CN209624911U - A kind of spliced bar shaped laser aid for optical element defects detection - Google Patents

Abstract

The utility model discloses a kind of spliced bar shaped laser aids for optical element defects detection, it is related to optical element detection device technology field, the utility model includes the horizontally disposed light beam formation mechanism of several groups, light beam formation mechanism includes the basic light source being sequentially arranged from right to left, collimation lens, expand concave mirror and cylinder collimating mirror, collimation lens is piano convex cylindrical lens A, plane one end of piano convex cylindrical lens A is close to basic light source, expanding concave mirror is plano-concave cylindrical lens A, cylinder collimating mirror includes the plano-concave cylindrical lens B and piano convex cylindrical lens B combined, plane one end of plano-concave cylindrical lens B is close to plano-concave cylindrical lens A, plane one end of piano convex cylindrical lens B is close to plano-concave cylindrical lens B, the convex surface of piano convex cylindrical lens B is light-emitting surface, the utility model has processing cost low, difficult processing Spend advantage low, that output beam quality is high.

Description

A kind of spliced bar shaped laser aid for optical element defects detection

Technical field

The utility model relates to optical element detection device technology fields, are used for optical element more particularly to one kind The spliced bar shaped laser aid of defects detection.

Background technique

High power laser system for laser-produced fusion needs thousands of heavy caliber precison optical components, optical element Blank, because material liquid is uneven or material granule infusibility, (can be referred to as during producing molding in producing bubbles inside or impurity For volume defect), the optical element in high power laser system such as contains volume defect, when being irradiated by high power, not only makes light Beam quality is deteriorated, and also results in the damage of element itself and downstream components, it is therefore necessary to the inside matter of strict control optical material Amount mainly successively scans illumination to the element after polishing using bar shaped laser at present, receives defect in vertical direction by CCD and dissipates Penetrate the method measurement flaw size of light.

In the prior art, number of patent application is that the utility model patent of " 201520715157.2 " discloses a kind of " linear light Source generating device ", comprising: light source generating means is configured as generating first light source, and the first light source is passed along third direction Broadcast, the dispersion angle of the first direction on the section vertical with third direction be first angle and on the section with the The dispersion angle of the vertical second direction in one direction is second angle；Optical collimating component is configured as the first light source Collimation, so that the dispersion angle of the first light source in a first direction is decreased to third angle from first angle and generates first Central source；And optics proliferation part, it is configured as spreading first central source, so that hair in a second direction It dissipates angle and increases to fourth angle from second angle to generate linear light source.By being collimated in a first direction to first light source And first light source is diffused in a second direction, can generate in a first direction has well collimated degree and the With the linear light source of predetermined longer dimension on two directions.But the linear light source generating device also has certain defect, in point light source number When measuring more or light source generating means longer dimension, if one group of collimation lens (i.e. optical collimating component) is used only and expands Mirror (i.e. optics proliferation part), i.e. output beam are monoblock type, certainly will may require that the bore of two lens is bigger, difficulty of processing Also bigger, it is contemplated that the production cost of optical component is mainly determined by element bore, difficulty of processing, therefore existing scheme will draw Enter higher processing cost, increase the difficulty of processing of lens, and be unfavorable for controlling the processing quality of large scale lens, makes It is poor at output beam quality, light intensity is uneven.In addition to this, there is also following defects:

(1) not to the regulatory function of input light source, light source is easy to generate deviation in the optical path device input terminal, causes to survey Measure error；

(2) device output end cannot be adjusted the width of output beam not to the regulatory function of output beam, fit It is low with range.

Therefore above-mentioned technical problem how is solved, there is very much realistic meaning to those skilled in the art.

Utility model content

The purpose of this utility model is that: it is monoblock type to solve the output beam of existing linear light source generating device, Then require the bore of two lens bigger, processing cost is high, difficulty of processing is also bigger, and is unfavorable for the processing to large scale lens Quality is controlled, and causes that output beam quality is poor, the non-uniform technical problem of light intensity, and the utility model provides a kind of for light Learn the spliced bar shaped laser aid of component defects detection.

The utility model specifically uses following technical scheme to achieve the goals above:

A kind of spliced bar shaped laser aid for optical element defects detection, including the horizontally disposed light beam of several groups Formation mechanism, light beam formation mechanism include the basic light source being sequentially arranged from right to left, collimation lens, expand concave mirror and cylinder Collimating mirror, collimation lens are piano convex cylindrical lens A, and close to basic light source, expanding concave mirror is for plane one end of piano convex cylindrical lens A Plano-concave cylindrical lens A, cylinder collimating mirror include the plano-concave cylindrical lens B and piano convex cylindrical lens B combined, plano-concave cylinder It is put down close to plano-concave cylindrical lens A, plane one end of piano convex cylindrical lens B close to plano-concave cylindrical lens B plane one end of lens B The convex surface of convex cylindrical lens B is light-emitting surface.

It further, further include flute profile body frame, fixed frame A and fixed frame B is arranged in flute profile body frame bottom, and fixed frame B is used for Fixation is several to expand concave mirror, and fixed frame A is provided with several clamping parts for clamping collimation lens close to the side of fixed frame B.

Further, the material of flute profile body frame, fixed frame A and fixed frame B is aluminium.

Further, basic light source includes optical fiber, and optical fiber is connected on clamping part, and optical fiber one end passes through fixed frame A, flute profile Body frame offers the channel for allowing optical fiber to pass through close to a side of fixed frame A.

Further, several groups and the one-to-one optical path adjusting mechanism of clamping part, optical path adjusting are provided on fixed frame A Mechanism is used to adjust the spacing between clamping part and fixed frame B.

Further, optical path adjusting mechanism includes regulation handle, and regulation handle is connected with screw, and screw passes through fixed frame A, Offer several with the screw hole of corresponding screw fit on fixed frame A, the screw other end is connect with clamping part, if setting in clamping part It is dry to have the movable sleeve being set on corresponding screw.

Further, flute profile body frame offers light-emitting window close to a side of cylinder collimating mirror, is provided with light at light-emitting window Beam bore regulating mechanism, beam size regulating mechanism include flute profile body frame outboard end is set be located at light-emitting window two sides Two swivel nuts are threaded with the adjusting screw rod of lateral arrangement in swivel nut, are provided with the symmetrical work of two fans in light-emitting window Dynamic page, active page front is respectively connected with the baffle that face corresponds to adjusting screw rod.

Further, flute profile body frame is located at right above light-emitting window or is provided with several graduation marks immediately below it.

Working principle: in use, by optical fiber from channel pull-out and external laser (being not drawn into figure), laser issues spoke It penetrates light and basis of formation light source in optical path is input to by optical fiber, the diverging light of basic light source is collimated and put down for circular aperture by collimation lens Row light, directional light, which is incident on, expands concave mirror, is expanded the bar shaped light beam for diverging, and light beam continues across quilt after cylinder collimating mirror It is shaped as the bar shaped laser of maximum caliber, i.e. output beam, due to being provided with the several groups light beam formation mechanism, is eventually formed more Road output beam, several groups output beam can be spliced into the bar shaped laser beam an of entirety, to realize to optical element Defects detection illumination.

The beneficial effects of the utility model are as follows:

1, collimation lens is piano convex cylindrical lens A, and the beam collimation for issuing basic light source is at collimated light beam, simultaneously Spherical aberration on axis is corrected, is exported as round light beam, the effective aperture of beam size and collimation lens is consistent, and it is flat for expanding concave mirror Recessed cylindrical lens A, the directional light for exporting collimation lens expand along the vertical direction, while keeping the light beam ruler of horizontal direction It is very little constant, the bar shaped light beam for diverging is exported, cylinder collimating mirror includes the plano-concave cylindrical lens B and piano convex cylindrical combined Lens B exports the parallel strip light beam fixed for size, due to plano-concave for collimating to the divergent beams for expanding concave mirror output The concave surface of cylindrical lens B and the plane face of piano convex cylindrical lens B, therefore among plano-concave cylindrical lens B and piano convex cylindrical lens B Gap is formed, optical design is met, plays the role of carrying out optical path anaberration, while the combined structure design of cylinder collimating mirror Difficulty of processing is reduced, system spherical aberration and edge coma have been corrected, the output light finally come out from several groups cylinder collimating mirror Beam can be spliced into the bar shaped laser beam an of entirety, illuminate to realize to the defects detection of optical element, the utility model Light beam formation mechanism is equipped with to every optical path, and the independent light beams of each output are spliced, bigbore bar shaped is obtained and swashs Light light beam, each part dimension are greatly reduced with respect to Large Aperture Lenses, thus greatly reduce the processing cost to large scale lens And difficulty of processing, and the cylinder collimating mirror by adding, it is no more than output beam in the horizontal angle of divergence with vertical direction 2mrad, output beam quality more preferably, uniform intensity.

2, it is provided with optical path adjusting mechanism in light source input terminal, is threaded in or out screw by rotating regulation handle, fills The rotation of movable sleeve attachment screw in folder, to make screw drive corresponding clamping part close to or far from fixed frame B, to change Become collimation lens and expand the spacing between concave mirror, the off-axis amount of recoverable basis light source in the optical path, adjusting deviation is reduced and surveyed Measure error.

3, it is provided with beam size regulating mechanism at light source output end, so that it is pushed correspondence by rotating two sides adjusting screw rod Baffle can make two active pages adjacent to each other, and the gap between two active pages is the width of output beam, similarly, reversely It rotates two adjusting screw rods and manually pulls active page toward two sides, the gap between two active pages can be increased, it is easy to operate fast Adjusting to output beam width is realized in victory, applied widely, and when adjusting cooperates graduation mark, is adjusted more accurate.

Detailed description of the invention

Fig. 1 is a kind of structural representation of the spliced bar shaped laser aid for optical element defects detection of the utility model Figure；

Fig. 2 is the structural schematic diagram of Fig. 1 left view；

Fig. 3 is the optical path route map of single group light beam formation mechanism in the utility model.

Appended drawing reference: the basis 1- light source, 2- collimation lens, 3- expand concave mirror, 4- cylinder collimating mirror, and 4.1- plano-concave cylinder is saturating Mirror B, 4.2- piano convex cylindrical lens B, 5- flute profile body frame, 6- fixed frame A, 7- fixed frame B, 8- clamping part, the channel 9-, 10- optical path Regulating mechanism, 10.1- regulation handle, 10.2- screw, 11- beam size regulating mechanism, 11.1- swivel nut, 11.2- adjusting screw rod, 11.3- active page, 11.4- baffle.12- graduation mark.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only to explain this Utility model is not used to limit the utility model, i.e., the described embodiments are only a part of the embodiments of the utility model, Instead of all the embodiments.The component of the utility model embodiment being usually described and illustrated herein in the accompanying drawings can be with each Different configurations is planted to arrange and design.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Reality based on the utility model Apply example, those skilled in the art's every other embodiment obtained without making creative work belongs to The range of the utility model protection.

It should be noted that the relational terms of term " first " and " second " or the like be used merely to an entity or Operation is distinguished with another entity or operation, and without necessarily requiring or implying between these entities or operation, there are any This actual relationship or sequence.Moreover, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that include a series of elements process, method, article or equipment not only include those elements, but also Further include other elements that are not explicitly listed, or further include for this process, method, article or equipment it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including described There is also other identical elements in the process, method, article or equipment of element.

The feature of the utility model and performance are described in further detail with reference to embodiments.

Embodiment 1

As shown in figs. 1 and 3, the present embodiment provides a kind of spliced bar shaped laser dresses for optical element defects detection It sets, including the horizontally disposed light beam formation mechanism of several groups, light beam formation mechanism include the basis being sequentially arranged from right to left Light source 1, collimation lens 2 expand concave mirror 3 and cylinder collimating mirror 4, and collimation lens 2 is piano convex cylindrical lens A, piano convex cylindrical lens A Plane one end close to basic light source 1, expanding concave mirror 3 is plano-concave cylindrical lens A, and cylinder collimating mirror 4 includes combining Plano-concave cylindrical lens B4.1 and piano convex cylindrical lens B4.2, plane one end of plano-concave cylindrical lens B4.1 is close to plano-concave cylindrical lens Plane one end of A, piano convex cylindrical lens B4.2 are light close to plano-concave cylindrical lens B4.1, the convex surface of piano convex cylindrical lens B4.2 Face.

In the present embodiment, collimation lens is piano convex cylindrical lens A, and the beam collimation for issuing basic light source is at parallel Light beam, while correcting spherical aberration on axis exports as round light beam, and the effective aperture of beam size and collimation lens is consistent, and expands Beam concave mirror is plano-concave cylindrical lens A, and the directional light for exporting collimation lens expands along the vertical direction, while keeping level side To beam sizes it is constant, export the bar shaped light beam for diverging, cylinder collimating mirror includes the plano-concave cylindrical lens B combined The parallel strip light fixed for size is exported for collimating to the divergent beams for expanding concave mirror output with piano convex cylindrical lens B Beam, due to the concave surface of plano-concave cylindrical lens B and the plane face of piano convex cylindrical lens B, plano-concave cylindrical lens B peace pillar Gap is formed among the lens B of face, meets optical design, plays the role of carrying out optical path anaberration, while cylinder collimating mirror Combined structure design reduces difficulty of processing, has corrected system spherical aberration and edge coma, finally from several groups cylinder collimating mirror Output beam out can be spliced into the bar shaped laser beam an of entirety, shine to realize the defects detection of optical element Bright, the utility model is equipped with light beam formation mechanism to every optical path, and the independent light beams of each output are spliced, and obtains big The bar shaped laser beam of bore, each part dimension are greatly reduced with respect to Large Aperture Lenses, are thus greatly reduced saturating to large scale The processing cost and difficulty of processing of mirror, and the cylinder collimating mirror by adding make output beam in the horizontal hair with vertical direction Dissipate angle be no more than 2mrad, output beam quality more preferably, uniform intensity.

Embodiment 2

As illustrated in fig. 1 and 2, the present embodiment is to be further optimized on the basis of embodiment 1, specifically, further includes Flute profile body frame 5, fixed frame A6 and fixed frame B7 is arranged in 5 bottom of flute profile body frame, if fixed frame A6 and fixed frame B7 can pass through involvement Screw is connect to be fixed on flute profile body frame 5, fixed frame B7 for fix it is several expand concave mirror 3, fixed frame A6 is close to fixed frame B7's Side is provided with several clamping parts 8 for clamping collimation lens 2, and the material of flute profile body frame 5, fixed frame A6 and fixed frame B7 is equal For aluminium, the total quality of device is reduced, basic light source 1 includes optical fiber, and fibre diameter is 5 μm -20 μm, and optical fiber is connected to dress On folder 8, optical fiber one end passes through fixed frame A6, and flute profile body frame 5 is offered close to a side of fixed frame A6 allows optical fiber to pass through Channel 9, optical fiber pass through channel 9 can connecting laser (being not drawn into figure), laser select output light source wavelength be 532nm, Maximum Power Output 200MW, illumination are not less than the laser of 10000lux.

Embodiment 3

As shown in Figure 1, the present embodiment is further optimized on the basis of embodiment 2, specifically, on fixed frame A6 Be provided with several groups and the one-to-one optical path adjusting mechanism 10 of clamping part 8, optical path adjusting mechanism 10 for adjust clamping part 8 with Spacing between fixed frame B7, optical path adjusting mechanism 10 include regulation handle 10.1, and regulation handle 10.1 is connected with screw 10.2, Screw 10.2 passes through fixed frame A6, and several screw holes cooperated with corresponding screw 10.2 are offered on fixed frame A6, and screw 10.2 is another One end is connect with clamping part 8, and setting is several in clamping part 8 movable sleeve being set on corresponding screw 10.2, fixed frame A6 with Guide rod (being not drawn into figure) is connected between clamping part 8, clamping part 8 can be moved horizontally along guide rod.

In the present embodiment, it is provided with optical path adjusting mechanism in light source input terminal, screws in screw by rotating regulation handle Or screw out, the rotation of the movable sleeve attachment screw in clamping part, so that screw be made to drive corresponding clamping part close to or far from fixation Frame B, to change collimation lens and expand the spacing between concave mirror, the off-axis amount of recoverable basis light source in the optical path is adjusted Deviation reduces measurement error.

Embodiment 4

As illustrated in fig. 1 and 2, the present embodiment is to be further optimized on the basis of embodiment 1, specifically, flute profile master Frame 5 offers light-emitting window close to a side of cylinder collimating mirror 4, and beam size regulating mechanism 11, light beam are provided at light-emitting window Bore regulating mechanism 11 includes two swivel nuts 11.1 for being located at light-emitting window two sides that 5 outboard end of flute profile body frame is arranged in, spiral shell It is threaded with the adjusting screw rod 11.2 of lateral arrangement in set 11.1, is provided with the symmetrical active page of two fans in light-emitting window 11.3,11.3 front of active page is respectively connected with the baffle 11.4 that face corresponds to adjusting screw rod 11.2, and flute profile body frame 5 is located at light-emitting window Surface or its underface are provided with several graduation marks 12.

In the present embodiment, it is provided with beam size regulating mechanism at light source output end, is made by rotating two sides adjusting screw rod It pushes corresponding baffle, and two active pages can be made adjacent to each other, and the gap between two active pages is the width of output beam, Similarly, two adjusting screw rods are rotated backward and manually pull active page toward two sides, the gap between two active pages can be increased, grasped Make convenient and efficient, realize adjusting to output beam width, applied widely, when adjusting cooperates graduation mark, adjusts more accurate.

The above, the only preferred embodiment of the utility model, are not intended to limit the utility model, the utility model Scope of patent protection be subject to claims, it is equivalent made by all specifications and accompanying drawing content with the utility model Structure change similarly should be included in the protection scope of the utility model.

Claims (8)

1. a kind of spliced bar shaped laser aid for optical element defects detection, which is characterized in that including several groups level The light beam formation mechanism of arrangement, light beam formation mechanism include basic light source (1), the collimation lens being sequentially arranged from right to left (2), concave mirror (3) and cylinder collimating mirror (4) are expanded, collimation lens (2) is piano convex cylindrical lens A, the plane of piano convex cylindrical lens A One end is close to basic light source (1), and expanding concave mirror (3) is plano-concave cylindrical lens A, and cylinder collimating mirror (4) includes combining Plano-concave cylindrical lens B (4.1) and piano convex cylindrical lens B (4.2), plane one end of plano-concave cylindrical lens B (4.1) is close to plane-concave column Plane one end of face lens A, piano convex cylindrical lens B (4.2) are close to plano-concave cylindrical lens B (4.1), piano convex cylindrical lens B (4.2) Convex surface be light-emitting surface.

2. a kind of spliced bar shaped laser aid for optical element defects detection according to claim 1, feature It is, further includes flute profile body frame (5), fixed frame A (6) are arranged in flute profile body frame (5) bottom and fixed frame B (7), fixed frame B (7) are used It expands concave mirror (3) in fixation is several, fixed frame A (6) is provided with several saturating for clampings collimation close to the side of fixed frame B (7) The clamping part (8) of mirror (2).

3. a kind of spliced bar shaped laser aid for optical element defects detection according to claim 2, feature It is, the material of flute profile body frame (5), fixed frame A (6) and fixed frame B (7) is aluminium.

4. a kind of spliced bar shaped laser aid for optical element defects detection according to claim 2, feature It is, basic light source (1) includes optical fiber, and optical fiber is connected on clamping part (8), and optical fiber one end passes through fixed frame A (6), flute profile master Frame (5) offers the channel (9) for allowing optical fiber to pass through close to a side of fixed frame A (6).

5. a kind of spliced item for optical element defects detection according to any claim in claim 2 to 4 Shape laser aid, which is characterized in that several groups and clamping part (8) one-to-one optical path adjusting machine are provided on fixed frame A (6) Structure (10), optical path adjusting mechanism (10) are used to adjust the spacing between clamping part (8) and fixed frame B (7).

6. a kind of spliced bar shaped laser aid for optical element defects detection according to claim 5, feature It is, optical path adjusting mechanism (10) includes regulation handle (10.1), and regulation handle (10.1) is connected with screw (10.2), screw (10.2) fixed frame A (6) are passed through, several screw holes cooperated with corresponding screw (10.2), screw is offered on fixed frame A (6) (10.2) other end is connect with clamping part (8), and setting is several in clamping part (8) the activity being set on corresponding screw (10.2) Set.

7. a kind of spliced bar shaped laser aid for optical element defects detection according to claim 6, feature It is, flute profile body frame (5) offers light-emitting window close to a side of cylinder collimating mirror (4), is provided with beam size at light-emitting window Regulating mechanism (11), beam size regulating mechanism (11) include being arranged to be located at light-emitting window in flute profile body frame (5) outboard end Two swivel nuts (11.1) of two sides, the interior adjusting screw rod (11.2) for being threaded with lateral arrangement of swivel nut (11.1), light-emitting window It is inside provided with the symmetrical active page of two fans (11.3), active page (11.3) front is respectively connected with face and corresponds to adjusting screw rod (11.2) baffle (11.4).

8. a kind of spliced bar shaped laser aid for optical element defects detection according to claim 7, feature It is, flute profile body frame (5) is located at right above light-emitting window or is provided with several graduation marks (12) immediately below it.