the first regulating mechanism 200, access panel 300, Two regulating mechanisms 400 and clamping device 500.

First regulating mechanism 200 is installed on bottom plate 100, and can be along the direction perpendicular to bottom plate 100 and along being parallel to bottom The first direction of plate 100 moves.

Access panel 300 is connected to the first regulating mechanism 200, perpendicular to bottom plate 100 and parallel with first direction.

Clamping device 500 for clamping tested optical component is installed on the second regulating mechanism 400, the second regulating mechanism 400 are installed on bottom plate 100, and the second regulating mechanism 400 drives clamping device 500 along the second direction fortune for being parallel to bottom plate 100 Dynamic, second direction is vertical with first direction.

Tested optical component is usually optical imagery mould group, it is of course also possible to the optical section measured for other needs Part.

Resolving power test target can measure the resolution parameter of tested optical component, and field angle measurement plate can be measured by photometry The visual field angular dimensions of component, standard color card can measure the color parameter of tested optical component, and distortion card can measure tested light The distortion parameter of department of the Chinese Academy of Sciences's part.The optical parameters testing tools such as resolving power test target, field angle measurement plate, standard color card, distortion card can It is fixed on access panel 300 and the optical parameter of tested optical component is measured.It can also be as shown in Figure 1, in access panel 300 On open up peep hole 310 towards clamping device 500, and headlamp is installed in the optical measuring device, by demand pairs resolution ratio Plate is placed in peep hole 310.

For first regulating mechanism 200 along when moving perpendicular to 100 direction of bottom plate, tested optical component and optical parameter test work Relative altitude between tool is adjusted.When first regulating mechanism 200 is moved along the first direction for being parallel to bottom plate 100, it is tested light Department of the Chinese Academy of Sciences's part between optical parameter testing tool in a first direction at a distance from be adjusted.Second regulating mechanism 400 is along being parallel to bottom When the second direction movement of plate 100, tested optical component is adjusted at a distance from second direction between optical parameter testing tool It is whole.

When using the optical parameter measurement device, clamping device 500 clamps tested optical component, by resolving power test target, visual field The optical parameters testing tools such as angular measurement plate, standard color card, distortion card, which are fixed on access panel 300, measures tested optical component Multiple optical parameters, by adjust the first regulating mechanism 200 and the second regulating mechanism 400 can be realized tested optical component with Front and rear, left and right and the adjustment in multiple orientation up and down between optical parameter testing tool, until by tested optical component and optics Parameter testing tool is adjusted to the optimal measurement position of optical parameter, and the optical parameter of tested optical component is made to be measured more Accurately.

Further, as shown in Fig. 2, clamping device 500 includes fixture block seat 510, fixture block 520 and elastic parts 530；Fixture block Seat 510 is installed on the second regulating mechanism 400；Fixture block seat 510 and fixture block 520 are connected by elastic parts 530, and fixture block seat 510 Grasping part is formed between fixture block 520, elastic parts 530 makes fixture block seat 510 and fixture block 520 close to each other.

When tested optical component being specifically placed in clamping device 500, fixture block 520 is pulled manually, makes fixture block 520 in fixture block It is slided on seat 510, and the grasping part between fixture block 520 and fixture block seat 510 is gradually expanded until can accommodate by photometry Tested optical component is placed in grasping part by component, slow release fixture block 520, work of the fixture block 520 in elastic parts 530 With lower reverse slide, fixture block 520 and fixture block seat 510 clamp tested optical component.

The size of the grasping part of the clamping device 500 can be adjusted according to the size of tested optical component, make this Clamping device 500 can clamp various sizes of tested optical component, enhance the adaptability of the clamping device 500.

It should be noted that clamping device 500 is not limitation with above-mentioned structure type, clamping device 500 can also be Other structures form.For example, clamping device 500 is small-sized bench vice, small-sized bench vice is connected to the second regulating mechanism 400.

Further, as shown in Fig. 2, fixture block seat 510 includes sliding seat 511, support portion 512 and grip slipper 513；Grip slipper 513 are connect by support portion 512 with sliding seat 511；Fixture block 520 includes sliding part 521 and clamping part 522；Sliding part 521 is located at Between sliding seat 511 and grip slipper 513, and it is slidably connected with sliding seat 511；Clamping part 522 is connected to sliding part 521, and with Grasping part is formed between grip slipper 513.

Specifically, as shown in Fig. 2, grip slipper 513 is located at 511 top of sliding seat, sliding seat 511, support portion 512 and clamping 513 connection of seat forms " Contraband " type, and sliding part 521 and the connection of clamping part 522 form anti-" L " type.

The adjusting that sliding part 521 is slided on sliding seat 511 to realize grasping part size.Tested optical component is placed After grasping part, clamping part 522 and grip slipper 513 clamp tested optical component.Sliding part 521 is located at 511 He of sliding seat Between grip slipper 513, the top surface of sliding part 521 provides support to be placed on the tested optical component of grasping part.

Further, as shown in Fig. 2, elastic parts 530 includes connecting rod 531 and spring 532；One end of connecting rod 531 It is connected to sliding part 521 across support portion 512, the other end is located at outside fixture block seat 510；Spring 532 is set in connecting rod 531, One end of spring 532 is connected to the side that support portion 512 deviates from sliding part 521, and the other end of spring 532 is connected to connecting rod 531。

When survey crew pulls fixture block 520 to expand grasping part, connecting rod 531 is driven, and spring 532 is compressed. When grasping part, which is extended to, to accommodate tested optical component, slow release fixture block 520, spring 532 extends, and passes through connecting rod 531 drive fixture block 520 mobile.When clamping part 522 and grip slipper 513 clamp tested optical component, spring 532 passes through connecting rod 531 give the external force that clamping part 522 is directed toward grip slipper 513, clamp clamping part 522 by tested optical component.

Spring 532 is clamping part 522 and grip slipper 513 provides the external force for clamping tested optical component, while spring 532 Can compressed distance farther out, so that the clamping device 500 is clamped various sizes of tested optical component.

Connecting rod 531 plays the role of for the elastic force of spring 532 being transferred to clamping part 522, while connecting rod 531 also can The movement for guiding fixture block 520 prevents the movement of fixture block 520 from shifting.

It should be noted that elastic parts 530 is not limitation with above structure, elastic parts 530 can also be other Structure type.For example, elastic parts 530 only includes spring 532, one end of spring 532 is connected to support portion 512 towards sliding part 521 side, the other end are connected to sliding part 521 towards the side of support portion 512.

Further, as shown in Fig. 2, glide direction of the sliding seat 511 towards the surface of sliding part 521 along fixture block 520 is opened If sliding slot 5111；Slide protrusion 5211 is arranged towards the surface of sliding seat 511 in sliding part 521, and slide protrusion 5211 protrudes into sliding slot It 5111 and can be slided in sliding slot 5111.

Protrusion protrudes into sliding slot 5111, and sliding slot 5111 limits the movement that sliding part 521 removes other directions of glide direction, Deviate sliding part 521 will not in sliding.Enable to be placed on the tested optical component in grasping part simultaneously along cunning Dynamic 521 glide direction stress balance of portion avoids that tested optical component force unbalance is caused to occur because of the offset of sliding part 521 The changing of the relative positions guarantees the accuracy of measurement result.

It is of course also possible to sliding slot 5111 be opened up on the surface of sliding part 521 towards sliding seat 511, in 511 direction of sliding seat Protrusion is arranged in the surface of sliding part 521, to play same effect.

Further, as shown in Fig. 2, the surface of grip slipper 513 towards clamping part 522 opens up detent slot 5131, detent slot 5131 extend along the direction for being parallel to bottom plate 100.

While tested optical component is clamped, tested optical component can 5131 clamping of detent slot, prevent by photometry Component shifts in grasping part in survey engineering and influences measurement structure, improves the accuracy of measurement result.

It is of course also possible to which detent slot 5131 is opened in clamping part 522 towards the surface of grip slipper 513, can also press from both sides It holds and opens up detent slot 5131 on seat 513 and clamping part 522.

Further, as shown in Fig. 2, fixture block seat 510 further includes fixed plate 514, strip hole is opened up in fixed plate 514 5141；Sliding seat 511 is connected to fixed plate 514；Fastener passes through strip hole 5141 and fixture block seat 510 is connected to the second adjusting machine Structure 400.

The strip hole 5141 opened up in fixed plate 514 makes fastener be not limited to a certain installation site, and fastener can be It is mounted on any position of strip hole 5141, and then enables second adjusting machine of the clamping device 500 with multiple structural forms Structure 400 connects, and enhances the adaptability of the clamping device 500.

Figures 1 and 2 show that fixture block seat 510 is structure as a whole, it can guarantee sliding seat 511, support portion 512, grip slipper The intensity connected between 513 and fixed plate 514, while can be processed and formed at one time, it is high in machining efficiency.Certainly, sliding seat 511, It, can also be using welding, bonding, riveting between support portion 512, grip slipper 513 and fixed plate 514 while guaranteeing bonding strength Other connection types such as connect.

Further, as shown in Figure 1, the second regulating mechanism 400 includes pedestal 410, sliding block 420, screw rod 430 and hand-operated wheel 440；Pedestal 410 is set to bottom plate 100；Sliding block 420 is located on pedestal 410；Screw rod 430 is along the direction perpendicular to access panel 300 It across sliding block 420, is connect with 420 screw-driven of sliding block, and the both ends of screw rod 430 are supported in pedestal 410；Hand-operated wheel 440 is set It is placed in the end of the separate access panel 300 of screw rod 430.

Specifically, clamping device 500 is connected to sliding block 420, can move with sliding block 420 along the length direction of screw rod 430.

Need to adjust tested optical component between optical parameter testing tool in a second direction at a distance from when, manually shake Hand-operated wheel 440, hand-operated wheel 440 drive screw rod 430 around own axis, 420 edge of sliding block connecting with 430 screw-driven of screw rod The length direction of screw rod 430 moves, and sliding block 420 drives clamping device 500 to move, and then has adjusted tested optical component and optics Distance between parameter testing tool in a second direction.

As shown in Figure 1, the second regulating mechanism 400 further includes guide rail, guide rail is passed through along the direction perpendicular to access panel 300 and is slided Block 420, the both ends of guide rail are supported in pedestal 410.Guide rail plays guidance and restriction effect to the sliding of sliding block 420, makes sliding block 420 Glide direction it is accurate, and then guarantee optical parameter measurement result it is accurate.

It should be noted that the second regulating mechanism 400 is not limitation, the second regulating mechanism 400 with above-mentioned structure type The structure type that clamping device 500 moves in a second direction can also be able to drive for other.For example, the second regulating mechanism 400 Including pedestal 410, sliding block 420, gear and rack gear；Pedestal 410 is set to bottom plate 100；Sliding block 420 be located on pedestal 410 and with Rack gear connection；Rack gear is arranged along the direction perpendicular to access panel 300, and is supported on pedestal 410；Gear is rotatablely installed in pedestal 410, and be engaged with rack；Rotate gear is able to drive rack movement, and then moves sliding block 420.

Further, as shown in Figure 1, further including digital display scale 600, digital display scale 600 includes foot bar 610 and display 620；The both ends of foot bar 610 are connected to pedestal 410 along the direction perpendicular to access panel 300；Display 620 is slidably mounted on foot bar 610, and connect with sliding block 420.

Digital display scale 600 can show between tested optical component and optical parameter testing tool in a second direction away from From.Since tested optical component generally all has most preferably tested distance, the best tested distance of each tested optical component is It is known, the best tested distance of each tested optical component is obtained by consulting specifications.Measuring tested optical component When optical parameter, the second regulating mechanism 400 is operated, observes the display 620 of digital display scale 600, makes tested optical component and light The best tested distance that the distance between parameter testing tool in a second direction is equal to tested optical component is learned, it then can be most Good tested distance is nearby finely adjusted the second regulating mechanism 400.

Digital display scale 600 shortens the adjustment process of the second regulating mechanism 400, and survey crew is enable to measure faster Multiple optical parameters of tested optical component.

Meanwhile the foot bar 610 of digital display scale 600 can also play guidance and the position-limiting action to sliding block 420, make sliding block 420 glide direction is accurate, and then guarantees the accurate of optical parameter measurement result.

Further, as shown in Figure 1, the first regulating mechanism 200 includes fine adjustment stage 210 and connecting plate 220；Connecting plate 220 are vertically installed in bottom plate 100；Fine adjustment stage 210 is installed on connecting plate 220 towards the surface of the second regulating mechanism 400；Observation Plate 300 is installed on fine adjustment stage 210.

Specifically, as shown in Figure 1, the tool of fine adjustment stage 210 is there are two micrometer, one of micrometer edge is parallel to bottom plate The setting of 100 directions, another micrometer are arranged along perpendicular to 100 direction of bottom plate.

When survey crew needs to adjust the first regulating mechanism 200, micrometer is rotated, makes fine adjustment stage 210 along vertical base plate The first direction that the movement of 100 directions and edge are parallel to bottom plate 100 moves, and then realizes the tested optical component of adjustment and Optical Parametric Number testing tools between relative altitude and tested optical component and optical parameter testing tool between in a first direction away from From.

Meanwhile the Adjustment precision of fine adjustment stage 210 is high, it can be ensured that the accuracy of optical parameter measurement result.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent Pipe present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme.

Claims (10)

1. a kind of optical parameter measurement device, which is characterized in that adjust machine including bottom plate, the first regulating mechanism, access panel, second Structure and clamping device；

First regulating mechanism is installed on the bottom plate, and can be described along the direction perpendicular to the bottom plate and along being parallel to The first direction of bottom plate moves；

The access panel is installed on first regulating mechanism, perpendicular to the bottom plate and parallel with the first direction；

The clamping device for clamping tested optical component is installed on second regulating mechanism, second regulating mechanism It is installed on the bottom plate, second regulating mechanism drives the clamping device along the second direction fortune for being parallel to the bottom plate Dynamic, the second direction is vertical with the first direction.

2. optical parameter measurement device according to claim 1, which is characterized in that the clamping device include fixture block seat, Fixture block and elastic parts；

The fixture block seat is installed on second regulating mechanism；

The fixture block seat is connected with the fixture block by the elastic parts, and folder is formed between the fixture block seat and the fixture block Space is held, the elastic parts makes the fixture block seat and the fixture block close to each other.

3. optical parameter measurement device according to claim 2, which is characterized in that the fixture block seat includes sliding seat, branch Support part and grip slipper；

The grip slipper is connect by the support portion with the sliding seat；

The fixture block includes sliding part and clamping part；

The sliding position is slidably connected between the sliding seat and the grip slipper, and with the sliding seat；

The clamping part is connected to the sliding part, and the grasping part is formed between the grip slipper.

4. optical parameter measurement device according to claim 3, which is characterized in that the elastic parts include connecting rod and Spring；

One end of the connecting rod passes through the support portion and is connected to the sliding part, and the other end is located at outside the fixture block seat；

The spring pocket is loaded on the connecting rod, and one end of the spring is connected to one that the support portion deviates from the sliding part Side, the other end of the spring are connected to the connecting rod.

5. optical parameter measurement device according to claim 3, which is characterized in that the sliding seat is towards the sliding part Surface open up sliding slot along the glide direction of the fixture block；

Slide protrusion is arranged towards the surface of the sliding seat in the sliding part, and the slide protrusion protrudes into the sliding slot and can be Sliding in the sliding slot.

6. optical parameter measurement device according to claim 3, which is characterized in that the grip slipper is towards the clamping part Surface open up detent slot, the detent slot extends along the direction for being parallel to the bottom plate.

7. optical parameter measurement device according to claim 3, which is characterized in that the fixture block seat further includes fixed plate, Strip hole is opened up in the fixed plate；

The sliding seat is connected to the fixed plate；

Fastener passes through the strip hole and the fixture block seat is connected to second regulating mechanism.

8. optical parameter measurement device according to claim 1, which is characterized in that second regulating mechanism includes bottom Seat, sliding block, screw rod and hand-operated wheel；

The pedestal is set to the bottom plate；

The sliding block is located on the pedestal；

The screw rod passes through the sliding block along the direction perpendicular to the access panel, connect with the sliding block screw-driven, and institute The both ends for stating screw rod are supported in the pedestal；

The hand-operated wheel is set to the end far from the access panel of the screw rod.

9. optical parameter measurement device according to claim 8, which is characterized in that further include digital display scale, the digital display Scale includes foot bar and display；

The both ends of the foot bar are connected to the pedestal along the direction perpendicular to the access panel；

The display is slidably mounted on the foot bar, and is connected with the slide block.

10. optical parameter measurement device according to claim 1, which is characterized in that first regulating mechanism includes micro- Level platform and connecting plate；

The connecting plate is vertically installed in the bottom plate；

The fine adjustment stage is installed on the connecting plate towards the surface of second regulating mechanism；

The access panel is installed on the fine adjustment stage.