CN110082895A - For the high etendue modularization zoom lens of machine vision - Google Patents
For the high etendue modularization zoom lens of machine vision Download PDFInfo
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- CN110082895A CN110082895A CN201810074685.2A CN201810074685A CN110082895A CN 110082895 A CN110082895 A CN 110082895A CN 201810074685 A CN201810074685 A CN 201810074685A CN 110082895 A CN110082895 A CN 110082895A
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B15/00—Optical objectives with means for varying the magnification
- G02B15/14—Optical objectives with means for varying the magnification by axial movement of one or more lenses or groups of lenses relative to the image plane for continuously varying the equivalent focal length of the objective
- G02B15/16—Optical objectives with means for varying the magnification by axial movement of one or more lenses or groups of lenses relative to the image plane for continuously varying the equivalent focal length of the objective with interdependent non-linearly related movements between one lens or lens group, and another lens or lens group
- G02B15/163—Optical objectives with means for varying the magnification by axial movement of one or more lenses or groups of lenses relative to the image plane for continuously varying the equivalent focal length of the objective with interdependent non-linearly related movements between one lens or lens group, and another lens or lens group having a first movable lens or lens group and a second movable lens or lens group, both in front of a fixed lens or lens group
- G02B15/167—Optical objectives with means for varying the magnification by axial movement of one or more lenses or groups of lenses relative to the image plane for continuously varying the equivalent focal length of the objective with interdependent non-linearly related movements between one lens or lens group, and another lens or lens group having a first movable lens or lens group and a second movable lens or lens group, both in front of a fixed lens or lens group having an additional fixed front lens or group of lenses
- G02B15/173—Optical objectives with means for varying the magnification by axial movement of one or more lenses or groups of lenses relative to the image plane for continuously varying the equivalent focal length of the objective with interdependent non-linearly related movements between one lens or lens group, and another lens or lens group having a first movable lens or lens group and a second movable lens or lens group, both in front of a fixed lens or lens group having an additional fixed front lens or group of lenses arranged +-+
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Abstract
The present invention relates to a kind of Zoom optic lens components being used together with camera or eyepiece, and its purpose is to observe and check object.Specifically, the present invention relates to an optical module or lens assemblies, it is characterized in that: have multiple modular pieces, high etendue retention performance, wavelength calibration range be wide or zooming range is big or its property combination.For one limited yoke away from optical module, including one core zoom modules of a camera lens, zoom modules include five optics groups, be configured to provide at few 7:1 without zoom lens.Lens attachments module and rear adaptor module can be respectively placed in the object side and image side of optical module.The etendue of optical module can be configured about between 1.15-4.65mm2sr, and according to 8MP and 32MP imaging sensor.
Description
Technical field
The present invention relates to a kind of Zoom optic lens components being used together with camera or eyepiece, and its purpose is to see
Examine and check object.Specifically, the present invention relates to an optical module or lens assemblies, it is characterized in that: having multiple modularizations
Part, high etendue retention performance, wavelength calibration range be wide or zooming range is big or its property combination.
Background technique
The history of long reach finite conjugate camera lens with big zooming range can trace back to decades ago.At that time,
Bausch and Lomb, into 7 types, has used a kind of zoom mould for starting manufacture in nineteen fifty-nine in their 4 type of Stereo Zoom
Block.The manufactured most common zooming range is 0.7X-3X, and zoom ratio is about 4.3:1.Attached drawing 1 are as follows: there is 0.7-3X times magnification
Eyepiece cabin used by traditional Bausch and Lomb StereoZoom4 of number range.Attached drawing 2 are as follows: traditional Bausch and
Complete stereomicroscopy mirror support used by Lomb StereoZoom4.
Even then, it is also the introduction of a kind of eyepiece cabin design, so that stereomicroscopy camera lens can be in a variety of brackets and platform
It is used on face.The product is to be used together with eyepiece magnifying glass, and which specify required limited fields, and for reality
Finite numerical aperture required for the finite resolving power of existing 2 arcs point/light pair.
Since the 1980s, technological innovation is finally pressed two product development routes and is carried out, and is still continuing so far.One
Route is related to continuing to use within the scope of stereoscope.Attached drawing 3 is today still in the traditional jeweller used
StereoZoom microscope example.Attached stereoscope zoom ratio shown in Fig. 3 is common 6.5:1, usually using 0.7-
The zoom room of the enlargement ratio range of 4.5X.According to the optical module of attached drawing 3, can be used for a variety of different eyepiece magnifying glasses and
Barlow camera lens, to adjust visual magnification.Another route be related to using with monocular instrumnent video system is much like, zoom ratio
For the zoom room of 6.5:1.These systems can show object or scene picture on one piece of sensor for being about 11mm,
This sensor is commonly known as 2/3 " frame camera.The visual field and 0.0388 it is approximate maximum after numerical aperture (NA) still keep with
Stereoscope design originally is roughly the same.These cameras, if be farthest used, or right in other ways
Maximum performance quality or efficiency optimize, and substantially can realize 0.45mm under near field diffraction pattern limiting condition2Sr (square
Millimeter sterad) greatest optical propagation.
Attached drawing 4 illustrates a kind of about 0.45mm that etendue may be implemented by way of illustration2Sr, and have close
The example that field diffraction limits the optical component of performance.It include three kinds of arrangements in attached drawing 4, including the low magnification cloth above picture
It sets, intermediate medium amplification factor arrangement and the nethermost high-amplification-factor arrangement of picture.
This possibility, it is considered to be since relative illumination loss is very big and/or aberration increases.For a kind of biggish biography
Sensor, such as: the sensor of the diagonal line breadth of 16mm or 1 ", it can be in conjunction with the optical component of attached drawing 4.In this way, and in attached drawing
About the same optical module used in 3 microscopes can be to higher than 0.45mm2Sr, the largest of about 0.95mm2The optics of sr expands
The magazine one inch of breadth sensor field of view run within the scope of exhibition amount provides image.But this camera will be shown obviously
Lower diffraction limits performance.
What we wanted is to have a kind of camera, it includes an optical module, by configuring in 0.45mm2The light of sr or more
It learns and shows near field diffraction pattern restriction performance in propagation range, such as: in about 0.45-0.95mm2Between sr or about 0.5-1
Etendue within the scope of.What we also wanted is to have such a camera and optical module, by configuring in about 1-
5mm2It works in sr etendue range, especially this camera and optical module can also show near field diffraction pattern restriction
Performance.
Detailed description of the invention
Fig. 1 are as follows: tradition mesh used by Bausch the and Lomb StereoZoom4 with 0.7-3X amplification factor range
Mirror cabin (prior art).
Fig. 2 are as follows: traditional complete stereomicroscopy mirror support (existing skill used by Bausch and Lomb StereoZoom4
Art).
A kind of Fig. 3 are as follows: StereoZoom microscope (prior art) of tradition jeweller.
Fig. 4: illustrate that a kind of etendue is about 0.45mm by way of illustration2The microscope of sr traditional optical component
(prior art).
Fig. 5 A-5B: illustrate by way of illustration the limited yoke of optical component of microscope a kind of away from or a kind of limited yoke
Specific embodiment away from camera, it includes three optical modules, wherein module 1 includes the mirror for having positive focal length group G1A
Head attachment, module 2 include an etendue be about 1.57mm2sr 7:1 without zoom lens, further include 5 lens sets, this 5
A lens set includes: a static positive group G1B, a negative film activity group G2, positive activity group G3, a negative film activity group
G4 and static positive group G5A, module 3 include the rear adapter for having positive focal length group G5B.
Fig. 6: being a kind of specific implementation of the limited yoke of high etendue away from Zoom lens system with modular nature
The system diagram of example, lens attachments including an object lens or with positive lens group G1A, one have lens group G1B, G2,
It the core zoom of G3, G4, G5A, the casing camera lens with positive group G5B and various illumination, motor-driven, bracket and lists
Focus module.
Fig. 7: illustrate that a kind of etendue is about 1.57mm by way of illustration2Optics group of the limited yoke of sr away from system
The core zoom of part or the first specific embodiment without burnt module, including static positive group G1B, a negative film activity
Group G, a positive activity group G3, a negative film activity group G4, a static positive group G5A.
Fig. 8: illustrate that a kind of etendue is about 1.54mm by way of illustration2The core zoom group of the optical component of sr
Part or second of specific embodiment without burnt module, including a static positive group G1B, a negative film activity group G2, one
Static group of G3 of positive, a negative film activity group G4 and a static positive group G5A.
Fig. 9: illustrate the limited yoke that a kind of etendue is about 1.58mm2sr away from the light of optical system by way of illustration
The core zoom of department of the Chinese Academy of Sciences's part or the third specific embodiment without burnt module, including static positive group G1B, a negative film
Activity group G2, a negative film activity group G3, a negative film activity group G4 and a static positive group G5A.
Figure 10: illustrate that a kind of etendue is about 1.58mm by way of illustration2The limited yoke of sr is away from optical system
The core zoom of optical component or the 4th kind of specific embodiment without burnt module, including a static positive group G1B, one it is negative
Piece activity group G2, a positive activity group G3, a negative film activity group G4, a static positive group G5A.Figure 11 is by way of illustration
Illustrate that a kind of etendue is about 2.88mm2Core zoom or remote of the limited yoke of sr away from the optical component of optical system
5th kind of specific embodiment of variable focus package, including a static positive group G1B, a negative film activity group G2, a negative film are living
Dynamic group G3, a negative film activity group G4 and a static positive group G5A.
Figure 12: illustrate that a kind of etendue is about 4.62mm by way of illustration2The limited yoke of sr is away from optical system
The core zoom of optical component or the 6th kind of specific embodiment without burnt module, including a static positive group G1B, one it is negative
Piece activity group G2, static group of G3 of a positive, a negative film activity group G4 and a static positive group G5A.
Figure 13: be in Fig. 5 A-5B, in the module 3 of the specific embodiment of expression, the casing camera lens figure that may include,
Etendue is about 1.58mm2Listed variable in sr, size A, B, C such as table 8.
Figure 14: illustrating a kind of example of rear adapter optical component by way of illustration, which has 10 institute of table
The optical index of proposition.
Figure 15: illustrating a kind of example of rear adapter optical component by way of illustration, which has 11 institute of table
The optical index of proposition.
Figure 16: illustrating a kind of example of rear adapter optical component by way of illustration, which has 12 institute of table
The optical index of proposition.
Figure 17: illustrating a kind of example of lens attachments optical component by way of illustration, which has 13 institute of table
The optical index of proposition.
Figure 18: illustrating a kind of example of lens attachments optical component by way of illustration, which has 14 institute of table
The optical index of proposition.
Example table explanation
Table 1: the limited yoke for configuring according to certain specific embodiment and illustrating by way of illustration in fig. 5 including one is away from light
Learn the optical index example of examples of components.
Table 2: the optical component example for configuring according to certain specific embodiment and illustrating by way of illustration in Fig. 7 including one
Optical index example.
Table 3: the optical component example for configuring according to certain specific embodiment and illustrating by way of illustration in fig. 8 including one
Optical index example.
Table 4: the optical component example for configuring according to certain specific embodiment and illustrating by way of illustration in Fig. 9 including one
Optical index example.
Table 5: the optical component for configuring according to certain specific embodiment and illustrating by way of illustration in Figure 10 including one is real
The optical index example of example.
Table 6: the optical component for configuring according to certain specific embodiment and illustrating by way of illustration in Figure 11 including one is real
The optical index example of example.
Table 7: the optical component for configuring according to certain specific embodiment and illustrating by way of illustration in Figure 12 including one is real
The optical index example of example.
Table 8: it is placed in including the outer entrance pupil with long reach/focal distance ratio (WD/FL) and its 16-25mm diameter
50, the specific embodiment of 75,100 or 150mm or lens attachments or object lens in bigger distance.
Table 9: the specific embodiment including rear adapter or casing camera lens, with short light path/focal distance ratio and its 16-
The outer entrance pupil of 25mm diameter is placed in 50,75,100,150mm or bigger apart from upper, and etendue is about
1.58mm2sr。
A kind of table 10: the optical index example including optical component according to the configuration of specific embodiment shown in Figure 14.
A kind of table 11: the optical index example including optical component according to the configuration of specific embodiment shown in Figure 15.
A kind of table 12: the optical index example including optical component according to the configuration of specific embodiment shown in Figure 16.
A kind of table 13: the optical index example including optical component according to the configuration of specific embodiment shown in Figure 17.
A kind of table 14: the optical index example including optical component according to the configuration of specific embodiment shown in Figure 18.
A kind of table 15: the zoom visual field including viewing matrix according to certain specific embodiment.
Specific embodiment
One limited yoke includes a Modularized optical component or modularization lens system, energy away from camera or microscope
A certain range of numerical aperture is enough provided, or by the numerical aperture of a variety of inductor breadth sizes, and there are zoom capabilities.
A kind of lens system according to certain specific embodiment can have advantageous etendue ability, the definition of etendue
For the product [Smith- contemporary optics designs, page 716] of pupil area and the solid angle of visual field.[etendue=π * A*
sin2θ] equation 1 [Bentley&Olson-lens design visual field guidance, page 120, this book is cited in full text], for having one
For the plane at a homogeneous solid angle, here, A is the area of the plane, and θ is the half of edge beam angle.
There is provided a kind of etendue is about 1.15mm2Sr or higher camera lens near field diffraction pattern limit optical design, this
Kind camera lens is configured to big enable full utilization, and a length-width ratio is about the 8MP sensor of 4:3.It provides a kind of using similar
Design, etendue is about 4.65mm2The near field diffraction pattern of sr limits optical system, and this system configuration about can be complete
Using length than be about 4:3 32MP sensor.A kind of near field diffraction pattern restriction optical design, it will usually in certain specific embodiment
In steyr rate can be more than 0.7,0.75,0.8,0.85 or 0.9, with near field diffraction pattern limit performance, herein I
Generally refer to a kind of limited yoke of steyr rate at least 0.8 away from optical component.In the specific embodiment of certain optical components,
Being provided with etendue is about 1.15 and 4.65mm2Lens system between sr has within the scope of the entire diagonal conjugate of equipment
The number or analog image of the various length-width ratios of the single sensing device of 4075-8194 obtain in equipment, these optical component quilts
It is configured to big enable and reaches sensor definition performance.These single sensing devices are commonly known as the pixel of digital camera.It introduces
A variety of specific embodiments and example, including etendue keep lens system, which includes an amplification factor variation
At least zoom ratio of 5.5:1, and etendue is in 1.45 and 4.65mm2sr.In general, there is similar big zoom
The conventional lenses system of range, greatest optical expand+open up numerical quantity and be in 0.237 and 0.55mm2Between sr.
According to the optical component of certain specific embodiment, zooming range is likely to be between 5.5:1 and 16:1.Fig. 5 A-5B
In, specific embodiment of the limited yoke away from camera or microscopical optical layout is illustrated by way of illustration.Limited yoke is away from optics
Component is generally used to the picture of display object, these objects are placed in the distance of 21x, 20x or 19x focal length less than optical component.
Limited yoke can form limited yoke away from camera together with imaging sensor away from optical component, or may pass through Naked with eyepiece
Eye checks object.Limited yoke may include one piece of screen, a processor, the memory for saving picture, one away from camera
For receiving and/or transmitting the wired and or wireless communications interface of image data.
Various specific embodiments have many positive focal length lens attachmentes, module 1, group G1A, and similar big visual field (FOV) is aobvious
Micro mirror eyepiece.These lens attachments allow to change operating distance, object numeric aperture values, visual field, and/or telecentricity horizontal.Respectively
Kind specific embodiment may also have a core zoom, without burnt module 2, and provide the zoom ratio between 5.5:1 and 16:1.Respectively
Kind specific embodiment may also have many positive focal length adapter tubes or rear attachment, module 3, group G5B, with casing camera lens phase
Seemingly.Adapter sleeves attachment can change size sensor range and sensor side numeric aperture values.
In Fig. 5 A-5B, core zoom modules of the limited yoke shown in Fig. 5 A-5B away from optical component, module 2 includes 5
A lens group G1B, G2, G3, G4, G5A.
The traditional optical component that Fig. 4 is indicated does not include a group G3.Group G3 may include a static or movable lens group.
Group G3 may include a positive or negative film lens group.Group G3 may include single-lens or two or more mirrors
Head.
A kind of specific embodiment of Fig. 6 representation module system has the multiple combinations of module 1,2 and 3.This modularization is set
Meter may include two or more modules or modular unit, in general can be separated with other modules individually repair or
Person's replacement or calibration.According to certain specific embodiment, sensor module may be comprised in imaging system.Other modules
Configuration may include a motorization module, lighting module, processing module, interface module, communication module or these modules
Combination.
In certain specific embodiments, aberration control is higher than in other specific embodiments, is conducive to system in this way
Modularization can preferably play a role.According to certain specific embodiment light optics system amplification factor they
High-amplification-factor point can be higher than 2 times.
Core zoom modules
Further embodiment without zoom lens group or module 2 or core zoom modules, may include or with
Other way is configured according to one or more in following characteristics.The no zoom lens are according to certain specific embodiments
It provides, these specific embodiments are configured to that pupil can be narrowed down to the smallest total movable length.Using these specific embodiments,
Optical aberration can thoroughly be controlled.These can preferably combine a variety of object lens and casing camera lens together, together with core
Heart zoom can provide optimal performance together.These improved integrated system performances have more greatly than previously provided
Aperture and visual field.More optical bandwidths can be generated by combining, in 1.15-4.65mm2It is right at sr emergent pupil
To pass through minimum etendue numerical value in low power zoom position indicate, for according to certain 8MP-32MP sensors that are respectively provided with
The optical system of specific embodiment configuration, at the greatest optical extension point of zoom lens.
First specific embodiment of the core zoom modules, including a 7:1 is without zoom lens component, in its low power
The etendue of position is about 1.57mm2sr.Specific embodiment as shown in Figure 7, including a positive group (G1B), a work
Dynamic negative film group (G2), a movable positive group (G3), movable negative film group (G4), a positive group (G5A).It is provided in table 2
According to numerical example of the specific embodiment.It include three kinds of arrangements in Fig. 7, including the low magnification cloth above picture
It sets, intermediate medium amplification factor arrangement and the nethermost high-amplification-factor arrangement of picture.
Second of specific embodiment of the core zoom modules, including a 7:1, without zoom lens component, low at it is put
Big multiple position etendue is about 1.54mm2sr.The specific embodiment as shown in Figure 8, including a positive group (G1B),
One movable negative film group (G2), a movable positive group (G3), movable negative film group (G4), a positive group (G5A).Table 3
In give a numerical example according to the specific embodiment.It include three kinds of arrangements in Fig. 8, including the low amplification above picture
Multiple arrangement, intermediate medium amplification factor arrangement and the nethermost high-amplification-factor arrangement of picture.
The third specific embodiment of the core zoom modules, including a 7:1 is without zoom lens component, in its low power
The etendue of position is about 1.58mm2sr.The specific embodiment as shown in Figure 9, including a positive group (G1B), one
Movable negative film group (G2), a movable negative film group (G3), movable negative film group (G4), a positive group (G5A).It is given in table 4
A numerical example according to the specific embodiment is gone out.It include three kinds of arrangements in Fig. 9, including the low magnification above picture
Arrangement, intermediate medium amplification factor arrangement and the nethermost high-amplification-factor arrangement of picture.
4th specific embodiment of the core zoom modules, including a 16:1 is without zoom lens component, in the low of it
The etendue of times position is about 1.58mm2sr.The specific embodiment as shown in Figure 10, including positive group (G1B), one
A activity negative film group (G2), a movable positive group (G3), movable negative film group (G4), a positive group (G5A).In table 5
Give a numerical example according to the specific embodiment.It include three kinds of arrangements in Figure 10, including the low amplification above picture
Multiple arrangement, intermediate medium amplification factor arrangement and the nethermost high-amplification-factor arrangement of picture.
5th specific embodiment of the core zoom modules includes a 6.2:1 without zoom lens component, in the low of it
The etendue of times position is about 2.88mm2sr.The specific embodiment as shown in Figure 11, including positive group (G1B), one
A activity negative film group (G2), a movable negative film group (G3), movable negative film group (G4), a positive group (G5A).In table 6
Give a numerical example according to the specific embodiment.It include three kinds of arrangements in Figure 11, including the low amplification above picture
Multiple arrangement, intermediate medium amplification factor arrangement and the nethermost high-amplification-factor arrangement of picture.
6th specific embodiment of the core zoom modules, including a 5.7:1 is without zoom lens component, in the low of it
The etendue of times position is about 4.62mm2sr.The specific embodiment as shown in Figure 12, including positive group (G1B), one
A activity negative film group (G2), a fixed positive group (G3), movable negative film group (G4), a positive group (G5A).In table 7
Give a numerical example according to the specific embodiment.It include three kinds of arrangements in Figure 12, including the low amplification above picture
Multiple arrangement, intermediate medium amplification factor arrangement and the nethermost high-amplification-factor arrangement of picture.
Another core zoom modules specific embodiment may include 5 optics groups, they have in Fig. 7-12 and
The similar general property of number in table 2-7.For example, another specific embodiment may also comprising a lens attachments group G1A and/
Or rear adapter group G5B, this specific embodiment or core is had as individual optical module or in a module
Zoom component.The various zoom ratios between 5.5:1 and 16:1 are provided with according to further embodiment and in 1.15 Hes
4.65mm2Etendue between sr.Further specific embodiment, may include in order to correct that other aberrations need compared with
Big diameter and longer optical path design, these aberrations design and/or the high zoom of larger magnifying power in high etendue
Exist in range.It may include other design features, such as every group of more optical elements to realize that near field diffraction pattern limits performance
Or non-spherical element, such as: in it may think that the other specific embodiments of variant for being particular embodiment described herein.
Further alternative specific embodiment can be used for three kinds of general packet types, that is to say, that 1 type (Static group of positive G1B, negative film activity group G2, the fixed group G3, static group of negative film activity group G4, positive G5A of positive), 2 types (Static group of G1B of positive、
Static group of negative film activity group G2, positive activity group G3, negative film activity group G4, positive G5A), 3 types (Static group of G1B of positive, negative film
Activity group G2, negative film activity group G3, static group of negative film activity group G4, positive G5A) because every kind of pattern can be aberration correction
Apparent benefit is provided with pupil compression.In various alternative specific embodiments, group G3 may include a positive or
Person's negative film activity group, or group G3 can be it is static.
In order to carry out optical correction to color difference well, no zoom lens group may be designed according to certain specific embodiments
Part.For given system wavelength and aperture, camera lens can be corrected, axial color separation is allowed to be less than or equal to the coke of light
It is deep, depth of focus equation, DOF=± λ/(2*NA are defined according to Rayleigh standard2) [Smith- contemporary optics design, page 715], it is right
In the wavelength of light, provided here according to 430-670nm.This is for according to certain specific embodiments, such as spreading range
Especially there is advantage for the zoom lens of 5.5X-16X.
When with according to certain specific embodiments modularization object lens and casing camera lens match clock synchronization, for covering visible light and close
The 430-1100nm wave band of infrared (NIR) spectrum, certain specific embodiments may be implemented, than axially dividing relative to 550nm wavelength
3,2, the 1 of color, or it is even also lower than the half of depth of focus.
In order to correct the color separation of 900-1700nm wave-length coverage or short-wave infrared light (SWIR), can be used described
The equipment adjustment of specific embodiment.
Similarly, the axial color separation of wavelength within this range, relative to 1200nm wavelength, alternative specific
In embodiment, depth of focus can achieve 3,2,1, or the half of even lower than depth of focus.
It is this in near-infrared and short-wave infrared light, axially discoloration makes user that identical camera lens system can be used for the low gradient
System, to check visible light and infrared light application.Identical as higher aperture, this increased wavelength focus ability provides collection
Related sample lives the additional capabilities ceased.Example is used as a kind of specific embodiment, this ability can use short wavelength's blue light pair
The piece surface of detailed inspection is needed to be checked, to continue to use or do not use any mechanical focus mechanism and/or soft
Part focuses formula, by near infrared light to subcutaneously studying.
It,, can according to certain specific embodiments when shooting similar microexamination image if be arranged using high-amplification-factor
To control the entire spectrum from 430nm to 1100nm lower than depth of focus.When being arranged in use to low magnification, according to certain tools
Body embodiment can correct minimum twice less than depth of focus of near infrared light.
In addition, providing in some advantageous specific embodiments and carrying out built-up time adjustment to the wavelength focal length of system.
This adjustment by suitable coated glass, advantageously provide herein the short-wave infrared wavelength (SWIR) that is mentioned from 900-
1700nm, while covering the zooming range extended according to certain specific embodiments.Entire spectrum in certain specific embodiments
It can be lower than depth of focus by wavelength calibration when using the setting of highest amplification factor in range.In certain specific embodiments,
From 975nm-1700nm, depth of focus can be less than in medium amplification factor position, be lower than 975m, 2 times of depth of focus can be less than.At certain
In a little specific embodiments, from 1065-1660nm, minimum amplification factor setting can be less than the depth of focus that axial color defocuses,
In short-wave infrared wave-length coverage, twice of the depth of focus other than these numerical value can be less than.
Lens attachments module
Lens attachments module G1A or other way are used for the further tool of the first object lens, preceding object lens or objective lens module
Body embodiment may include or be configured in other ways according to one or more in following characteristics.
In certain specific embodiments, provide there are many long reach, fixed focal length, the object with outer entrance pupil
Mirror.This entrance pupil can be placed in suitable depth, to meet enough pupil depths and moving range without zoom lens, to provide
The pupil to match with no zoom lens, therefore can be with the Focusing module seamless interfacing work that is configured according to certain specific embodiments
Make.In certain specific embodiments, object lens may have the entrance pupil of 16-25mm.This pupil may be placed in outside from camera lens
50,75,100,150mm or even farther distance.
It include the object lens of first 5 example indicated in a digital manner in table 8 using certain specific embodiments, it is mechanical
Operating distance (W.D.) and focal length (F1) ratio may be 0.75 or above (W.D./F1 > 0.75).Alternative specific implementation
The operating distance and focal distance ratio of example are likely to be between 0.6 to 0.75.Due to being conducive to cost or aspect of performance, one
The operating distance and focal distance ratio of a little specific embodiments might have other ratios.In certain specific embodiments, operating distance knot
Close big entrance pupil and provide apparent numerical aperture performance advantage for various long reach applications, these application include but
It is not limited to check route, contact probe head, cavity inspection, motor vehicle assembly and/or plate manufacture.
The example provided in table 8 includes lens attachments and/or the big object lens of operating distance/focal distance ratio and certain specific
50,75,100,150mm or the outer entrance pupil of more remote 16-25mm diameter in embodiment.
There may be an angle output according to the object lens of certain specific embodiments, the output of this angle combines the light of 16-25mm
Pupil shows 1.15-4.65mm together2The etendue of sr.
Other lens attachments and/or objective lens module example may include telecentric lens attachment, and main beam is certain specific
Entire visual field in embodiment and in entire zooming range and the deviation of planar object verticality less than 2 °, 1 °, 0.5 ° or
0.25°.According to the diminution of the numerical value example provided in the camera lens figure and/or table 2-7 provided in side view in Fig. 7-12
The pupil of no zoom lens supports the main beam angle in the lens attachments design according to certain specific embodiments to reduce.
Example each of of the limited yoke illustrated by way of illustration in Fig. 5 A, 5B and Fig. 6 away from optical component contains camera lens
Accessory module G1A example.Figure 17-18 illustrates the specific embodiment of alternative lens attachments module G1A by way of illustration.
Table 13-14 contains the optical index example of the lens attachments module G1A for Figure 17-18 respectively.
According to Rayleigh standard DOF=± λ/(2*NA2), in its being used together with one or more other module
Its lens attachments, since the nominal center wavelength of entire wave-length coverage, can using less than 3x, 2x or even less than 1x or
The lower depth of focus of person is poor, has the ability focused to 400nm-1100nm.
In addition, the camera lens being used together with one or more other module may match in certain specific embodiments
It is set to, according to from 900-1700nm near field diffraction pattern limited case, using being similar to 3x, 2x or even less than 1x or lower
The work of depth of focus difference, such as: in certain specific embodiments, do not need to reset focal length in wavelength band.
Adaptor module afterwards
The further embodiment of adapter G5B or casing camera lens, rear module or third module afterwards, may
Including one or more following characteristics.
In certain specific embodiments, a variety of short rear cokes, fixed focal length, casing camera lens are provided with external incident light pupil, foot
Enough big aperture and receiving angle, to generate 1.15-4.65mm2The etendue of sr.This entrance pupil may be at
Enough depths of focus, to meet the enough pupil depths and moving range without zoom lens module according to certain specific embodiments, with
The pupil to match with no zoom lens module is provided, therefore can be worked with Focusing module seamless interfacing.In certain specific implementations
In example, advantageous optimization is carried out deeply to pupil is changed, to provide advantageous rigidity with the use of independent casing camera lens.
According to the casing camera lens of certain specific embodiments, there can be a kind of entrance pupil diameter, in certain specific realities
It applies in example, the external incident light pupil casing camera lens being between 16-25mm.
Casing camera lens in certain specific embodiments, can be deep in 50,75,100,150mm, or bigger entrance pupil
Place without halation receives 2.5-3.5 ° of maximum collimation rink corner degree, can be so each given focal length, provide to existing
Sensor platform advantageous field covering.
Specific embodiment comprising the numerical value according to above-mentioned first and/or second example, the etendue provided
Numerical value is in 1.15-4.65mm2Between sr.Table 8 gives to select to meet 1.58mm2The etendue numerical quantity of sr changes
The numerical value of the specific embodiment of sensor coverage.Table 9 gives with short light path/focal distance ratio, and its 16-25mm diameter
Outer entrance pupil be placed in 50,75,100,150mm, it is or bigger apart from upper, and etendue is 1.58mm2Sr's is rear suitable
Certain Numerical examples of the specific embodiment of orchestration or casing camera lens.
In Figure 13, a casing camera lens example is illustrated by way of illustration, and casing camera lens can having according to Fig. 5 A-5B
The optical arrangement for limiting module 3 of the yoke away from optical component, can have 1.58mm2The etendue of sr has as listed in table 9
, the multiple instance variables of size A or focal length, size B or light path, size C or sensor to angular length.
In Fig. 5 A, 5B and Fig. 6, the limited yoke illustrated by way of illustration is away from optical component example, after each includes
Adaptor module G5B example.In Figure 14-16, illustrate that rear adaptor module G5B's is alternative specific by way of illustration
Embodiment.Optical index example in table 10-12, respectively containing the rear adaptor module G5B for Figure 14-16.
In certain specific embodiments, casing camera lens may have the track or light path smaller than the focal length of casing camera lens.Certain
The track or light path of a little specific embodiments, are determined from the mechanical inputs of casing camera lens to the focal plane of casing camera lens,
Especially when inputting collimated light beam.In other specific embodiments, the ratio of track or light path and focal length is likely less than 0.9.
In table 9, the parameter value including a kind of multiple examples according to these specific embodiments.In Figure 13, focal length is given with figure
Size A, light path size B, sensor specification C, these specific example numerical value, it is seen that multiple examples in table 9.
In addition, according to Rayleigh standard DOF=± λ/(2*NA2), it, can according to the casing camera lens of certain specific embodiments
Can be configured as can use less than 3x, 2x or be even less than having since the nominal center wavelength of entire wave-length coverage
1x or lower depth of focus are poor, the ability focused to 400nm-1100nm.
In addition, in certain specific embodiments, the camera lens may be configured to according to from 900-1700nm near field diffraction pattern
Limiting case is not needed in wavelength band using 3x, 2x or even less than 1x or the work of lower depth of focus difference is similar to
Reset focal length.
Although description and diagram has been carried out in drawing and specific embodiment of the invention, it will thus be appreciated that of the invention
Range is not limited to discussed particular specific embodiment.Therefore, specific embodiment should be considered as illustrative, rather than
It is restrictive, and it will be appreciated that those of ordinary skill produces those specifically under the premise of can not departing from the scope of the present invention
Modification in embodiment.
Such as: specific embodiment may include near field diffraction pattern limiting performance and various specific etendue numbers
Value is in 0.5-1,1-5 and/or 0.5-5mm2Lens assembly between sr, for limited yoke away from system.It is alternative specific
Embodiment, may include it is coherent appear between group G1A and G1B camera lens, the parallel pitch of different number.There are also be in group
Between G5A and G5B camera lens, the parallel pitch of different number.According to the lens attachments of certain alternative specific embodiments
Module may include one or more positives and/or negative film group.According to the rear adapter of certain alternative specific embodiments
Module may include one or obtain multiple positives or negative film group.
In addition, used by according to preferred specific embodiment herein, and in the method being described above,
Operation is described in selected typographical sequences.But the selected and arrangement of sequence is to typeset and print for convenience, not
Mean that any specific sequence will be had by executing operation, unless defining specific sequence or having in a certain technical field general
The personnel of logical skill may think that the specific sequence of needs.
In above-mentioned technical indicator, with conjunction " and " one group of project connecting, should not be construed as requiring in these projects
Each occur in a packet according to all specific embodiments, because of one or more group of Chengdu of various specific embodiments
It can mutually be replaced by one or more other specific embodiments.In addition, although project of the invention, element or component can
Can with odd number description or require, but its plural number also belong to the present invention consider within the scope of, unless having expressly provided to odd number
Limitation, or if needed a certain technical field have common skill personnel be expressly understood that.
In some cases, if there is the word and phrase of meaning of a word extension, such as " one or more ", " at least ", " but not office
It is limited to " or other phrases, if being then understood not to refer to means range shorter without such extension phrase.Use art
Language " camera ", " optical component ", " module " and " lens group " should not imply the portion described in implementation requirements or proposed
Part or functionality because a camera, component, module or lens group part be all that total whole fits together
's.In fact, any or all various parts (such as: optical module and imaging sensor) of a camera, optical module
(such as: module 1,2 and 3 and/or lens group G1, G1A, G1B, G2, G3, G4, G5, G5B, and/or G5B), a module and/or
One lens group can be combined using total, it is also possible to separated or maintenance, and may further or
Person is manufactured by multiple positions, assembled and/or is distributed.
The camera lens of the optical component of several specific embodiments may be manufactured using different materials.For example, it may be possible to also can
Using various glass and/or transparent plastic or polymeric material, it is not limited in optical index table example those of determining
Material, as determined in the column of 1 left side the 5th of table and in table 2-7 and the 4th and the 5th column on the left side table 10-14.Example includes poly-
Acid imide.Wherein, polymeric material be have refractive index be generally greater than 1.5 high refractive index polymer (HRIP) (see, e.g.:
Hung-Ju Yen and Guey-Sheng Liou (2010))." one kind be easy to get optical isotropy with a high refractive index,
Colourless, thermoplastic polyimide material method " J.Mater.Chem.20 (20): 4080;H.Althues,J.Henle
With S.Kaskel (2007)." the functional inorganic nanofiller for transparent polymer " chemistry association, the 9th edition (49):
1454—65;Akhmad Herman Yuwono,Binghai Liu,Junmin Xue,John Wang,Hendry Izaac
Elim, Wei Ji, Ying Li and Timothy John White (2004)." control transparent nano compound TiO2-PMMA's
Crystallinity and nonlinear optical properties " J.Mater.Chem.14 (20): 2978;Naoaki Suzuki,Yasuo Tomita,
Kentaroh Ohmori, Motohiko Hidaka and Katsumi Chikama (2006)." the height for volume hologram recording
Transparent Zirconium oxide nano grain dispersion acrylic photosensitive polymer ", 14 (26) of optics publication: 012712, by introducing simultaneously
Enter herein).
According to certain specific embodiments, in microscope and/or digital camera and/or video camera, it is also possible to include optics
Mentioned image stabilization techniques.Such as 8,649,628,8,649,627,8,417,055,8,351,726,8,264,576,8,212,
882,8,593,542,8,509,496,8,363,085,8,330,831,8,648,959,8,637,961,8,587,666,8,
604,663,8,521,017,8,508,652,8,358,925,8,264,576,8,199,222,8,135,184,8,184,
967, and the number of patent application 2012/0121243,2012/0207347,2012/0206618,2013/ that the U.S. announces
0258140,2013/0201392,2013/0077945,2013/0076919,2013/0070126,2012/0019613,
The technology introduced in 2012/0120283 and 2013/0075237 is it is also possible that with being incorporated herein by reference in this text.
In addition, the various specific embodiments herein proposed have given introducing in schematic diagram and other legends.It is obvious that
For a certain technical field have common skill personnel for after reading this paper, it is possible to implement given specific reality
Example and their various alternate examples are applied, not to the limitation of illustrated example.For example, schematic diagram and its appended explanation
It should not be construed as providing specific structure or configuration.
The various specific embodiments of optical module are described by technical specification and drawing and table legend.According into one
The microscope and digital camera and video camera of the specific embodiment of step and other mobile devices or laboratory equipment or research
Equipment or optical system may include optical component therein.Can include with several camera examples of high efficient production with according to this
The image sensor module that the optical component of specific embodiment described in text combines together.Certain optics of camera or optical module
Part, such as one or more camera lens, mirror surface and/or aperture, shutter, the shell for fixing certain optical element or lens barrel, mirror
Piece or lens barrel or other optical mirror slips, such as eyeglass, light source, aiding sensors, accelerometer, gyroscope, power supply connection, number
According to storage chip, microprocessor, it is wired or wireless transmit/receive connection and/or receiver/transmitter or shell centering and/or
Connecting pin or dimple or other this this class formation that may include in certain specific embodiments, even if they are not special here
Door is introduced or represents graphically out.It is worth noting that may include one fast in certain specific embodiments
Door, and other camera specific embodiments do not have shutter.It may contain in these camera specific embodiments or may not wrap
Containing flash memory.
In certain specific embodiments, it may be desirable to be obtained in another size in a size ratio obvious wider
Visual field, and may only wish to obtain wide visual field in a kind of size.In this case, some principles as described herein can
To be simplified as being applied on cylindrical surface provided spherical example.
In addition, all references and product of above-mentioned and following reference, background, abstract, table and chart it is brief
Illustrate, is all that detailed introduce in content is all included in as that can substitute specific embodiment by reference.Microscope, light
Several specific embodiments for learning component and camera are described by physics, electronics and optical texture mode herein, and
It is illustrated by way of illustration.In U.S. Patent number 7,224,056,7,683,468,7,936,062,7,935,568,7,
927,070,7,858,445,7,807,508,7,569,424,7,449,779,7,443,597,7,449,779,7,768,
574,7,593,636,7,566,853,7,858,445,7,936,062,9,091,843,9,316,808,8,005,268,8,
014,662,8,090,252,8,004,780,8,119,516,7,920,163,7,747,155,7,368,695,7,095,
054,6,888,168,6,844,991,6,583,444, and/or 5,882,221, and the number of patent application that the U.S. announces
2013/0270419,2013/0258140,2014/0028887,2014/0043525,2012/0063761,2011/
0317013,2011/0255182,2011/0274423,2010/0053407,2009/0212381,2009/0023249,
2008/0296717,2008/0099907,2008/0099900,2008/0029879,2007/0190747,2007/
0190691,2007/0145564,2007/0138644,2007/0096312,2007/0096311,2007/0096295,
2005/0095835,2005/0087861,2005/0085016,2005/0082654,2005/0082653,and/or 2005/
One or several combinations in 0067688, may introduce have include microscope within the scope of alternative specific embodiment,
Optical module, other features of camera and the specific embodiment of component.All these patents and the patent application announced all are
It is included into wherein by reference.
The U.S. Patent number 7,593,636,7,768,574,7,807,508 and 7,244,056 being included by reference
It describes to reduce the structure example that some camera apparatus of height in kind are electrically highly embedded within optical height.Alternative
Specific embodiment in, be provided with a kind of advantageous close-coupled optical module or module or its lens set, microscope and camera with
And video camera and other mobile devices and laboratory and research equipment.It is (or outer that advantageous low light path has been also provided herein
Shape size or height) light with effective focal length (either outer dimension perhaps height) ratio or advantageous TTL/EFL ratio
Learn component and microscope and imaging system and camera.
The same example for describing imaging system by quoting the US2013/0242080 being included into, including it is placed in waterproof
Optical component and sensor and camera model inside cabin.It additionally provides and is not related to internal having one or more image-forming blocks
Waterproof sealing shell, for optically and/or electrically and/or the mechanism of the wireless communication of image data.
Claims (150)
1. a limited yoke is away from camera or microscopical lens assembly, it is characterised in that: including a variable focus package, and can reach
1.15 and 4.65mm2The modular finite yoke of etendue is away from lens assembly between sr.
2. lens assembly according to claim 1, resolution capability should reach within the scope of whole image plane diagonal line can be with
Parse 4,075 to 8,194 pixels.
3. lens assembly according to claim 1, zoom ratio meets 5.5 < M1/M2 < 16 of equation.
4. lens assembly according to claim 1, wavelength calibration requires to answer compared with 550nm from 430-1100nm its depth of focus small
In 3.
5. lens assembly according to claim 1, from 900-1700nm, its depth of focus is answered compared with 1200nm for wavelength calibration requirement
Less than 3.
6. lens assembly according to claim 1, may be in face of object side, there are many fixed focus lens, with positive coke
Away from 16-25mm pupil specification.
It, may be in face of object side, there are many fixed focus lens, positive focal lengths 7. lens assembly according to claim 1
It is 50,75,100,150mm or more with pupil depth.
8. lens assembly according to claim 1, may in face of image or sensor side there are many fixed focus lens,
Its positive focal length and pupil depth are 16-25mm.
9. lens assembly according to claim 1, may in face of image or sensor side there are many fixed focus lens,
Its positive focal length and pupil depth are 50,75,100,150mm or more.
10. lens assembly according to claim 1, it includes one without zoom lens section.
11. lens assembly according to claim 1, aberration control is higher than in other specific embodiments, is conducive in this way
The modularization of system can more preferably play a role.
12. lens assembly according to claim 1, highest amplification factor is greater than 2.
13. lens assembly according to claim 1 may use other 2 or above module, including but not limited to
Lens attachments module, core zoom modules, rear adaptor module, motor-driven module, lighting module, sensor module, processing module,
Any combination of interface module or these modules.
14. a kind of limited yoke exists away from lens assembly without zoom lens component or second module or intermediate module, feature
In: its etendue is between 1.15 and 4.65mm2sr.
15. lens assembly according to claim 14, zoom ratio meets 5.5 < M1/M2 < 16 of equation.
16. lens assembly according to claim 14, zoom ratio 7: 1, etendue values 1.57mm2sr, with just
The fixed group G1B of piece, negative film activity group G2, positive activity group G3, negative film activity group G4 and the fixed group G5A of positive.
17. lens assembly according to claim 14, zoom ratio 7: 1, etendue values 1.54mm2sr, with just
The fixed group G1B of piece, negative film activity group G2, the fixed group G3 of positive, negative film activity group G4 and the fixed group G5A of positive.
18. lens assembly according to claim 14, zoom ratio 7: 1, etendue values 1.58mm2sr, with just
The fixed group G1B of piece, negative film activity group G2, negative film activity group G3, negative film activity group G4 and the fixed group G5A of positive.
19. lens assembly according to claim 14, zoom ratio 16: 1, etendue values 1.58mm2sr, with just
The fixed group G1B of piece, negative film activity group G2, positive activity group G3, negative film activity group G4 and the fixed group G5A of positive.
20. lens assembly according to claim 14, zoom ratio 6.2: 1, etendue values 2.88mm2sr have
The fixed group G1B of positive, negative film activity group G2, positive activity group G3, negative film activity group G4 and the fixed group G5A of positive.
21. lens assembly according to claim 14, zoom ratio 5.7: 1, etendue values 4.62mm2sr have
The fixed group G1B of positive, negative film activity group G2, the fixed group G3 of positive, negative film activity group G4 and the fixed group G5A of positive.
22. lens assembly according to claim 14, from 430-1100nm, its depth of focus is answered compared with 550nm for wavelength calibration requirement
Less than 3.
23. lens assembly according to claim 14, wavelength calibration is required compared with 1200nm from its depth of focus of 900-1700nm
It should be less than 3.
24. limited yoke has a positive fixed focal length away from the lens assembly attachment of lens assembly or first module, sufficiently large
Aperture and angle combinations, it is characterised in that: can provide the etendue of 1.15-4.65mm2sr.
25. lens assembly according to claim 24 may have 50,75,100,150mm or deeper external incident light
Pupil.
26. lens assembly according to claim 24 may have the entrance pupil of 16-25mm.
27. lens assembly according to claim 24 may have 0.75 or more operating distance/F1 ratio.
28. the relative angle of lens assembly according to claim 24, the telecentricity main beam object vertical with plane is greater than 2 °.
29. lens assembly according to claim 24 may be used in conjunction with other modules, provide wavelength calibration, with 550nm
It compares, from 430-1100nm depth of focus less than 3.
30. lens assembly according to claim 24 may be used in conjunction with other modules, provide wavelength calibration, with
1200nm is compared, from 900-1700nm depth of focus less than 3.
31. rear adapter or third module of the limited yoke away from lens assembly, there is a positive fixed focal length, sufficiently large hole
Diameter and angle combinations, it is characterised in that: can provide the etendue of 1.15-4.65mm2sr.
32. may have 50,75,100,150mm or deeper external incident light according to the lens assembly of claim 31
Pupil.
33. may have the entrance pupil of 16-25mm according to the lens assembly of claim 31.
34. may have the D3/F3 ratio less than 0.9 according to the lens assembly of claim 31.
35. from 430-1100nm, its depth of focus is answered compared with 550nm for wavelength calibration requirement according to the lens assembly of claim 31
Less than 3.
36. wavelength calibration requires compared with 1200nm from its depth of focus of 900-1700nm according to the lens assembly of claim 31
It should be less than 3;
M1 is the highest amplification factor of camera lens, and M2 is the minimum amplification factor of camera lens;
Depth of field definition is DOF=± λ/(2*NA2), wherein λ is wavelength, and NA is optical parameter numerical aperture;
It W.D. is the operating distance of lens attachments;
F1 is the focal length of preceding lens attachments;
D3 is the light path of rear adapter shown in figure X08;
F3 is the focal length of rear adapter.
37. a kind of limited yoke is away from optical module, for check perhaps check object or be used to other modules or camera lens,
Either lens group or other optical components are formed together or at least supplement to form a set of optical imaging system as part,
Be characterized in that: including a core zoom modules, zoom modules include five optics groups, are configured to that at least 7: 1 can be provided
Without zoom lens.
38. further comprising a lens attachments module according to the optical module of claim 37, which is placed in core zoom
The object side of module.
39. according to the optical module of claim 38, wherein lens attachments module includes a positive focal length lens group.
40. further comprising the rear adapter for being placed in core zoom modules image side according to the optical module of claim 38
Module.
41. according to the optical module of claim 40, wherein rear adaptor module includes a positive focal length lens group.
42. according to the optical module of claim 40, wherein rear adaptor module includes a casing camera lens.
43. according to the optical module of claim 37, wherein the etendue of optical module be 1.15-4.65mm2sr it
Between.
44. according to the optical module of claim 43, wherein optical module is configured to be used together with imaging sensor, image
Sensor is between 8MP and 32MP.
45. according to the optical module of claim 37, including, from the object side of optical module to figure side, one static group, a work
Dynamic group, a third group, another activity group and another static group.
46. according to the optical module of claim 45, wherein third group includes an activity group.
47. according to the optical module of claim 37, including, from the object side of optical module to figure side, a positive group, one it is negative
Piece group, a positive group, a negative film group and a positive group.
48. according to the optical module of claim 37, including, from the object side of optical module to figure side, static positive group, one
A negative film activity group, a positive activity group, a negative film activity group, a static positive group.
49. according to the optical module of claim 37,38 or 40 or other claims, including lighting module, one
The only combination of motor-driven module, a fixed module or one or more focus module or these modules.
50. there is the amplification factor of 2X or more than the 2X of high-amplification-factor position according to the optical module of claim 37
Amplification factor.
51. according to the optical module of claim 37, wherein etendue of the optical module at low magnification position is not
Lower than 1.57mm2sr.
52. according to the optical module of claim 51, wherein from the object side of optical module to figure side, core zoom modules include
One positive group, a movable negative film group, a movable positive group, a movable negative film group and a positive group.
53. according to the optical module of claim 52, wherein core zoom modules include a static positive group, negative film activity
Group, positive activity group, negative film activity group, static positive group.
54. according to the optical module of claim 37, wherein etendue of the optical module at low magnification position is not
Lower than 1.57mm2sr.
55. according to the optical module of claim 54, wherein from the object side of optical module to figure side, core zoom modules include
One positive group, a movable negative film group, a static positive group, a movable negative film group and a positive group.
56. according to the optical module of claim 55, wherein core zoom modules include a static positive group, a negative film
Activity group, static group, one negative film activity group of a positive, one static group of positive.
57. according to the optical module of claim 37, wherein etendue of the optical module at low magnification position is not
Lower than 1.58mm2sr。
58. according to the optical module of claim 57, wherein from the object side of optical module to figure side, core zoom modules include
One positive group, a movable negative film group, a movable negative film group, a movable negative film group and a positive group.
59. according to the optical module of claim 58, wherein core zoom modules include a static positive group, a negative film
Activity group, a negative film activity group, a negative film activity group, one static group of positive.
60. a kind of limited yoke is away from optical module, for check perhaps check object or be used to other modules or camera lens,
Either lens group or other optical components are formed together or at least supplement to form a set of optical imaging system as part,
Be characterized in that: including a core zoom modules, zoom modules include five optics groups, are configured to that at least 16: 1 can be provided
Without zoom lens.
61. further comprising a lens attachments module according to the optical module of claim 60, which is placed in core zoom
The object side of module.
62. according to the optical module of claim 61, wherein lens attachments module includes a positive focal length lens group.
63. further comprising the rear adapter for being placed in core zoom modules image side according to the optical module of claim 61
Module.
64. according to the optical module of claim 63, wherein rear adaptor module includes a positive focal length lens group.
65. according to the optical module of claim 63, wherein rear adaptor module includes a casing camera lens.
66. according to the optical module of claim 60, wherein the etendue of optical module is 1.15-4.65mm2Between sr.
67. according to the optical module of claim 66, wherein optical module is configured to be used together with imaging sensor, image
Sensor is between 8MP and 32MP.
68. according to the optical module of claim 60, from the object side of optical module to figure side, including one static group, a work
Dynamic group, a third group, another activity group and another static group.
69. according to the optical module of claim 68, wherein third group includes an activity group.
70. according to the optical module of claim 60, including, from the object side of optical module to figure side, a positive group, one it is negative
Piece group, a positive group, a negative film group and a positive group.
71. according to the optical module of claim 60, from the object side of optical module to figure side, including static positive group, one
A negative film activity group, a positive activity group, a negative film activity group, a static positive group.
72. according to the optical module of claim 60,61 or 63 or other claims, including lighting module, one
The only combination of motor-driven module, a fixed module or one or more focus module or these modules.
73. there is the amplification factor of 2X or more than the 2X of high-amplification-factor position according to the optical module of claim 60
Amplification factor.
74. a kind of limited yoke is away from optical module, for check perhaps check object or be used to other modules or camera lens,
Either lens group or other optical components are formed together or at least supplement to form a set of optical imaging system as part,
Be characterized in that: including a core zoom modules, zoom modules include five optics groups, are configured to that at least 6.2: 1 can be provided
Without zoom lens.
75. further comprising a lens attachments module according to the optical module of claim 74, which is placed in core zoom
The object side of module.
76. according to the optical module of claim 75, wherein lens attachments module includes a positive focal length lens group.
77. further comprising the rear adapter for being placed in core zoom modules image side according to the optical module of claim 74
Module.
78. according to the optical module of claim 77, wherein rear adaptor module includes a positive focal length lens group.
79. according to the optical module of claim 77, wherein rear adaptor module includes a casing camera lens.
80. wherein the etendue of optical module is not less than 2.88mm2sr according to the optical module of claim 74.
81. according to the optical module of claim 74, including, from the object side of optical module to figure side, one static group, a work
Dynamic group, a third group, another activity group and another static group.
82. according to the optical module of claim 81, wherein third group includes an activity group.
83. according to the optical module of claim 74, including, from the object side of optical module to figure side, a positive group, one it is negative
Piece group, a negative film group, a negative film group and a positive group.
84. according to the optical module of claim 74, from the object side of optical module to figure side, including static positive group, one
A negative film activity group, a negative film activity group, a negative film activity group, a static positive group.
85. according to the optical module of claim 74,75 or 77 or other claims, including lighting module, one
The only combination of motor-driven module, a fixed module or one or more focus module or these modules.
86. there is the amplification factor of 2X or more than the 2X of high-amplification-factor position according to the optical module of claim 74
Amplification factor.
87. a kind of limited yoke is away from optical module, for check perhaps check object or be used to other modules or camera lens,
Either lens group or other optical components are formed together or at least supplement to form a set of optical imaging system as part,
Be characterized in that: including a core zoom modules, zoom modules include five optics groups, are configured to that at least 5.7: 1 can be provided
Without zoom lens.
88. further comprising a lens attachments module according to the optical module of claim 87, which is placed in core zoom
The object side of module.
89. according to the optical module of claim 88, wherein lens attachments module includes a positive focal length lens group.
90. further comprising the rear adapter for being placed in core zoom modules image side according to the optical module of claim 87
Module.
91. according to the optical module of claim 90, wherein rear adaptor module includes a positive focal length lens group.
92. according to the optical module of claim 90, wherein rear adaptor module includes a casing camera lens.
93. wherein the etendue of optical module is not less than 4.62mm2sr according to the optical module of claim 87.
94. according to the optical module of claim 87, including, from the object side of optical module to figure side, one static group, a work
Dynamic group, another static group, another activity group and another static group.
95. according to the optical module of claim 87, including, from the object side of optical module to figure side, a positive group, one it is negative
Piece group, a positive group, a negative film group and a positive group.
96. according to the optical module of claim 87, including, from the object side of optical module to figure side, static positive group, one
A negative film activity group, static group, one negative film activity group of a positive, a static positive group.
97. according to the optical module of claim 87,88 or 90 or other claims, including lighting module, one
The only combination of motor-driven module, a fixed module or one or more focus module or these modules.
98. there is the amplification factor of 2X or more than the 2X of high-amplification-factor position according to the optical module of claim 87
Amplification factor.
99. a kind of limited yoke is away from optical module, for check perhaps check object or be used to other modules or camera lens,
Either lens group or other optical components are formed together or at least supplement to form a set of optical imaging system as part,
Be characterized in that: including a core zoom modules, zoom modules include five optics groups, are configured to that at least 5.5: 1 can be provided
Without zoom lens.
100. a lens attachments according to the optical module of claim 99, including one on the object side of core zoom modules
There is adapter group, or both after group or one on the image side of core zoom modules.
101. according to the optical module of claim 99, wherein five optics groups are configured to provide 5.5: 1 and 16: 1 without coke
Camera lens.
102. according to the optical module of claim 99, wherein the etendue numerical quantity of optical module is 1.15-4.65mm2sr
Between.
103. according to the optical module of claim 99, including, from the object side of optical module to figure side, static group an of positive,
One negative film activity group, a third group, a negative film activity group, a static positive group.
104. according to the optical module of claim 99, wherein third group includes an activity group.
105. 04 optical module according to claim 1, wherein third group includes a negative film group.
106. wherein optical module is less than 3X axial direction color separation DOF according to the optical module of claim 99.
107. wherein optical module is less than 2X axial direction color separation DOF according to the optical module of claim 99.
108. wherein optical module is less than 1X axial direction color separation DOF according to the optical module of claim 99.
109. wherein optical module is less than 0.5X axial direction color separation DOF according to the optical module of claim 99.
110. wherein optical module is less than 3X axial direction color separation DOF according to the optical module of claim 99.
111. wherein optical module is less than 2X axial direction color separation DOF according to the optical module of claim 99.
112. wherein optical module is less than 1X axial direction color separation DOF according to the optical module of claim 99.
113. wherein optical module is less than 0.5X axial direction color separation DOF according to the optical module of claim 99.
114. a kind of perhaps check the limited yoke of object away from optical module or be used to and other modules or mirror for checking
Head or lens group or other optical components are formed together or at least supplement to form a set of optical imagery system as part
System, it is characterised in that: including a core zoom modules, zoom modules include five optics groups, are configured to provide about
The etendue being between 1.15mm2sr and 4.65mm2sr.
115. 14 optical module according to claim 1, wherein optical module is configured to be used together with imaging sensor, figure
As sensor is between 8MP and 32MP.
116. 14 optical module according to claim 1, including, from the object side of optical module to figure side, one static group, one
Activity group, a third group, another activity group and another static group.
117. 16 optical module according to claim 1, wherein third group includes an activity group.
118. 14 optical module according to claim 1, including, from the object side of optical module to figure side, a positive group, one
Negative film group, a positive group, a negative film group and a positive group.
119. 14 optical module according to claim 1, including, from the object side of optical module to figure side, a static positive group,
One negative film activity group, a third group, a negative film activity group, a static positive group.
120. 19 optical module according to claim 1, wherein third group includes a static positive group.
121. 19 optical module according to claim 1, wherein third group includes a movable positive group.
122. 19 optical module according to claim 1, wherein third group includes a movable negative film group.
123. 14 or 119 optical module according to claim 1, further comprises a lens attachments module, which is set
In the object side of core zoom modules.
124. 23 optical module according to claim 1, wherein lens attachments module includes a positive focal length lens group.
125. 23 optical module according to claim 1 further comprises the rear adaptation for being placed in core zoom modules image side
Device module.
126. 25 optical module according to claim 1, wherein rear adaptor module includes a positive focal length lens group.
127. 25 optical module according to claim 1, wherein rear adaptor module includes a casing camera lens.
128. 25 optical module according to claim 1, wherein the Streh1 ratio of optical module is at least 0.8.
129. 25 optical module according to claim 1, wherein the Streh1 ratio of optical module is at least 0.9.
130. 25 optical module according to claim 1, wherein the Streh1 ratio of optical module is at least 0.7.
131. 25 optical module according to claim 1, wherein the Streh1 ratio of optical module is at least 0.85.
132. 25 optical module according to claim 1, wherein the Streh1 ratio of optical module is at least 0.75.
133. 25 optical module according to claim 1, wherein optical module has near field diffraction pattern limiting performance.
134. 14,119 or 125 optical module according to claim 1, including a lighting module, motor-driven module, one
The combination of a fixed module or one or more focus module or these modules.
135. according to claim 1 14,119 perhaps 125 optical module with 2X amplification factor or in high-amplification-factor
Position 2X
Above amplification factor.
136. a limited yoke is away from camera, comprising:
Limited yoke described in any one is away from optical module in claim 37-135;
The imaging sensor being located on the optical module plane of delineation used to capture images;
Screen or interface for being communicated with outer screen, or both, for the image captured in image sensor.
137. 36 limited yoke is away from camera, including a digit microscope according to claim 1.
138. a limited yoke is away from camera, comprising:
Limited yoke described in any one is away from optical module in claim 37-135;
One eyepiece, positioning and configuration allow to see that optical module is formed by image by eyepiece.
139. 38 limited yoke is away from camera, including a microscope according to claim 1.
140. a limited yoke is away from camera, comprising:
Limited yoke described in any one is away from optical module in claim 1-36;
The imaging sensor being located on the optical module plane of delineation used to capture images;
Screen or interface for being communicated with outer screen, or both, for the image captured in image sensor.
141. according to claim 1 40 limited yoke away from camera, including a digit microscope.
142. 1 limited yokes are away from camera, comprising:
Limited yoke described in any one is away from optical module in claim 1-36;
One eyepiece, positioning and configuration allow to see that lens assembly is formed by image by eyepiece.
143. according to claim 1 42 limited yoke away from camera, including a microscope.
144. limited yokes according to claim 1 further comprise one be placed on the object side of zoom component away from lens assembly
Lens assembly component and one are placed in the rear adapter lens assembly of the image side of zoom component.
145. according to claim 1 44 lens assembly, wherein zoom component includes five lens groups, an including zoom three
Body, the activity group being placed on the either side of third group including two, and two be placed on the either side of zoom triplet are quiet
Only group.
146. according to claim 1 45 lens assembly, two of them activity group includes that negative film activity group and two include positive
Static group of static group.
147. according to claim 1 46 lens assembly, wherein third group include a positive activity group.
148. according to claim 1 46 lens assembly, wherein third group include a negative film activity group.
149. according to claim 1 46 lens assembly, wherein third group include one static group of positive.
150. according to claim 1 44 lens assembly, wherein lens attachments lens assembly and rear adapter lens assembly are each
It all include a positive still frame group.
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CN202110812719.5A CN113359285A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202110812315.6A CN113359283B (en) | 2017-01-26 | 2018-01-25 | High-optical-expansion modularized zoom lens for machine vision |
CN202211206587.2A CN115561887A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202110812278.9A CN113485004A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202110812741.XA CN113485005A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202110812685.XA CN113359284A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
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US201762451060P | 2017-01-26 | 2017-01-26 | |
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CN202110812741.XA Division CN113485005A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202211206587.2A Division CN115561887A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202110812315.6A Division CN113359283B (en) | 2017-01-26 | 2018-01-25 | High-optical-expansion modularized zoom lens for machine vision |
CN202110812719.5A Division CN113359285A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202110812685.XA Division CN113359284A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
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CN202110812315.6A Active CN113359283B (en) | 2017-01-26 | 2018-01-25 | High-optical-expansion modularized zoom lens for machine vision |
CN202110812278.9A Pending CN113485004A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN201810074685.2A Active CN110082895B (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
CN202110812741.XA Pending CN113485005A (en) | 2017-01-26 | 2018-01-25 | Modular zoom lens with high optical expansion for machine vision |
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CN202110812315.6A Active CN113359283B (en) | 2017-01-26 | 2018-01-25 | High-optical-expansion modularized zoom lens for machine vision |
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Also Published As
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CN113359285A (en) | 2021-09-07 |
CN113359283A (en) | 2021-09-07 |
CN113359283B (en) | 2023-08-15 |
CN113485004A (en) | 2021-10-08 |
CN110082895B (en) | 2021-11-19 |
CN113359284A (en) | 2021-09-07 |
CN115561887A (en) | 2023-01-03 |
CN113485005A (en) | 2021-10-08 |
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