CN106225727B - The big working distance autocollimation of array zeroing laser and method - Google Patents

Abstract

The invention belongs to Technology of Precision Measurement fields and optical engineering field, and in particular to the big working distance autocollimation of array zeroing laser and method；The device is made of light source, collimating mirror, reflecting mirror and feedback imaging system；This method makes the reflected beams return to feedback imaging system image plane center, the angular deflection measuring device on reflecting mirror is recycled to obtain the angle change on measured object surface by adjusting reflecting mirror；Since the present invention increases reflecting mirror on traditional auto-collimation angle measurement system, therefore it can be avoided the problem of measured object reflected light deviates measuring system and leads to not measurement, and then has and increase auto-collimation working range under identical operating distance, or increase the technical advantage of operating distance under identical auto-collimation working range；In addition, the specific design of collimating mirror, feedback imaging system, reflecting mirror etc., makes the present invention also simple, low manufacture cost with structure；It can equally be measured under unstable measurement environment；And the technical advantage of rapid survey.

Description

The big working distance autocollimation of array zeroing laser and method

Technical field

The invention belongs to Technology of Precision Measurement fields and optical engineering field, and in particular to the array zeroing big working distance of laser Autocollimation and method.

Background technique

It manufactures and leads in Technology of Precision Measurement field, optical engineering field, most advanced branches of science experimental field and high-end precision assembly In domain, urgent need carries out wide working range, high-precision laser auto-collimation technology under big working distance.It supports above-mentioned field The development of technology and instrument and equipment.

In Technology of Precision Measurement and instrument field, Laser Autocollimator is combined with Circular gratings, can carry out any line angle degree Measurement；Laser auto-collimation technology is combined with polygon, can carry out face angle measurement and circular division measurement；Maximum functional distance From several meters to rice up to a hundred；Resolving power is from 0.1 rad to 0.001 rad.

In optical engineering field and most advanced branches of science experimental field, the Laser Autocollimator two round light vertical each other with bidimensional Grid combination, can carry out the measurement of space angle；Position reference is formed by two-way Laser Autocollimator, optical axis two-by-two can be carried out The measurement of angle or collimation.Tens rads to tens jiaos points of angle working range.

In most advanced branches of science experimental provision and high-end precision assembly manufacturing field, tip can be measured using Laser Autocollimator The angle rotating accuracy of scientific experiment device and high-end precision assembly rotary motion benchmark, the space line of measurement linear motion benchmark Precision and the depth of parallelism and verticality for moving benchmark two-by-two.

Laser auto-collimation technology has many advantages, such as that non-contact, measurement accuracy is high, easy to use, has in above-mentioned field wide General application.

Traditional autocollimator is as shown in Figure 1, the system includes light source 1, transmission-type collimating mirror 21 and feedback imaging system 6；The light beam that light source 1 is emitted is incident on the reflecting surface of measured object 5 after transmission-type collimating mirror 21 is collimated into collimated light beam；From The light beam of 5 reflective surface of measured object is acquired by feedback imaging system 6 and is imaged.Under this structure, only from 5 surface of measured object The nearly backtracking of the light beam of reflection could be acquired by feedback imaging system 6 and is imaged, and then realize effectively measurement.This road Jin Yuan The condition of return limits, so that there are following two aspects disadvantages for the system:

The first, the range of 5 mirror surface normal of measurand and Laser Autocollimator optical axis included angle cannot be too big, otherwise can It causes the reflected beams to deviate the entrance pupil of Laser Autocollimator optical system, and then leads to not realize that auto-collimation and micro- angle are surveyed Amount；

The second, 5 mirror surface range measurement Laser Autocollimator entrance pupil of measurand must not be too far away, as long as otherwise reflected light Axis and autocollimator optical axis deviation minute angle will result in the entrance pupil that the reflected beams deviate Laser Autocollimator optical system, into And lead to not realize auto-collimation and micro angle measurement.

Two above problem be limited to traditional auto-collimation instrument can only under low-angle, small operating distance and use.

Summary of the invention

For two problems present in traditional autocollimator, the invention discloses a kind of array zeroing big working distances of laser Autocollimation and method have compared with traditional autocollimator and dramatically increase auto-collimation work model under identical operating distance It encloses, or dramatically increases the technical advantage of operating distance under identical auto-collimation working range.

The object of the present invention is achieved like this:

The array zeroing big working distance autocollimation of laser, including light source, transmission-type collimating mirror, reflecting mirror and feedback Angled adjustment measuring device is arranged on the reflecting mirror in imaging system；The light beam of light source outgoing, it is quasi- by transmission-type collimating mirror Directly at collimated light beam after, then reflected by reflecting mirror, be incident on the surface of measured object；From the light beam of measured object surface reflection, then pass through After crossing reflecting mirror reflection, is acquired and be imaged by feedback imaging system；

The feedback imaging system is in following two form:

The first, it is arranged between light source and transmission-type collimating mirror, including the first feedback spectroscope and setting are in transmission-type The 4 quadrant detector of focal plane of collimating mirror and multiple single pixel photoelectric converters, the single pixel photoelectric converter is at array point Cloth, 4 quadrant detector be not only located at array center but also be located on feedback imaging system optical axis；From the light of measured object surface reflection Beam after reflecting using reflecting mirror, is successively visited by the transmission of transmission-type collimating mirror, the first feedback spectroscope reflection, by four-quadrant Survey device or the acquisition imaging of single pixel photoelectric converter；

The second, be arranged between transmission-type collimating mirror and reflecting mirror, including first feedback spectroscope, first feedback object lens and The 4 quadrant detector and multiple single pixel photoelectric converters of transmission-type focal plane of collimating mirror, the single pixel photoelectric conversion are set At array distribution, 4 quadrant detector had not only been located at array center but also had been located on feedback imaging system optical axis device；From measured object surface The light beam of reflection, after being reflected using reflecting mirror, successively by first feedback spectroscope reflection, first feedback object lens transmission, by 4 quadrant detector or the acquisition imaging of single pixel photoelectric converter；

The angle adjustment measuring device includes angular adjustment apparatus, the angular deflection measurement dress of setting on the mirror It sets and universal shaft, angular adjustment apparatus includes the first driver and the second driver；The line of first driver and universal shaft The line of vertical second driver and universal shaft；Angular deflection measuring device is total optical path autocollimator.

The portable array zeroing laser realized on the above-mentioned portable array zeroing big working distance autocollimation of laser Big working distance auto-collimation method, comprising the following steps:

Step a, bright light source is put, imaging system images are fed back, if:

The first, the point image position obtained is in single pixel photoelectric converter region, according to single pixel photoelectric converter coordinate, It obtains a picture and deviates image plane center direction, adjust mirror angle using the first driver and the second driver, return to a picture 4 quadrant detector region, enters step b；

The second, the point image position obtained is directly entered step b in 4 quadrant detector region；

Step b, 4 quadrant detector is imaged, and point is as deviateing 4 quadrant detector image plane center position after obtaining step a Δ x and Δ y are set, mirror angle is adjusted using the first driver and the second driver, a picture is made to return to 4 quadrant detector picture Face center；

Step c, by total optical path autocollimator obtain reflecting mirror angle change Δ θ andAnd then obtain measured object table The angle change Δ α and Δ β in face；Wherein,WithF3, f4 indicate 2 functions.

The above-mentioned array zeroing big working distance autocollimation of laser, further includes Wavefront detecting system and wavefront compensation system；

The Wavefront detecting system includes Wavefront detecting spectroscope and air agitation wave front detector and reflecting mirror deformation At least one of wave front detector；The Wavefront detecting spectroscope is arranged between reflecting mirror and measured object, air agitation wave Preceding detector is arranged on the spectroscopical reflected light path of Wavefront detecting, and reflecting mirror deformation wave front detector is arranged in the two of reflecting mirror In secondary reflection optical path；

The wavefront compensation system includes compensatory light, compensation collimating mirror and transmission liquid crystal spatial light modulator；It mends The light beam for repaying light source outgoing, after overcompensation collimating mirror is collimated into collimated light beam, then by transmission liquid crystal spatial light modulator tune System, is incident on Wavefront detecting spectroscope.

The portable array zeroing laser realized on the above-mentioned portable array zeroing big working distance autocollimation of laser Big working distance auto-collimation method, it is desirable that Wavefront detecting system only includes Wavefront detecting spectroscope and air agitation wave front detector；

The following steps are included:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, Air agitation wave front detector respectively obtains two groups of data of GA and GB；

Step c, G1=GA-GB obtains wavefront variation caused by air agitation；

Step d, transmission liquid crystal spatial light modulator parameter is adjusted according to f5 (G1), lights compensatory light, make-up air Disturbance；

Step e, bright light source is put, imaging system images are fed back, if:

The first, the point image position obtained is in single pixel photoelectric converter region, according to single pixel photoelectric converter coordinate, It obtains a picture and deviates image plane center direction, adjust mirror angle using the first driver and the second driver, return to a picture 4 quadrant detector region, enters step f；

The second, the point image position obtained is directly entered step f in 4 quadrant detector region；

Step f, 4 quadrant detector is imaged, and point is as deviateing 4 quadrant detector image plane center position after obtaining step a Δ x and Δ y are set, mirror angle is adjusted using the first driver and the second driver, a picture is made to return to 4 quadrant detector picture Face center；

Step g, by total optical path autocollimator obtain reflecting mirror angle change Δ θ andAnd then obtain measured object table The angle change Δ α and Δ β in face；Wherein,WithF3, f4 indicate 2 functions.

The portable array zeroing laser realized on the above-mentioned portable array zeroing big working distance autocollimation of laser Big working distance auto-collimation method, it is desirable that Wavefront detecting system only includes Wavefront detecting spectroscope and reflecting mirror deformation Wavefront detecting Device；

The following steps are included:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, Reflecting mirror deformation wave front detector respectively obtains two groups of data of GC and GD；

Step c, G2=GC-GD, obtain air agitation and reflecting mirror deformation it is common caused by wavefront variation；

Step d, transmission liquid crystal spatial light modulator parameter is adjusted according to f5 (G2), lights compensatory light, make-up air Disturbance and reflecting mirror deformation；

Step e, imaging system images are fed back, if:

The first, the point image position obtained is in single pixel photoelectric converter region, according to single pixel photoelectric converter coordinate, It obtains a picture and deviates image plane center direction, adjust mirror angle using the first driver and the second driver, return to a picture 4 quadrant detector region, enters step f；

The second, the point image position obtained is directly entered step f in 4 quadrant detector region；

Step f, 4 quadrant detector is imaged, and point is as deviateing 4 quadrant detector image plane center position after obtaining step a Δ x and Δ y are set, mirror angle is adjusted using the first driver and the second driver, a picture is made to return to 4 quadrant detector picture Face center；

Step g, by total optical path autocollimator obtain reflecting mirror angle change Δ θ andAnd then obtain measured object table The angle change Δ α and Δ β in face；Wherein,WithF3, f4 indicate 2 functions.

The portable array zeroing laser realized on the above-mentioned portable array zeroing big working distance autocollimation of laser Big working distance auto-collimation method, it is desirable that Wavefront detecting system includes Wavefront detecting spectroscope, air agitation wave front detector simultaneously With reflecting mirror deformation wave front detector；

The following steps are included:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, Air agitation wave front detector respectively obtains two groups of data of GA and GB, and reflecting mirror deformation wave front detector respectively obtains GC and GD two Group data；

Step c, G1=GA-GB obtains wavefront variation caused by air agitation；G2=GC-GD obtains air agitation and anti- Penetrate mirror deformation it is common caused by wavefront variation；G=G2-G1 obtains wavefront variation caused by reflecting mirror deformation；

Step d,

Transmission liquid crystal spatial light modulator parameter is adjusted according to f5 (G1), lights compensatory light, make-up air disturbance；

Or

Adjust transmission liquid crystal spatial light modulator parameter according to f5 (G2), light compensatory light, make-up air disturbance and Reflecting mirror deformation；

Or

Transmission liquid crystal spatial light modulator parameter is adjusted according to f5 (G), lights compensatory light, compensatory reflex mirror deformation；

Step e, imaging system images are fed back, if:

The first, the point image position obtained is in single pixel photoelectric converter region, according to single pixel photoelectric converter coordinate, It obtains a picture and deviates image plane center direction, adjust mirror angle using the first driver and the second driver, return to a picture 4 quadrant detector region, enters step f；

The second, the point image position obtained is directly entered step f in 4 quadrant detector region；

Step f, 4 quadrant detector is imaged, and point is as deviateing 4 quadrant detector image plane center position after obtaining step a Δ x and Δ y are set, mirror angle is adjusted using the first driver and the second driver, a picture is made to return to 4 quadrant detector picture Face center；

Step g, by total optical path autocollimator obtain reflecting mirror angle change Δ θ andAnd then obtain measured object table The angle change Δ α and Δ β in face；Wherein,WithF3, f4 indicate 2 functions.

The utility model has the advantages that

Compared with traditional autocollimator, invention increases the angle of reflecting mirror and setting on the mirror to adjust measurement Device, this structure setting can have larger drift angle between measured object incident light and reflected light or there are relatively larger transverse positions In the case where shifting, measuring device is adjusted by angle and adjusts reflecting mirror posture, it is ensured that reflected light backtracking is simultaneously imaged by feedback System receives, and then effectively avoids the problem that measured object reflected light deviates measuring system and leads to not measurement, so that this Invention has dramatically increases auto-collimation working range under identical operating distance, or significantly increases under identical auto-collimation working range Add the technical advantage of operating distance.

In addition to this, the present invention also has following a few technical advantages:

The first, selective transmission formula collimating mirror, keeps apparatus of the present invention structure simple, and low manufacture cost is easy to use；

The second, select multiple single pixel photoelectric converters and 4 quadrant detector collectively as in feedback imaging system at As device, the advantage that multiple single pixel photoelectric converter areas are big and 4 quadrant detector position resolution is high is combined；Its In, multiple single pixel photoelectric converters combine, it can be ensured that under measured object reflected light and the biggish situation in incident light drift angle, Reflected light still is able to the entrance pupil into optical system, without departing from range of receiving；On this basis, reflecting mirror is recycled to realize instead Light quickly real-time return compensation is penetrated, reflected light is adjusted to 4 quadrant detector position, and can be according to 4 quadrant detector High position resolution advantage obtain higher angle-measurement accuracy；Therefore, by multiple single pixel photoelectric converters and four-quadrant Limit detector combines, and not only makes auto-collimation working range or operating distance of the present invention greatly be extended, but also be conducive to Improve angle-measurement accuracy；

Third selects total optical path autocollimator as angular deflection measuring device, and total optical path autocollimator is utilized to measure essence Degree is influenced small good characteristic by air environment variation, is allowed the invention under the unstable measurement environment of air environment, Ensure to measure effective progress；

4th, the present invention additionally uses following technology: the first driver the second driver vertical with the line of universal shaft with The line of universal shaft；The orthogonal two dimension setting of this two lines, so that the data in different lines direction are non-interference, nothing Operation need to be decoupled, calibration can be facilitated in this way, simplifies calculating process, improves measuring speed.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of traditional auto-collimation angle measurement system.

Fig. 2 is the first structural representation of the array zeroing big working distance autocollimation specific embodiment one of laser of the present invention Figure.

Fig. 3 is angular adjustment apparatus structural schematic diagram in angle adjustment measuring device.

Fig. 4 is the structural schematic diagram of the first structure of angular deflection measuring device in angle adjustment measuring device.

Fig. 5 is the structural schematic diagram of second of structure of angular deflection measuring device in angle adjustment measuring device.

Fig. 6 is second of structural representation of the array zeroing big working distance autocollimation specific embodiment one of laser of the present invention Figure.

Fig. 7 is the structural schematic diagram of the array zeroing big working distance autocollimation specific embodiment two of laser of the present invention.

Fig. 8 is the structural schematic diagram of the array zeroing big working distance autocollimation specific embodiment three of laser of the present invention.

Fig. 9 is the structural schematic diagram of the array zeroing big working distance autocollimation specific embodiment four of laser of the present invention.

In figure: 1 light source, 21 transmission-type collimating mirrors, 3 reflecting mirrors, 4 angles adjust measuring device, 411 first drivers, 412 Second driver, 429 traditional auto-collimation systems, 43 universal shafts, 5 measured objects, 6 feedback imaging systems, 61 first feedback spectroscopes, 63 first feedback object lens, 66 4 quadrant detectors, 67 single pixel photoelectric converters, 7 Wavefront detecting systems, the light splitting of 71 Wavefront detectings Mirror, 72 air agitation wave front detectors, 73 reflecting mirror deformation wave front detectors, 8 wavefront compensation systems, 81 compensatory lights, 82 are mended Repay collimating mirror, 83 transmission liquid crystal spatial light modulators.

Specific embodiment

The specific embodiment of the invention is described in further detail with reference to the accompanying drawing.

Specific embodiment one

The present embodiment is the array zeroing big working distance autocollimation embodiment of laser.

The array zeroing big working distance autocollimation of laser of the present embodiment, structural schematic diagram are as shown in Figure 2.The auto-collimation Device includes light source 1, transmission-type collimating mirror 21, reflecting mirror 3 and feedback imaging system 6, is provided with angle on the reflecting mirror 3 Degree adjustment measuring device 4；The light beam that light source 1 is emitted, after transmission-type collimating mirror 21 is collimated into collimated light beam, then by reflecting mirror 3 reflections, are incident on the surface of measured object 5；From the light beam of 5 surface reflection of measured object, after being reflected using reflecting mirror 3, by feeding back The acquisition imaging of imaging system 6；

The feedback imaging system 6 is arranged between light source 1 and transmission-type collimating mirror 21, including the first feedback spectroscope 61 and the 4 quadrant detector 66 and multiple single pixel photoelectric converters 67 of 21 focal plane of transmission-type collimating mirror are set, it is described At array distribution, 4 quadrant detector 66 had not only been located at array center but also had been located at feedback imaging system 6 single pixel photoelectric converter 67 On optical axis；It is successively saturating by transmission-type collimating mirror 21 after being reflected using reflecting mirror 3 from the light beam of 5 surface reflection of measured object It penetrates, the first feedback spectroscope 61 reflects, by 4 quadrant detector 66 or the acquisition imaging of single pixel photoelectric converter 67；

The angle adjustment measuring device 4 includes the angular adjustment apparatus being arranged on reflecting mirror 3, angular deflection measurement dress It sets and universal shaft 43, angular adjustment apparatus includes the first driver 411 and the second driver 412；First driver 411 with The line of the line of universal shaft 43 vertical second driver 412 and universal shaft 43, as shown in Figure 3；Angular deflection measuring device is Optical path autocollimator 429 altogether, the optical path autocollimator 429 altogether may be mounted at any one side of reflecting mirror 3, such as Fig. 4 and Fig. 5 It is shown.

It should be noted that in the present embodiment, feedback imaging system 6 is it is also an option that such as flowering structure: setting is transmiting Between formula collimating mirror 21 and reflecting mirror 3, including the first feedback spectroscope 61, first feeds back object lens 63 and setting and collimates in transmission-type The 4 quadrant detector 66 of 21 focal plane of mirror and multiple single pixel photoelectric converters 67, the single pixel photoelectric converter 67 is at array Distribution, 4 quadrant detector 66 be not only located at array center but also be located on feedback 6 optical axis of imaging system；From 5 surface reflection of measured object Light beam, using reflecting mirror 3 reflect after, successively by first feedback spectroscope 61 reflection, first feedback object lens 63 transmission, by 4 quadrant detector 66 or the acquisition imaging of single pixel photoelectric converter 67；As shown in Figure 6.

Specific embodiment two

The present embodiment is the array zeroing big working distance autocollimation embodiment of laser.

The array zeroing big working distance autocollimation of laser of the present embodiment, structural schematic diagram are as shown in Figure 7.Specific real On the basis of applying example one, the array zeroing big working distance autocollimation of laser of the present embodiment is additionally provided with Wavefront detecting system 7 With wavefront compensation system 8；

The Wavefront detecting system 7 includes Wavefront detecting spectroscope 71 and air agitation wave front detector 72；The wavefront It detects spectroscope 71 to be arranged between reflecting mirror 3 and measured object 5, the setting of air agitation wave front detector 72 is divided in Wavefront detecting On the reflected light path of mirror 71, reflecting mirror deformation wave front detector 73 is arranged in the secondary reflection optical path of reflecting mirror 3；

The wavefront compensation system 8 includes compensatory light 81, compensation collimating mirror 82 and the light modulation of transmission liquid crystal space Device 83；The light beam that compensatory light 81 is emitted, after overcompensation collimating mirror 82 is collimated into collimated light beam, then by transmission liquid crystal space Optical modulator 83 is modulated, and is incident on Wavefront detecting spectroscope 71.

Specific embodiment three

The present embodiment is the array zeroing big working distance autocollimation embodiment of laser.

The array zeroing big working distance autocollimation of laser of the present embodiment, structural schematic diagram are as shown in Figure 8.Specific real On the basis of applying example one, the array zeroing big working distance autocollimation of laser of the present embodiment is additionally provided with Wavefront detecting system 7 With wavefront compensation system 8；

The Wavefront detecting system 7 includes Wavefront detecting spectroscope 71 and reflecting mirror deformation wave front detector 73；The wave Preceding detection spectroscope 71 is arranged between reflecting mirror 3 and measured object 5, and the setting of air agitation wave front detector 72 is in Wavefront detecting point On the reflected light path of light microscopic 71, reflecting mirror deformation wave front detector 73 is arranged in the secondary reflection optical path of reflecting mirror 3；

The wavefront compensation system 8 includes compensatory light 81, compensation collimating mirror 82 and the light modulation of transmission liquid crystal space Device 83；The light beam that compensatory light 81 is emitted, after overcompensation collimating mirror 82 is collimated into collimated light beam, then by transmission liquid crystal space Optical modulator 83 is modulated, and is incident on Wavefront detecting spectroscope 71.

Specific embodiment four

The present embodiment is the array zeroing big working distance autocollimation embodiment of laser.

The array zeroing big working distance autocollimation of laser of the present embodiment, structural schematic diagram are as shown in Figure 9.Specific real On the basis of applying example one, the array zeroing big working distance autocollimation of laser of the present embodiment is additionally provided with Wavefront detecting system 7 With wavefront compensation system 8；

The Wavefront detecting system 7 includes Wavefront detecting spectroscope 71, air agitation wave front detector 72 and reflecting mirror shape Become wave front detector 73；The Wavefront detecting spectroscope 71 is arranged between reflecting mirror 3 and measured object 5, and air agitation wavefront is visited It surveys device 72 to be arranged on the reflected light path of Wavefront detecting spectroscope 71, reflecting mirror deformation wave front detector 73 is arranged in reflecting mirror 3 Secondary reflection optical path on；

The wavefront compensation system 8 includes compensatory light 81, compensation collimating mirror 82 and the light modulation of transmission liquid crystal space Device 83；The light beam that compensatory light 81 is emitted, after overcompensation collimating mirror 82 is collimated into collimated light beam, then by transmission liquid crystal space Optical modulator 83 is modulated, and is incident on Wavefront detecting spectroscope 71.

For the above autocollimation embodiment, need to illustrate there are also following two points:

The first, the first driver 411 and the second driver 412 in the described angular adjustment apparatus, both can choose driving The stepper motor or motor servo driver of fast speed, and can choose the driving higher piezoelectric ceramic actuator of precision, also Stepper motor or motor servo driver can be used in mixed way with piezoelectric ceramic actuator；Those skilled in the art can basis Actual needs is reasonably selected.

The second, the described transmission-type collimating mirror 21 can choose binary optical lenses, and logical ordinary optical lens are compared, binary optical It is thinner to learn lens, is conducive to system compact, while binary optical lenses collimation is more preferable, is conducive to improve systematic survey essence Degree.

Specific embodiment five

The present embodiment is the battle array realized on the zeroing big working distance autocollimation of laser of the array described in specific embodiment one The column zeroing big working distance auto-collimation embodiment of the method for laser.

The array zeroing big working distance auto-collimation method of laser of the present embodiment, comprising the following steps:

Step a, bright light source 1 is put, feedback imaging system 6 is imaged, if:

The first, the point image position obtained is in 67 region of single pixel photoelectric converter, according to single pixel photoelectric converter 67 Coordinate obtains a picture and deviates image plane center direction, the first driver 411 and the second driver 412 is utilized to adjust 3 jiaos of reflecting mirror Degree, makes a picture return to 66 region of 4 quadrant detector, enters step b；

The second, the point image position obtained is directly entered step b in 66 region of 4 quadrant detector；

Step b, 4 quadrant detector 66 is imaged, and point is as deviateing in 66 image planes of 4 quadrant detector after obtaining step a The heart position Δ x and Δ y adjust 3 angle of reflecting mirror using the first driver 411 and the second driver 412, a picture are made to return to four-quadrant Limit 66 image plane center position of detector；

Step c, by total optical path autocollimator 429 obtain reflecting mirror 3 angle change Δ θ andAnd then it is tested The angle change Δ α and Δ β on 5 surface of object；Wherein,WithF3, f4 indicate 2 functions.

Main innovative point of the invention is the angle adjustment measurement dress for increasing reflecting mirror 3 and being arranged on reflecting mirror 3 4 are set, this structure there can be larger drift angle between 5 incident light of measured object and reflected light or there are the feelings of relatively larger transverse displacement Under condition, the whole reflecting mirror posture of measuring device tune 4 is adjusted by angle, makes reflected light backtracking and is connect by feedback imaging system 6 It receives, effectively avoids the problem that measured object reflected light deviates measuring system and leads to not measurement.

However, the introducing of reflecting mirror 3, face type error can be transmitted in final result, reduce the measurement accuracy of system；Together When, the increase of operating distance can not ignore the air agitation between reflecting mirror 3 and measured object 5 again, can also reduce system Measurement accuracy.As it can be seen that just must take into account 3 face type error of reflecting mirror and reflecting mirror 3 to realize high-acruracy survey and be tested Influence of the air agitation to measurement result between object 5, for this purpose, devising specific embodiment six, specific embodiment seven and specific Embodiment eight.

Specific embodiment six

The present embodiment is the battle array realized on the zeroing big working distance autocollimation of laser of the array described in specific embodiment two The column zeroing big working distance auto-collimation embodiment of the method for laser.

The array zeroing big working distance auto-collimation method of laser of the present embodiment, comprising the following steps:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source 1 is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, air agitation wave front detector 72 respectively obtain two groups of data of GA and GB；

Step c, G1=GA-GB obtains wavefront variation caused by air agitation；

Step d, 83 parameter of transmission liquid crystal spatial light modulator is adjusted according to f5 (G1), lights compensatory light 81, compensated Air agitation；

Step e, bright light source 1 is put, feedback imaging system 6 is imaged, if:

The first, the point image position obtained is in 67 region of single pixel photoelectric converter, according to single pixel photoelectric converter 67 Coordinate obtains a picture and deviates image plane center direction, the first driver 411 and the second driver 412 is utilized to adjust 3 jiaos of reflecting mirror Degree, makes a picture return to 66 region of 4 quadrant detector, enters step f；

The second, the point image position obtained is directly entered step f in 66 region of 4 quadrant detector；

Step f, 4 quadrant detector 66 is imaged, and point is as deviateing in 66 image planes of 4 quadrant detector after obtaining step a The heart position Δ x and Δ y adjust 3 angle of reflecting mirror using the first driver 411 and the second driver 412, a picture are made to return to four-quadrant Limit 66 image plane center position of detector；

Step g, by total optical path autocollimator 429 obtain reflecting mirror 3 angle change Δ θ andAnd then it is tested The angle change Δ α and Δ β on 5 surface of object；Wherein,WithF3, f4 indicate 2 functions.

The method for implementing the present embodiment on the device of specific embodiment two, can utilize air agitation wave front detector 72 Air agitation is separated, and then air agitation is compensated using wavefront compensation system 8, it is final to realize without air agitation The high-acruracy survey of influence.

Specific embodiment seven

The present embodiment is the battle array realized on the zeroing big working distance autocollimation of laser of the array described in specific embodiment three The column zeroing big working distance auto-collimation embodiment of the method for laser.

The array zeroing big working distance auto-collimation method of laser of the present embodiment, comprising the following steps:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source 1 is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, reflecting mirror deformation wave front detector 73 respectively obtain two groups of data of GC and GD；

Step c, G2=GC-GD, obtain air agitation and reflecting mirror deformation it is common caused by wavefront variation；

Step d, 83 parameter of transmission liquid crystal spatial light modulator is adjusted according to f5 (G2), lights compensatory light 81, compensated Air agitation and reflecting mirror deformation；

Step e, feedback imaging system 6 is imaged, if:

The first, the point image position obtained is in 67 region of single pixel photoelectric converter, according to single pixel photoelectric converter 67 Coordinate obtains a picture and deviates image plane center direction, the first driver 411 and the second driver 412 is utilized to adjust 3 jiaos of reflecting mirror Degree, makes a picture return to 66 region of 4 quadrant detector, enters step f；

The second, the point image position obtained is directly entered step f in 66 region of 4 quadrant detector；

Step f, 4 quadrant detector 66 is imaged, and point is as deviateing in 66 image planes of 4 quadrant detector after obtaining step a The heart position Δ x and Δ y adjust 3 angle of reflecting mirror using the first driver 411 and the second driver 412, a picture are made to return to four-quadrant Limit 66 image plane center position of detector；

Step g, by total optical path autocollimator 429 obtain reflecting mirror 3 angle change Δ θ andAnd then it is tested The angle change Δ α and Δ β on 5 surface of object；Wherein,WithF3, f4 indicate 2 functions.

The method for implementing the present embodiment on the device of specific embodiment three, can utilize reflecting mirror deformation wave front detector Air agitation and reflecting mirror deformation are carried out overall separation by 73, and then using wavefront compensation system 8 to air agitation and reflecting mirror Deformation carries out entire compensation, final to realize the high-acruracy survey without air agitation and reflecting mirror influence of crust deformation.

Specific embodiment eight

The present embodiment is the battle array realized on the zeroing big working distance autocollimation of laser of the array described in specific embodiment four The column zeroing big working distance auto-collimation embodiment of the method for laser.

The array zeroing big working distance auto-collimation method of laser of the present embodiment, comprising the following steps:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source 1 is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, air agitation wave front detector 72 respectively obtain two groups of data of GA and GB, and reflecting mirror deformation wave front detector 73 respectively obtains GC With two groups of data of GD；

Step c, G1=GA-GB obtains wavefront variation caused by air agitation；G2=GC-GD obtains air agitation and anti- Penetrate mirror deformation it is common caused by wavefront variation；G=G2-G1 obtains wavefront variation caused by reflecting mirror deformation；

Step d,

83 parameter of transmission liquid crystal spatial light modulator is adjusted according to f5 (G1), lights compensatory light 81, make-up air is disturbed It is dynamic；

Or

83 parameter of transmission liquid crystal spatial light modulator is adjusted according to f5 (G2), lights compensatory light 81, make-up air is disturbed Dynamic and reflecting mirror deformation；

Or

83 parameter of transmission liquid crystal spatial light modulator is adjusted according to f5 (G), lights compensatory light 81, compensatory reflex mirror shape Become；

Step e, feedback imaging device 6 is imaged, if:

The first, the point image position obtained is in 67 region of single pixel photoelectric converter, according to single pixel photoelectric converter 67 Coordinate obtains a picture and deviates image plane center direction, the first driver 411 and the second driver 412 is utilized to adjust 3 jiaos of reflecting mirror Degree, makes a picture return to 66 region of 4 quadrant detector, enters step f；

The second, the point image position obtained is directly entered step f in 66 region of 4 quadrant detector；

Step f, 4 quadrant detector 66 is imaged, and point is as deviateing in 66 image planes of 4 quadrant detector after obtaining step a The heart position Δ x and Δ y adjust 3 angle of reflecting mirror using the first driver 411 and the second driver 412, a picture are made to return to four-quadrant Limit 66 image plane center position of detector；

Step g, by total optical path autocollimator 429 obtain reflecting mirror 3 angle change Δ θ andAnd then it is tested The angle change Δ α and Δ β on 5 surface of object；Wherein,WithF3, f4 indicate 2 functions.

The method for implementing the present embodiment on the device of specific embodiment four, can utilize air agitation wave front detector 72 Air agitation and reflecting mirror deformation are separately separated with reflecting mirror deformation wave front detector 73, and then selectively to air Disturbance carries out separate compensation, separate compensation is carried out to reflecting mirror deformation or carries out whole benefit to air agitation and reflecting mirror deformation It repays, it is final to realize without air agitation or no-mirror deformation or surveyed without the high-precision of air agitation and reflecting mirror influence of crust deformation Amount.

The present embodiment has an advantage that, that is, can be to each after being separately separated air agitation and reflecting mirror deformation Influence size of the part to result is individually assessed, and can not only be found out in air agitation and reflecting mirror deformation, who is to influence The principal contradiction of measurement accuracy, and mirror deformation can individually be assessed, while reflecting mirror processing quality is carried out Effective evaluation.

Claims (4)

1. array return to zero the big working distance autocollimation of laser, which is characterized in that including light source (1), transmission-type collimating mirror (21), Reflecting mirror (3) and feedback imaging system (6), are arranged angled adjustment measuring device (4) on the reflecting mirror (3)；Light source (1) be emitted light beam, after transmission-type collimating mirror (21) is collimated into collimated light beam, then by reflecting mirror (3) reflect, be incident on by Survey the surface of object (5)；From the light beam of measured object (5) surface reflection, after reflecting mirror (3) reflection, by feedback imaging system (6) acquisition imaging；

The feedback imaging system (6) is one of following two form:

The first, it is arranged between light source (1) and transmission-type collimating mirror (21), including the first feedback spectroscope (61) and setting In the 4 quadrant detector (66) and multiple single pixel photoelectric converters (67) of transmission-type collimating mirror (21) focal plane, the single pixel Photoelectric converter (67) had not only been located at array center but also had been located at feedback imaging system (6) at array distribution, 4 quadrant detector (66) On optical axis；Successively pass through transmission-type collimating mirror after reflecting mirror (3) reflection from the light beam of measured object (5) surface reflection (21) transmission, the first feedback spectroscope (61) are reflected, are acquired by 4 quadrant detector (66) or single pixel photoelectric converter (67) Imaging；

The second, it is arranged between transmission-type collimating mirror (21) and reflecting mirror (3), including the first feedback spectroscope (61), first are instead It presents object lens (63) and the 4 quadrant detector (66) in transmission-type collimating mirror (21) focal plane and multiple single pixel photoelectric conversions is set Device (67), the single pixel photoelectric converter (67) are not only located at array center but also position at array distribution, 4 quadrant detector (66) In on feedback imaging system (6) optical axis；From the light beam of measured object (5) surface reflection, after reflecting mirror (3) reflection, successively By the first feedback spectroscope (61) reflection, the first feedback object lens (63) transmission, by 4 quadrant detector (66) or single pixel light Electric transducer (67) acquisition imaging；

Angle adjustment measuring device (4) includes the angular adjustment apparatus being arranged on reflecting mirror (3), angular deflection measurement dress It sets and universal shaft (43), angular adjustment apparatus includes the first driver (411) and the second driver (412)；First driver (411) line of vertical with the line of universal shaft (43) the second driver (412) and universal shaft (43)；Angular deflection measuring device For total optical path autocollimator (429)；It further include Wavefront detecting system (7) and wavefront compensation system (8)；

The Wavefront detecting system (7) is one of following three kinds of situations: situation one including Wavefront detecting spectroscope (71) and Air agitation wave front detector (72)；Situation two including Wavefront detecting spectroscope (71) and reflecting mirror deformation wave front detector (73)；Situation three including Wavefront detecting spectroscope (71), air agitation wave front detector (72) and reflecting mirror deformation Wavefront detecting Device (73)；The Wavefront detecting spectroscope (71) is arranged between reflecting mirror (3) and measured object (5), air agitation Wavefront detecting Device (72) is arranged on the reflected light path of Wavefront detecting spectroscope (71), and reflecting mirror deformation wave front detector (73) setting is being reflected In the secondary reflection optical path of mirror (3)；

The wavefront compensation system (8) includes compensatory light (81), compensation collimating mirror (82) and transmission liquid crystal spatial light tune Device (83) processed；The light beam of compensatory light (81) outgoing, after overcompensation collimating mirror (82) is collimated into collimated light beam, then by transmission-type LCD space light modulator (83) modulation, is incident on Wavefront detecting spectroscope (71).

2. the array zeroing big work of laser realized on the zeroing big working distance autocollimation of laser of the array described in claim 1 Away from auto-collimation method, it is desirable that Wavefront detecting system (7) only includes Wavefront detecting spectroscope (71) and air agitation wave front detector (72)；

Characterized by comprising the following steps:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source (1) is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, Air agitation wave front detector (72) respectively obtains two groups of data of GA and GB；

Step c, G1=GA-GB obtains wavefront variation caused by air agitation；

Step d, transmission liquid crystal spatial light modulator (83) parameter is adjusted according to f5 (G1), lighted compensatory light (81), compensated Air agitation；F5 indicates 1 function；

Step e, bright light source (1) is put, feedback imaging system (6) imaging, if:

The first, the point image position obtained is in single pixel photoelectric converter (67) region, according to single pixel photoelectric converter (67) Coordinate obtains a picture and deviates image plane center direction, the first driver (411) and the second driver (412) is utilized to adjust reflecting mirror (3) angle makes a picture return to 4 quadrant detector (66) region, enters step f；

The second, the point image position obtained is directly entered step f in 4 quadrant detector (66) region；

Step f, 4 quadrant detector (66) is imaged, and point is as deviateing in 4 quadrant detector (66) image planes after obtaining step e The heart position Δ x and Δ y adjust reflecting mirror (3) angle using the first driver (411) and the second driver (412), return a picture To 4 quadrant detector (66) image plane center position；

Step g, by total optical path autocollimator (429) obtain reflecting mirror (3) angle change Δ θ andAnd then it is tested The angle change Δ α and Δ β on object (5) surface；Wherein,WithF3, f4 indicate 2 functions.

3. the array zeroing big work of laser realized on the zeroing big working distance autocollimation of laser of the array described in claim 1 Away from auto-collimation method, it is desirable that Wavefront detecting system (7) only includes Wavefront detecting spectroscope (71) and reflecting mirror deformation Wavefront detecting Device (73)；

Characterized by comprising the following steps:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source (1) is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, Reflecting mirror deformation wave front detector (73) respectively obtains two groups of data of GC and GD；

Step c, G2=GC-GD, obtain air agitation and reflecting mirror deformation it is common caused by wavefront variation；

Step d, transmission liquid crystal spatial light modulator (83) parameter is adjusted according to f5 (G2), lighted compensatory light (81), compensated Air agitation and reflecting mirror deformation；F5 indicates 1 function；

Step e, feedback imaging system (6) imaging, if:

The first, the point image position obtained is in single pixel photoelectric converter (67) region, according to single pixel photoelectric converter (67) Coordinate obtains a picture and deviates image plane center direction, the first driver (411) and the second driver (412) is utilized to adjust reflecting mirror (3) angle makes a picture return to 4 quadrant detector (66) region, enters step f；

The second, the point image position obtained is directly entered step f in 4 quadrant detector (66) region；

Step f, 4 quadrant detector (66) is imaged, and point is as deviateing in 4 quadrant detector (66) image planes after obtaining step e The heart position Δ x and Δ y adjust reflecting mirror (3) angle using the first driver (411) and the second driver (412), return a picture To 4 quadrant detector (66) image plane center position；

Step g, by total optical path autocollimator (429) obtain reflecting mirror (3) angle change Δ θ andAnd then it is tested The angle change Δ α and Δ β on object (5) surface；Wherein,WithF3, f4 indicate 2 functions.

4. the array zeroing big work of laser realized on the zeroing big working distance autocollimation of laser of the array described in claim 1 Away from auto-collimation method, it is desirable that Wavefront detecting system (7) includes Wavefront detecting spectroscope (71), air agitation wave front detector simultaneously (72) and reflecting mirror deformation wave front detector (73)；

Characterized by comprising the following steps:

Step a, surface is chosen perpendicular to the reference substance of optical axis direction；

Step b, bright light source (1) is put, the selected reference substance of step a is individually positioned in operating position A and nearly operating position B, Air agitation wave front detector (72) respectively obtains two groups of data of GA and GB, and reflecting mirror deformation wave front detector (73) respectively obtains Two groups of data of GC and GD；

Step c, G1=GA-GB obtains wavefront variation caused by air agitation；G2=GC-GD obtains air agitation and reflecting mirror Wavefront variation caused by deformation is common；G=G2-G1 obtains wavefront variation caused by reflecting mirror deformation；

Step d,

Transmission liquid crystal spatial light modulator (83) parameter is adjusted according to f5 (G1), lights compensatory light (81), make-up air is disturbed It is dynamic；F5 indicates 1 function；

Or

Transmission liquid crystal spatial light modulator (83) parameter is adjusted according to f5 (G2), lights compensatory light (81), make-up air is disturbed Dynamic and reflecting mirror deformation；F5 indicates 1 function；

Or

Transmission liquid crystal spatial light modulator (83) parameter is adjusted according to f5 (G), is lighted compensatory light (81), compensatory reflex mirror shape Become；F5 indicates 1 function；

Step e, feedback imaging system (6) imaging, if:

The first, the point image position obtained is in single pixel photoelectric converter (67) region, according to single pixel photoelectric converter (67) Coordinate obtains a picture and deviates image plane center direction, the first driver (411) and the second driver (412) is utilized to adjust reflecting mirror (3) angle makes a picture return to 4 quadrant detector (66) region, enters step f；

The second, the point image position obtained is directly entered step f in 4 quadrant detector (66) region；

Step f, 4 quadrant detector (66) is imaged, and point is as deviateing in 4 quadrant detector (66) image planes after obtaining step e The heart position Δ x and Δ y adjust reflecting mirror (3) angle using the first driver (411) and the second driver (412), return a picture To 4 quadrant detector (66) image plane center position；

Step g, by total optical path autocollimator (429) obtain reflecting mirror (3) angle change Δ θ andAnd then it is tested The angle change Δ α and Δ β on object (5) surface；Wherein,WithF3, f4 indicate 2 functions.