CN204462523U - A kind of without CaF 22 times of SLWD flat field apochromatism metering microcobjectives - Google Patents
A kind of without CaF 22 times of SLWD flat field apochromatism metering microcobjectives Download PDFInfo
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- CN204462523U CN204462523U CN201420865735.6U CN201420865735U CN204462523U CN 204462523 U CN204462523 U CN 204462523U CN 201420865735 U CN201420865735 U CN 201420865735U CN 204462523 U CN204462523 U CN 204462523U
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Abstract
The utility model discloses a kind of without CaF
22 times of SLWD flat field apochromatism metering microcobjectives, by 5 not containing CaF
2the convex lens made of optical glass material and concavees lens be divided into 3 light groups and form, and each lens and object plane central coaxial, put in order as first convex lens, second concave lens, the 3rd convex lens, the 4th concavees lens, the 5th concave lens, object plane from left to right; Object plane by optical system imaging in unlimited distance.The advantage of these object lens is: 1. not containing CaF
2low power metering microcobjective, reaches flat field apochromatism effect; 2. ultra-large vision field, SLWD; 3. overlength parfocalization distance; 4. full photonic glass is formed, and cost performance is high.
Description
Technical field
The utility model relates to microcobjective, specifically a kind of without CaF
22 times of SLWD flat field apochromatism metering microcobjectives.
Background technology
Microcobjective is the most important parts of measuring microscope, and the height of its image quality directly affects the performance of measuring microscope.Flat field apochromatic micro objective is as best in quality, that class is the highest microcobjective.For to correct elementary axial chromatic aberration and second order spectrum simultaneously in object lens, traditional way in part positive lens, introduces optical crystal, as calcium fluoride CaF
2deng as manufactured materials, but this special optical material yield is few, more crisp, physicochemical property is unstable, and large-sized material is more difficult to obtain.In recent years, someone uses special glass (as TF
3) substitute or Some substitute CaF
2manufacture and design flat field apochromatic objective, show superiority reducing costs and improve in manufacturability, caused utility model people and this work is in depth studied further, finally design a kind of without CaF
22 times of SLWD flat field apochromatism metering microcobjectives.It is worthy of note, along with modern science and technology progress, measuring technology and instrument industrial circle application in increasingly extensive, require that the operating distance measuring microcobjective is more and more longer, the microcobjective structure of metering becomes increasingly complex, three rich companies of international famous brand Japan go with the tide of historical development, the object lens of the release overlength that takes the lead in parfocalization distance=95mm; The microcobjective of 95mm parfocalization distance has become so far overlength parfocalization distance new standard in the world.This defines and makes metering microcobjective achieve SLWD (as three rich 100 ×/0.7, W.D.=6mm).These object lens are exactly that utility model people is based on the low power objective of 95mm parfocalization apart from the complete metering microcobjective of SLWD flat field apochromatism of research and development.
Utility model content
The purpose of this utility model is to provide one both ultra-large vision field, overlength parfocalization distances, again cost performance high without CaF
22 times of SLWD flat field apochromatism metering microcobjectives.
The utility model is according to combined light focal power formula φ=φ
1+ φ
2-d φ
1φ
2(φ
1φ
2be respectively the focal power of light group 1,2, d is the distance between the second interarea of light group 1 and the first interarea of light group 2) the positive and negative group of long reach microcobjective being far separated " counter take the photograph far away " type can be determined, structural shape selects the camera lens of close structural as initial configuration thus, then by convergent-divergent, iteration optimization, finally obtain picture element excellent without CaF
22 times of SLWD flat field apochromatism metering microcobjectives.
The utility model is without CaF
22 times of SLWD flat field apochromatism metering microcobjectives, by 5 not containing CaF
2the convex lens made of optical glass material and concavees lens be divided into forward and backward 2 light groups and form, and each lens and object plane central coaxial, put in order as first convex lens, second concave lens, the 3rd concavees lens, the 4th convex lens, the 5th concave lens, object plane from left to right; Object plane by optical system imaging in unlimited distance.
In described 2 light groups, the 1st light group near image planes is the two gummed groups be made up of first convex lens and second concave lens, add the 3rd concavees lens of contiguity, the 2nd light group near object plane is the two gummed groups be made up of the 4th convex lens and the 5th concavees lens.
1st light group of the close image planes in described 2 light groups is far separated with near between the 2nd light group of object plane.
Distance from the summit of the 5th concavees lens to object plane is operating distance W.D..
Operating distance W.D.=30.93mm of the present utility model;
Enlargement ratio β=2 times (coordinating with f '=200mm tube lens);
Numerical aperture >=0.055; Aperture angle > 3.45 ° (image space φ 24mm);
Focal distance f '=100mm;
The evaluation of these object lens main performance is as follows: 1. show through geometrical aberration evaluation and PTZ3 tables of data contrast test, reflect that F, c light is brought at 0.707 ω intuitively to intersect at a point, value of chromatism PAC=0.00033, secondary light spectrum SAC=0.003521, being about and not correcting 7% of SAC ≈ 0.05mm, is correct reasonable; The spherochromatism of three kinds of wavelength is also less.2. flat field effect also quite satisfaction a: thatch ten thousand curvature of field (PTZ3)=-0.002504.3. visual limiting resolution N
max=153lp/mm, from Fig. 4, the MTF curve of this microcobjective and MTF data value, full filed MTF>=0.11, presses close to perfect optical system MTF line substantially.4. energy shared by full filed bright spot of view-field center is up to 97%.Its advantage is:
Not containing CaF
2low power metering microcobjective, reaches flat field apochromatism effect;
Ultra-large vision field, SLWD;
Cost performance is high;
Overlength parfocalization distance.
Accompanying drawing explanation
Fig. 1 is the utility model microcobjective structural representation;
Fig. 2 is the geometrical aberration evaluation map of the utility model microcobjective;
Fig. 3 is PTZ3 tables of data of the present utility model;
Fig. 4 is optical transfer function MTF curve map of the present utility model, table;
Fig. 5 is encircled energy distribution plan of the present utility model
Fig. 6 Japan three rich parfocalization distance=95mm complete metering microcobjective parameter list.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further elaborated.
As shown in Figure 1, the utility model is without CaF
22 times of SLWD flat field apochromatism metering microcobjectives, by 5 not containing CaF
2the convex lens made of optical glass material and concavees lens be divided into 3 groups of formations, and each lens and object plane central coaxial, scheduling is from left to right: first convex lens 1, second concave lens 2, the 3rd concavees lens 3, the 4th convex lens 4, the 5th concave lens 5, object plane 6; Object plane 6 by optical system imaging in unlimited distance.
In described 2 light groups: the 1st light group is the two gummed groups be made up of first convex lens and second concave lens, add the 3rd concavees lens of contiguity; 2nd light group is the two gummed groups be made up of the 4th convex lens and the 5th concavees lens, and the 1st light group is far separated with the 2nd light group, and its spacing is 31.8mm.
Fig. 2 is the geometrical aberration evaluation map of this microcobjective; Fig. 3 is the PTZ3 tables of data of these object lens; From Fig. 2 and Fig. 3, represent that F, c bring at 0.707 ω and intersect, value of chromatism PAC=0.000333; Second order spectrum SAC=0.003521 is smaller (being about 7% of non-corrected value), and 3 chromatic curve spacing are little also reflects this point.Flat field effect is quite satisfaction also: a thatch ten thousand curvature of field (PTZ3)=-0.002504.From Fig. 4,35, visual field MTF curves press close to the MTF of perfect optical system, and visual limiting resolution N
maxfull filed MTF>=0.11 during=153lp/mm.From Fig. 5, energy shared by full filed bright spot of view-field center is (when >=83%, then wave aberration≤λ/16) up to 97%, and the object lens picture element of visible the design is satisfactory.
Compared with Japan's three rich 2 times of object lens in Fig. 5, the object lens of the design are except operating distance is slightly shorter than three high yield product, and all the other performances and three product of getting bumper crops maintain an equal level.
Claims (4)
1. one kind without CaF
22 times of SLWD flat field apochromatism metering microcobjectives, comprise lens, it is characterized in that: by 5 not containing CaF
2the convex lens made of optical glass material and concavees lens be divided into forward and backward 2 light groups and form, and each lens and object plane central coaxial, put in order as first convex lens, second concave lens, the 3rd convex lens, the 4th concavees lens, the 5th concave lens, object plane from left to right; Object plane by optical system imaging in unlimited distance.
2. microcobjective according to claim 1, it is characterized in that: in described 2 light groups, the 1st light group near image planes is the two gummed groups be made up of first convex lens and second concave lens, add the 3rd concavees lens of contiguity, the 2nd light group near object plane is the two gummed groups be made up of the 4th convex lens and the 5th concavees lens.
3. microcobjective according to claim 2, is characterized in that: the 1st light group of the close image planes in described 2 light groups is far separated with near between the 2nd light group of object plane.
4. microcobjective according to claim 1, is characterized in that: the long reach W.D.=30.93mm of these object lens, enlargement ratio β=2 times, focal distance f '=100mm, numerical aperture NA=0.055, aperture angle ω=3.45 °; Parfocalization distance=95mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420865735.6U CN204462523U (en) | 2014-12-31 | 2014-12-31 | A kind of without CaF 22 times of SLWD flat field apochromatism metering microcobjectives |
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CN201420865735.6U CN204462523U (en) | 2014-12-31 | 2014-12-31 | A kind of without CaF 22 times of SLWD flat field apochromatism metering microcobjectives |
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CN204462523U true CN204462523U (en) | 2015-07-08 |
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ID=53669388
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CN201420865735.6U Expired - Fee Related CN204462523U (en) | 2014-12-31 | 2014-12-31 | A kind of without CaF 22 times of SLWD flat field apochromatism metering microcobjectives |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104536124A (en) * | 2014-12-31 | 2015-04-22 | 桂林电子科技大学 | Plan apochromatic measuring microobjective with 2* overlength working distance and without CaF2 |
-
2014
- 2014-12-31 CN CN201420865735.6U patent/CN204462523U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104536124A (en) * | 2014-12-31 | 2015-04-22 | 桂林电子科技大学 | Plan apochromatic measuring microobjective with 2* overlength working distance and without CaF2 |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150708 Termination date: 20151231 |
|
EXPY | Termination of patent right or utility model |