CN201218753Y

CN201218753Y - Brightness measurement apparatus

Info

Publication number: CN201218753Y
Application number: CNU2008201209989U
Authority: CN
Inventors: 牟同升
Original assignee: HANGZHOU ZHEDA THREE COLOR INSTRUMENT CO Ltd
Current assignee: HANGZHOU ZHEDA THREE COLOR INSTRUMENT CO Ltd
Priority date: 2008-07-07
Filing date: 2008-07-07
Publication date: 2009-04-08
Anticipated expiration: 2018-07-07

Abstract

The utility model relates to a light signal measurement device, more particularly a brightness measurement device, comprising an imaging device, a light measurement device and a connection seat for connecting the imaging device with the light measurement device; an exiting port of the imaging device is corresponding to an incidence point of the light measurement device, the imaging device comprises an imaging lens and an aperture diaphragm, the aperture diaphragm is located on a front focal plane of the imaging lens. The front focal plane of the imaging device is provided with the brightness measurement device having diaphragm, size of the diaphragm aperture is fit for size of pupil in human eyes, viewing angle in the process of measurement remains constant, hazard to retina can be accurately estimated and measurement for distinct viewing angles can be carried out.

Description

Brightness measuring device for camera

[affiliated technical field]

The utility model relates to a kind of light signal measurement mechanism, relates in particular to a kind of brightness measuring device for camera.

[background technology]

Along with the development of various higher source luminances, especially more and more general in the application of each side such as indication, demonstration and illumination as light emitting semiconductor device (LED), its optical radiation more and more attracts much attention the injury of human eye.Also there was corresponding standard that this harmfulness has been proposed grade separation evaluation requirement in recent years in the world.

In the photo bio safety test and evaluation of light source, require to measure the effective radiance on the human eye retina, in order to estimate the optical radiation security of measured light.Effective radiance on the human eye retina and the pupil size of human eye, retinal damage are relevant to the susceptibility of different wave length, the spectral characteristic of light source, the characteristics such as duration of eye-observation light source, the luminescence distribution on light source surface etc.

Existing brightness is in respect of luminometer, spectral radiance meter and brightness of image meter.These three kinds of nitometers all have the image optics lens, and the luminance signal of target is imaged onto on the corresponding photo detector part.The photodetector and the spectral radiance analyser of spectral luminous efficiency V (λ) function correction do not adopted in luminometer and spectral radiance score, the former can only read brightness value, can not obtain parameters such as radiance, and the latter can obtain to endanger corresponding effective radiance with human eye retina's light by computer software calculating.The brightness of image meter adopts the two-dimensional array photodetector to measure two-dimentional Luminance Distribution, can obtain two-dimentional brightness or spoke Luminance Distribution by before the two-dimensional array photodetector, adding spectral luminous efficiency V (λ) function optical filter and other special filter plate, but precision is not as good as luminometer and spectral radiance meter.

The weak point of existing instrument: the aperture of the diaphragm of nitometer is general bigger, and it doesn't matter for the size of the pupil of bore and human eye.For narrow light sources of beam distribution such as picture LED, cause measured value less than normal, underestimate the harmfulness of measured light.The field angle of apparatus measures is constant, but when the target of different distance measured, by focusing, variation had taken place in the effective aperture of instrument.The spectral radiance meter can only be measured the mean flow rate and the average effective radiance value of some zonules in addition, can't measure the effective radiance on some planes apace.And the brightness of image meter can't accurately be measured effective radiance of various light sources.

[summary of the invention]

The technical assignment of technical scheme to be solved in the utility model and proposition is to overcome above-mentioned shortcoming, provide a kind of front focal plane to be provided with the brightness measuring device for camera of diaphragm at imaging device, the size of the aperture of the diaphragm and eye pupil size adapt, field angle keeps constant in the measuring process, can accurately estimate retina harm, but also the brightness measuring device for camera that can measure different field angle.

The technical scheme that the prior art problem that solves the utility model is adopted is: brightness measuring device for camera, comprise imaging device, optical measurement instrument and the Connection Block that is used to connect imaging device and optical measurement instrument, the exit portal of described imaging device is corresponding with the entrance port of optical measurement instrument, it is characterized in that described imaging device comprises imaging lens and aperture diaphragm, aperture diaphragm is positioned on the front focal plane of imaging lens.Aperture diaphragm can be the light hole of a circle, and aperture diaphragm is positioned at the aperture diaphragm that can make measurement mechanism on the front focal plane of imaging lens and measures field angle and keeps constant, does not change the measuring accuracy height with measuring distance.Aperture diaphragm can be real also can be empty, when being real aperture diaphragm, aperture diaphragm is to be positioned at the diaphragm that has circular light hole on the front focal plane of imaging lens; When void is aperture diaphragm, aperture diaphragm is to be positioned in the middle of the imaging lens (can be a slice lens or multi-disc lens) or the diaphragm that has circular light hole of rear side, this diaphragm is imaged on the front focus place of imaging lens through imaging lens, makes the front focus place produce the effect of placing the entity diaphragm.Certainly produce the mode of placing entity diaphragm effect at the front focus place and be not limited to above-mentioned dual mode.Optical measurement instrument can be a two-dimensional array tester with two-dimensional array sensitive detection parts (as CCD, CMOS), or a spectral radiance analyser, or photometer, or the combination of multiple optical measurement instrument.

As the further of technique scheme improved and replenish, the utility model adopts following technical measures: the light hole on the described aperture diaphragm is the circular light hole of a variable aperture.The circular light hole of variable aperture can be a continuously adjustable adjustable diaphragm of the aperture of the diaphragm, or the light barrier with the light hole in a plurality of different apertures, by switching the aperture of light hole change aperture diaphragm.The aperture of aperture diaphragm is variable to help enlarging suitable test specification, especially is fit to measure uneven light.

Light hole is that diameter is the circular light hole of 7mm on the described aperture diaphragm.Diameter is the aperture diaphragm simulation human eye maximum pupil diameter of 7mm, is suitable for the measurement of the effective radiance of human eye retina, the measuring accuracy height, and also lower to the requirement of light source, measure highly sensitive.

Described optical measurement instrument comprises beam splitter, image light electric detection device and spectral measurement device, at least be provided with an entrance port and two exit portals on the described beam splitter, entrance port on this beam splitter is corresponding with imaging device, and first exit portal on this beam splitter is corresponding with the entrance port of spectral measurement device, second exit portal and image light electric detection device are corresponding.The image light electric detection device here can be the two dimensional image Electro-Optical Sensor Set, measure same zone simultaneously with two dimensional image Electro-Optical Sensor Set and spectral measurement device, there is relevance in the measured value of two dimensional image Electro-Optical Sensor Set and spectral measurement device, can revise the light measurement value that the two dimensional image Electro-Optical Sensor Set records according to the spectral measurement device measured value, make measurement result accurate, improved measuring accuracy.Measure different effective spoke brightness, endanger effective spoke brightness as the retina blue light, the effective spoke brightness of retina heat harm etc. only need the different measured value of application of spectral measurement mechanism to revise the light measurement value that the two dimensional image Electro-Optical Sensor Set records, and make measurement result accurate.The photodetector that the two dimensional image Electro-Optical Sensor Set refers on it is planar array detector (as the photoelectric sensor in the digital camera), can the whole lip-deep two-dimentional Luminance Distribution of disposable test light source, use more convenient, quicker.Spectral measurement device can be measured the spectral signal of different wave length according to actual needs simultaneously, can effectively avoid measuring the error that produces at different time, has improved measuring accuracy, but also convenient, fast.

Described spectral measurement device comprise optical pickup apparatus, with optical pickup apparatus on the corresponding spectral radiance analyser of an optical emission exit, entrance port on the described optical pickup apparatus is corresponding with the exit portal of beam splitter, and the exit portal of optical pickup apparatus has one or more.Optical pickup apparatus can be a mixed light integrating sphere or for optical fiber or for light conducting cylinder or for diaphragm, also has other devices that other may receiving optical signals certainly, and the utility model is not got rid of yet.The exit portal of optical pickup apparatus has one or more, and one of them exit portal is corresponding with the spectral radiance analyser, and other exit portal can connect other equipment that may be applied to this instrument.

Be provided with light filter between described beam splitter and the image light electric detection device.Light filter can be a tablet filter, or the multiple optical filters stack, or a color filter wheel that includes a plurality of optical filters, and the zones of different of color filter wheel is equipped with different optical filters.Light filter be provided with the test specification that is beneficial to the expanded images Electro-Optical Sensor Set.

Described beam splitter is an Amici prism, which is provided with three exit portals, a side relative with spectral measurement device at beam splitter is provided with alignment device, this alignment device is concave mirror or is the combination of imaging len and plane mirror that it is corresponding with the 3rd exit portal on the beam splitter.Amici prism (being the Amici prism of a part transmission, partial reflection) is easy to use, the measuring accuracy height.Alignment device can be the combination of concave mirror or imaging len and plane mirror, two corresponding with image light electric detection device and spectral measurement device respectively exit portals of beam splitter lay respectively at the object plane and the image planes of alignment device, and are the relation (being mainly used in the consistance of determining measured zone) of one times of size between the thing of latter two exit portal of process alignment device and the picture.Alignment device be provided with the zone that overlaps with the test zone of spectral measurement device in the test zone that is beneficial to the indicating image Electro-Optical Sensor Set.

Described optical pickup apparatus is installed on the position adjustments seat.The position adjustments seat can be a two-dimension translational platform, or the combination of two one dimension translation stages, or an one dimension translation stage.The position adjustments seat can be along a parallel plane plane translation in the first exit portal place with beam splitter.The spectral response in each pixel of the 2 D photoelectric device on the two dimensional image Electro-Optical Sensor Set or zone may there are differences, only need the spectral response data in each pixel or zone are measured, be stored in the computing machine, the spectral distribution data that the utility model can utilize spectral measurement device to record are carried out correction calculation respectively; Being provided with of position adjustments seat can make spectral measurement device that the measured value in each pixel on the optical input device image planes or zone is revised.

Described optical pickup apparatus comprises optical fibre ring and lighting source, core fibre and outsourcing optical fibre ring in the receiving end of described optical fibre ring comprises, and described interior core fibre is connected with the spectral radiance analyser, and described outsourcing optical fibre ring is connected with lighting source.Being provided with of optical fibre ring is beneficial to the test zone of indicating spectral measurement device.Wherein, interior core fibre is sent to the spectral radiance analyser with image-forming information, and the outsourcing optical fibre ring receives the illumination of lighting source, by light separator and alignment device, the outsourcing optical fibre ring is imaged onto definite measurement range on the image light electric detection device.

The receiving port regulator that is used to change the receiving port size is installed on the described optical pickup apparatus.The receiving port regulator can be an adjustable diaphragm, by changing the receiving port size that the aperture of the diaphragm changes optical pickup apparatus; Or imaging optic element such as imaging len, concave mirror, the receiving port of optical pickup apparatus is the actual entrance port process imaging optic element imaging of optical pickup apparatus, changes the size of receiving port by the imaging multiplying power that changes imaging optic element.

The marked improvement that the utlity model has:

1, aperture diaphragm is arranged at the front focal plane of imaging device, is used for limiting the test visual field, and the restriction receiving aperture improves measuring accuracy;

2, utilize spectral radiance analyser and two dimensional image Electro-Optical Sensor Set to measure simultaneously, both test datas combine and can calculate effective radiance distribution of measurement target, and find out effective radiance value of maximum harm;

3, the light-receiving mouth of optical pickup apparatus is variable, simultaneously, can be by selecting the pixel on the 2 D photoelectric sniffer, select the test visual field, and the pixel on the 2 D photoelectric sniffer is many, and it is big to measure the field angle scope, can measure effective radiance under the different field angle simultaneously, easy to operate, the measuring accuracy height;

4, to measure different optical physics amounts, as brightness, chromatic value, noctovision brightness, the effective blue light brightness of retina or the like, only needing to use corresponding tables of data just calculates and can obtain, convenient, fast, high precision two-dimentional light intensity distributions number and the spectroscopic data of measuring;

5, the difference of the spectral response in each pixel of X-Y scheme image planes electrooptical device or zone, only need the spectral response data in each pixel or zone are measured, be stored in the computing machine, the utility model can utilize the spectral distribution data of spectrometer measurement to distinguish correction calculation, obtains high measuring accuracy.

[description of drawings]

Fig. 1 is a kind of structural representation of the present utility model;

Fig. 2 is the structural representation of the aperture diaphragm of 7mm for a kind of clear aperature in the utility model;

Fig. 3 is the structural representation of the continuously adjustable aperture diaphragm of a kind of clear aperature in the utility model;

Fig. 4 is the structural representation of the variable aperture diaphragm of a kind of light hole in the utility model;

Fig. 5 is a kind of structural representation of the present utility model;

Fig. 6 is a kind of structural representation of the present utility model;

Fig. 7 is a kind of structural representation of the present utility model;

Fig. 8 is a kind of structural representation of the present utility model;

Among the figure: 1. imaging device, 1-1. imaging lens, 1-2. aperture diaphragm, 2. optical measurement instrument, 2-1. beam splitter, 2-2. image light electric detection device, 2-3. spectral measurement device, 2-31. optical pickup apparatus, 2-32. spectral radiance analyser, 3, Connection Block, 3-1. pedestal, 3-2. guide rail, 3-3. slide block, 3-4. drive screw, 4. light filter, 5. alignment device, 6. lighting source, 7. receiving port regulator.

[embodiment]

Below in conjunction with the drawings and specific embodiments the utility model is further described.

Embodiment 1: brightness measuring device for camera, as shown in Figure 1, it comprises imaging device 1, optical measurement instrument 2 and the Connection Block 3 that is used to connect imaging device 1 and optical measurement instrument 2, the exit portal of imaging device 1 is corresponding with the entrance port of optical measurement instrument 2, imaging device 1 comprises imaging lens 1-1 and aperture diaphragm 1-2, aperture diaphragm 1-2 be positioned on the front focal plane of imaging lens 1-1 (aperture diaphragm 1-2 can be real also can be empty, partly do concrete description at summary of the invention, this not superfluous telling).

During use, utilize imaging device 1 that measured light is imaged onto optical measurement instrument, utilize the optical measurement instrument test to obtain the parameters such as brightness, spoke brightness of measured light.

Aperture diaphragm 1-2 in the illustrated example can be the circular light hole of diameter 7mm shown in Figure 2, or the circular light hole of a variable aperture, be a continuously adjustable aperture diaphragm of clear aperature as shown in Figure 3, or by changing light barrier relative position change light hole size, so-called adjustable diaphragm, be the variable aperture diaphragm of a kind of light hole as shown in Figure 4, the light hole in a plurality of different apertures is set on a light barrier, mobile light barrier selects to use different light holes, thereby changes clear aperature.

Embodiment 2: brightness measuring device for camera, as shown in Figure 5, optical measurement instrument 2 comprises beam splitter 2-1, image light electric detection device 2-2 and spectral measurement device 2-3, at least be provided with an entrance port and two exit portals on the described beam splitter 2-1, entrance port on this beam splitter 2-1 is corresponding with imaging device 1, and first exit portal on this beam splitter 2-1 is corresponding with the entrance port of spectral measurement device 2-3, second exit portal and image light electric detection device 2-2 are corresponding.

Be provided with light filter 4 between beam splitter 2-1 and the image light electric detection device 2-2.Described spectral measurement device 2-3 comprise optical pickup apparatus 2-31, with optical pickup apparatus 2-31 on the corresponding spectral radiance analyser of an optical emission exit 2-32, entrance port on the described optical pickup apparatus 2-31 is corresponding with the exit portal of beam splitter 2-1, optical pickup apparatus 2-31 exit portal has one or more, except with the corresponding exit portal of spectral radiance analyser 2-32, other exit portals can be used to connect other possible instruments, make this brightness measuring device for camera function and measurement effect more perfect.Connection Block 3 in the example shown in Figure 5 comprises pedestal 3-1, be installed in the guide rail 3-2 on the pedestal 3-1, the slide block 3-3 that is slidingly connected with guide rail 3-2, and be installed in being used on the pedestal 3-1 and drive the drive screw 3-4 that slide block 3-3 moves, slide block 3-3 and pedestal 3-1 one of them and imaging device 1 are affixed, and another and optical measurement instrument 2 are affixed.That is to say that optical measurement instrument 2 is affixed with slide block 3-3, imaging device 1 is affixed with pedestal 3-1; Perhaps, optical measurement instrument 2 is affixed with pedestal 3-1, and imaging device 1 is fixedlyed connected with slide block 3-3.Beam splitter 2-1 is the Amici prism of a part transmission, partial reflection, and a side relative with spectral measurement device 2-3 at beam splitter 2-1 is provided with alignment device 5; In the example shown in Figure 5, alignment device 5 is a concave mirror, and alignment device 5 is over against the 3rd exit portal of beam splitter 2-1, alignment device 5 be provided for the zone that alignment image Electro-Optical Sensor Set 2-2 and spectral measurement device 2-3 measure.The light-receiving mouth of optical pickup apparatus 2-31 is imaged onto on the image light electric detection device 2-2 by beam splitter 2-1 and alignment device 5, thereby determines the consistance of measured zone.Optical pickup apparatus 2-31 in this example is an optical fiber; Image light electric detection device 2-2 is the two dimensional image Electro-Optical Sensor Set, it typically is the image light electric detection device of face battle arrays such as CCD, CMOS; A shade 8 is installed between imaging device 1 and optical measurement instrument 2, and shade 8 can be black sleeve or black case, is used for isolated external environment influence of light.All the other structures are with embodiment 1.

During use, utilizing imaging device 1 measured light to be imaged onto on two exit portals of beam splitter 2-1 is received and measures by image light electric detection device 2-2 and spectral measurement device 2-3 simultaneously, the test data of image light electric detection device 2-2 and spectral measurement device 2-3 all is input in the computing machine, utilizes the relevance of the test data of image light electric detection device 2-2 and spectral measurement device 2-3 to calculate parameters such as brightness, spoke brightness.

Embodiment 3: brightness measuring device for camera, as shown in Figure 6, optical pickup apparatus 2-31 is installed on the position adjustments seat 2-33, and the position adjustments seat 2-33 in the illustrated example is that a two-dimension translational platform is (same, the structure that this part is possible is partly made specific descriptions at summary of the invention, this not superfluous telling).All the other structures are with embodiment 2.

Embodiment 4: brightness measuring device for camera, as shown in Figure 7, receiving trap 2-3 1 comprises optical fibre ring and lighting source 6, core fibre and outsourcing optical fibre ring in the receiving end of optical fibre ring comprises, interior core fibre is connected with spectral radiance analyser 2-32, and the outsourcing optical fibre ring is connected with lighting source 6.All the other structures are with embodiment 2.

Embodiment 5: brightness measuring device for camera as shown in Figure 8, is equipped with the receiving port regulator 7 that is used to change the receiving port size on the optical pickup apparatus 2-31.The receiving port of optical pickup apparatus is actual entrance port process imaging optic element (the just the receiving port regulator 7) imaging of optical pickup apparatus, change the size of receiving port by the imaging multiplying power that changes imaging optic element, make the actual receiving port size adaptive testing demand that tells on, and corresponding with the corresponding test zone on the image light electric explorer.Receiving port regulator in the illustrated example is the lens barrel of a band imaging len, and the receiving port of optical fiber is imaged onto on the exit portal of beam splitter 2-1 through receiving port regulator 7.All the other structures are with embodiment 2.

Claims

1. brightness measuring device for camera, comprise imaging device (1), optical measurement instrument (2) and the Connection Block (3) that is used to connect imaging device (1) and optical measurement instrument (2), the exit portal of described imaging device (1) is corresponding with the entrance port of optical measurement instrument (2), it is characterized in that described imaging device (1) comprises imaging lens (1-1) and aperture diaphragm (1-2), aperture diaphragm (1-2) is positioned on the front focal plane of imaging lens (1-1).

2. brightness measuring device for camera according to claim 1 is characterized in that the light hole on the described aperture diaphragm (1-2) is the circular light hole of a variable aperture.

3. brightness measuring device for camera according to claim 1 is characterized in that it is that diameter is the circular light hole of 7mm that described aperture diaphragm (1-2) is gone up light hole.

4. according to claim 1 or 2 or 3 described brightness measuring device for camera, it is characterized in that described optical measurement instrument (2) comprises beam splitter (2-1), image light electric detection device (2-2) and spectral measurement device (2-3), at least be provided with an entrance port and two exit portals on the described beam splitter (2-1), entrance port on this beam splitter (2-1) is corresponding with imaging device (1), and first exit portal on this beam splitter (2-1) is corresponding with the entrance port of spectral measurement device (2-3), second exit portal is corresponding with image light electric detection device (2-2).

5. brightness measuring device for camera according to claim 4, it is characterized in that described spectral measurement device (2-3) comprise optical pickup apparatus (2-31), with optical pickup apparatus (2-31) on the corresponding spectral radiance analyser of an optical emission exit (2-32), entrance port on the described optical pickup apparatus (2-31) is corresponding with the exit portal of beam splitter (2-1), and optical pickup apparatus (2-31) exit portal has one or more.

6. brightness measuring device for camera according to claim 4 is characterized in that being provided with light filter (4) between described beam splitter (2-1) and the image light electric detection device (2-2).

7. brightness measuring device for camera according to claim 4, it is characterized in that described beam splitter (2-1) is an Amici prism, which is provided with three exit portals, a side relative with spectral measurement device (2-3) at beam splitter (2-1) is provided with alignment device (5), this alignment device (5) is concave mirror or is the combination of imaging len and plane mirror that it is corresponding with the 3rd exit portal on the beam splitter (2-1).

8. brightness measuring device for camera according to claim 5 is characterized in that described optical pickup apparatus (2-31) is installed on the position adjustments seat (2-33).

9. brightness measuring device for camera according to claim 5, it is characterized in that described optical pickup apparatus (2-31) comprises optical fibre ring and lighting source (6), core fibre and outsourcing optical fibre ring in the receiving end of described optical fibre ring comprises, core fibre is connected with spectral radiance analyser (2-32) in described, and described outsourcing optical fibre ring is connected with lighting source (6).

10. brightness measuring device for camera according to claim 5 is characterized in that being equipped with on the described optical pickup apparatus (2-31) the receiving port regulator (7) that is used to change the receiving port size.