CN208921614U - A kind of novel microscopical imaging spectrometer transmitance detector - Google Patents

Abstract

The utility model discloses a kind of novel microscopical imaging spectrometer transmitance detectors, including including light source, the first optical fiber connecting with light source, achromatism collimating optics mould group, reflecting optics, aperture, objective table, tested article, prism, camera lens, camera, spectrum acquisition port, the second optical fiber, spectrometer, data converter, the data processor connecting with spectrum acquisition port；Light hole is provided on the objective table.The utility model can eliminate the color difference in original light source light, while the primary light of diverging is made light uniformization after treatment, become directional light, in addition, the utility model has used objective table, conveniently find the position for wanting measurement accurately.

Description

A kind of novel microscopical imaging spectrometer transmitance detector

Technical field

The utility model relates to optical mirror slip testing equipment field, in particular to a kind of novel microscopical imaging spectrometer transmitance detection Instrument.

Background technique

Transmitance is to regard the important indicator of object clarity, and characterize the important indicator of the optical property of dielectric material, institute It is whether qualified come the optical property for judging dielectric material by needing to detect transmitance and setting suitable quality testing standard with producer. Transmissivity measurement instrument in the prior art, above due to its lighting source, photographing module also above, is unfavorable for hot spot in this way Point and tested article clearly appear from image simultaneously, while being also just unfavorable for finding accurately in the center and hot spot point of tested article Heart position does not carry out chromatic aberration correction to light, so testing result is deposited in addition, incident light source has only used a light bulb A possibility that not accurate.

Utility model content

In order to overcome the drawbacks described above of the prior art, the utility model provides a kind of novel microscopical imaging spectrometer transmitance detection Instrument, which can eliminate the color difference in original light source light, while make light uniform after treatment the primary light of diverging Change, become directional light, in addition, the utility model has used objective table, conveniently finds the position for wanting measurement accurately.

The utility model solves technical solution used by the problems of the prior art are as follows: a kind of novel microscopical imaging spectrometer transmission Rate detector, including light source, the first optical fiber being connect with light source, achromatism collimating optics mould group, reflecting optics, aperture, load Object platform, tested article, prism, camera lens, camera, spectrum acquisition port, the second optical fiber, the spectrum being connect with spectrum acquisition port Instrument, data converter, data processor；Light hole is provided on the objective table；

The light that the light source issues enters achromatism collimating optics mould group after the first optical fiber, through achromatism directional light It learns the light projected after mould group to be reflected vertically upward by reflecting optics, reaches aperture, the light is through the light hole on objective table Tested article is penetrated afterwards, and the light of the transmission reaches prism vertically upward, at this point, a part of light passes through prism horizontal refraction to the left Spectrometer is connected to spectrum acquisition mouth end, then by the second optical fiber, and another part light then penetrates prism and goes directly camera lens and to tested Article is focused, and subsequently into camera imaging, the data converter will summarize the data-interface of spectrometer and camera, and will Uniform data is output to data processor.

As a preferred embodiment of the present invention, the achromatism collimating optics mould group include the first lens, the second lens, The third lens can carry out the correction of light color difference to incident ray using achromatism light mould group, while can carry out to light It focuses.

As a preferred embodiment of the present invention, the reflecting optics are penetrated relative to through the achromatism collimating optics mould group Light out is in 45 degree of placements, in order to allow light to reflect vertically upward.

As a preferred embodiment of the present invention, it is big can to replace it at any time according to tested article type for the aperture It is small.

As a preferred embodiment of the present invention, the objective table can be mobile with the direction XY along the horizontal plane, conveniently find accurately by Survey the position of article and luminous point.

As a preferred embodiment of the present invention, the prism is placed relative to the light through tested article in 45 degree, In order to allow light horizontal refraction to the left to spectrometer.

As a preferred embodiment of the present invention, headlamp is installed by the tested article, can allows the hot spot point of light Image is clearly appeared from simultaneously with tested article, while being more advantageous to the centre bit of the center for finding tested article accurately and hot spot point It sets.

As a preferred embodiment of the present invention, the camera lens is adjustable focus, because camera lens has focusing function, Not by the thickness effect of tested article, camera lens can be transferred through focusing blur-free imaging.

Compared with prior art, the utility model has following technical effect that

The utility model proposes a kind of novel microscopical imaging spectrometer transmitance detector, by increasing achromatism collimating optics Mould group can eliminate the color difference in original light source light, simultaneously because the light that original transmitted light source emits all is diverging, and And it is uneven, light uniformization can be made after handling by achromatism collimating optics mould group, become directional light, finally embody The result is that keeping detection data more acurrate.In addition, the lower section of tested article is arranged in the light source of the utility model, be conducive to hot spot Image is clearly presented in point and tested article simultaneously, while objective table can be moved along XY, it is possible to easily and fast Find the center of tested article and the center of hot spot point accurately.

Detailed description of the invention

Fig. 1 is a kind of structure chart of novel microscopical imaging spectrometer transmitance detector of the utility model；

Figure label: 1, light source；2, the first optical fiber；3, achromatism collimating optics mould group；4, reflecting optics；5, aperture； 6, objective table；7, tested article；8, headlamp；9, prism；10, camera lens；11, camera；12, spectrum acquisition port；13, second Optical fiber；14, spectrometer；15, data converter；16, data processor；31, the first eyeglass；32, the second eyeglass；33, third mirror Piece；61, clearance hole.

Specific embodiment

Specific embodiment of the present utility model is described further with reference to the accompanying drawing.It should be noted that The explanation of these embodiments is used to help to understand the utility model, but does not constitute the restriction to the utility model.This Outside, technical characteristic involved in the utility model embodiment disclosed below as long as they do not conflict with each other can To be combined with each other.

As shown in Figure 1, a kind of novel microscopical imaging spectrometer transmitance detector, including light source 1, the first light being connect with light source 1 Fine 2, achromatism collimating optics mould group 3, reflecting optics 4, aperture 5, objective table 6, tested article 7, prism 9, camera lens 10, camera 11, spectrum acquisition port 12, the second optical fiber 13 being connect with spectrum acquisition port 12, spectrometer 14, data converter 15, number According to processor 16；Light hole 61 is provided on the objective table 6；

The light that the light source 1 issues enters the first lens of achromatism collimating optics mould group 3 after the first optical fiber 2 31, the second lens 32 carry out light chromatic aberration correction, while being focused to light, then using the third lens 33 to light into Row parallel processing, the light projected after achromatism collimating optics mould group 3 are reflected vertically upward by reflecting optics 4, reach diaphragm Hole 5, the light come out from aperture penetrate tested article 7 after the light hole 61 on objective table 6.

The size of aperture 5 can replace the size of aperture 5, tested article 7 at any time according to 7 type of tested article herein It is placed on objective table 6, which finds the position of tested article 7 Yu luminous point accurately for convenience, can be planar along XY Direction is mobile.Such as need to measure the transmitance in the one of glass transparent hole of a mobile phone faceplate, it is parallel through achromatism first Optics module 3 issue hot spot point be it is fixed, tested article 7 is placed on objective table 6, since objective table 6 can be moved along the direction XY It is dynamic, then mobile phone faceplate can be moved to the position being overlapped with hot spot point by objective table 6 by we, in addition, in measured object Headlamp 8 is installed by product 7, plays illuminating effect.

Then the light for penetrating tested article 7 reaches prism 9 vertically upward, at this point, a part of light passes through prism 9 to the left Horizontal refraction is connected on spectrometer 14 to spectrum acquisition mouth end 12, then by the second optical fiber 13, and another part light then penetrates rib Mirror 9, which goes directly, camera lens 10 and to be focused tested article 7, and subsequently into camera imaging 11, the last data converter 15 will Summarize the data-interface of spectrometer 14 Yu camera 11, and uniform data is output to data processor 16.

Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (8)

1. a kind of novel microscopical imaging spectrometer transmitance detector, it is characterised in that: including light source, the first optical fiber being connect with light source, Achromatism collimating optics mould group, reflecting optics, aperture, objective table, tested article, prism, camera lens, camera, spectrum acquisition end Mouth, the second optical fiber, spectrometer, data converter, the data processor being connect with spectrum acquisition port；It is provided on the objective table Light hole；

The light that the light source issues enters achromatism collimating optics mould group after the first optical fiber, through achromatism collimating optics mould The light projected after group is reflected vertically upward by reflecting optics, reaches aperture, and the light is saturating after the light hole on objective table Tested article is crossed, the light of the transmission reaches prism vertically upward, and a part of light is connect by prism horizontal refraction to the left to spectrum Closing in end, then spectrometer is connected by the second optical fiber, another part light then penetrates the through camera lens of prism and carries out to tested article It focuses, subsequently into camera imaging, the data converter will summarize the data-interface of spectrometer and camera, and by uniform data It is output to data processor.

2. a kind of novel microscopical imaging spectrometer transmitance detector according to claim 1, it is characterised in that: the achromatism is flat Row optics module includes the first lens, the second lens, the third lens.

3. a kind of novel microscopical imaging spectrometer transmitance detector according to claim 1, it is characterised in that: the reflecting optics Relative to the light projected through the achromatism collimating optics mould group in 45 degree of placements.

4. a kind of novel microscopical imaging spectrometer transmitance detector according to claim 1, it is characterised in that: the aperture can Replacement.

5. a kind of novel microscopical imaging spectrometer transmitance detector according to claim 1, it is characterised in that: the objective table can It is mobile with the direction XY along the horizontal plane.

6. a kind of novel microscopical imaging spectrometer transmitance detector according to claim 1, it is characterised in that: the prism is opposite In the light through tested article in 45 degree of placements.

7. a kind of novel microscopical imaging spectrometer transmitance detector according to claim 1, it is characterised in that: the tested article Side is equipped with headlamp.

8. a kind of novel microscopical imaging spectrometer transmitance detector according to claim 1, it is characterised in that: the camera lens is can Focusing.