CN1042994A

CN1042994A - Used a kind of biometric apparatus of optical radiation facility

Info

Publication number: CN1042994A
Application number: CN89108279A
Authority: CN
Inventors: 森敬
Original assignee: Individual
Current assignee: Individual
Priority date: 1988-11-24
Filing date: 1989-11-02
Publication date: 1990-06-13
Also published as: FI895269A0; IT1237837B; SE8903936D0; DE3933482A1; GB2225448A; DK593189D0; DK593189A; SE8903936L; FR2639213A1; KR900008269A; AU4113989A; JPH02143162A; NL8902874A; IT8922493A0; KR910008648B1; GB8926467D0

Abstract

A kind of biometric apparatus, it has a transparent base plate and a cover plate.The middle body of cover plate is transparent, and the peripheral part of cover plate is a reflecting surface.Backplanes support a test board, and cover plate covers on test board, and irradiates light is passed on the life entity that is radiated at the dish from the central transparent part of cover plate.

Description

Used a kind of biometric apparatus of optical radiation facility

The present invention relates to a kind of biometric apparatus, this device is exposed under the luminous ray by the life entity that will live to be tested it.

The applicant once proposed in the past, utilized lens or similar device converge sunlight line or artificial light rays, and they are imported optical cable and transfer them to needs these light Anywhere, is used for illumination or other purpose, as cultivating crops, chlorella, fish etc.In the process of research, find, do not contain ultraviolet ray, ultrared visible light not only by stimulating the metabolic activity of human body, promote people's health to prevent the aging of application on human skin, and significant benefit is all arranged for disease such as treatment joint fire, neuralgia, bedsore, rheumatism, burns scar, skin disease, fracture deformity and for alleviating the misery that these diseases cause.

In addition, based on above-mentioned discovery, the applicant once proposed not contain in a kind of radiation harmful ultraviolet ray and ultrared visible radiation device, and purpose is to utilize it to treat various diseases, some beauty curings are provided and promote health to people.This device is sunshine that transmits by a fiber optic cable or the irradiation of the visible light spectrum composition in artificial light people's skin.This device since filtering the ultraviolet ray and the infrared ray of well-known harmful human body, thereby guaranteed disease safe treatment.In order to strengthen the photoradiation treatment effect of this device, also must change some characteristics of radiant light, for example light quantity, light wavelength composition, light intensity or the like.In addition, medicine and light-struck synergistic action (being resultant effect) must for example rabbit, mouse etc. carry out conscientious test on one's body animal.

An object of the present invention is to provide a kind of biometric apparatus, be exposed under the visible light by the life entity that will live it is tested.

Another object of the present invention is: a kind of biometric apparatus is provided, and it can distinguish the reaction to light and heat of the subjects that lives.

The 3rd purpose of the present invention provides a kind of biometric apparatus, and it utilizes visible radiation can more effectively carry out relevant test with the radiation of visible light effect on the life entity that lives.

The 4th purpose of the present invention provides a kind of biometric apparatus of radiation visible light, the subjects that the light of its enough energy intensity of energy and/or variable color temperature or energy intensity and/or the fixing rayed of colour temperature live.

Fig. 1 is the topology view of explanation according to an embodiment of this optical radiation biometric apparatus that has.

Fig. 2 is the backplan of device shown in Figure 1.

Fig. 3 is the view that explanation is suitable as a light irradiation apparatus embodiment of optical radiation biometric apparatus shown in Figure 1.

Fig. 4 is embodiment view of automatically collecting and transmit the daylight device of explanation, and this device is collected sunshine and sunshine is imported fiber optic cable and makes the sun pass optical cable and be sent to needed place.

Fig. 5 represents how required colour content in the light is imported a fiber optic cable schematic diagram.

Fig. 6 is a diagrammatic sketch of the sun video of expression scioptics focusing.

Fig. 1 is the structural drawing of an embodiment of expression biometric apparatus proposed by the invention.In Fig. 1, label 1 is a fiber optic cable that transmits sunray or artificial light rays, and the light here is meant light (white light) that is become to be grouped into by visible spectrum or the light that contains a large amount of ruddiness, blue light or green glow composition.Well-known to the harmful ultraviolet ray of the life entity of living and red line already by filtering.Label 2 is transparent base plates, label 3 is test boards that transparent material is made, being used to hold the life entity that the subjects 4(that will shine lives under visible light) label 5 is cover plates that cover on test board, it has a middle body 5a transparent or hollow and a periphery 5b who has reflecting surface, and label 6 is to be installed in a catoptron below the base plate with a certain inclination angle.The transparent part 5a that the light that penetrates from the light exit side of fiber optic cable 1 sees through cover plate 5 projects on the life entity in the test board 3, so will cause the reaction to light of the life entity that lives in the test board.If but the factor (for example heat energy) beyond any other light also acts on that life entity that lives, test may produce incorrect result so, because can't be with the subjects that lives to the reaction of light and to the reaction zone of heat separately.

The present invention has considered to reduce as far as possible and has thisly obscured.As shown in Figure 1, cover plate 5 all is covered with reflecting surface 5b except its light transmission part 5a, so that reduce the temperature rise of the cover plate 5 that the effect of the light that penetrates because of fiber optic cable 1 causes.In addition, catoptron 6 has been installed, it reflects away the light that passes test board 3, has avoided the temperature rise of base plate 2.Though in this embodiment, the light transmission part 5a of cover plate 5 is (through hole is promptly arranged) of making hollow, and it also can be a Transparent Parts that is embedded in cover plate 5 centres.

Fig. 2 is the backplan of base plate.As shown in Figure 2, the light that the mirror 6 that is reflected reflects away can not run into base plate 2 supporting leg 7 but from passing therebetween, thereby, just can not bring the life entity that lives 4 in the test board 3 heat by base plate 2 yet.

In Fig. 1,8 is luminous energy sensors (illuminometer), and 9 is colour temperature meters.Luminous energy sensor 8 is to be used for detecting the light intensity that projects on the life entity 4 that lives, so that optical radiation energy is remained on the optimum level; Project the colour temperature and the fit adjustment light wavelength composition of the light on the life entity 4 that lives simultaneously with colour temperature meter 9 monitorings, keep the best colour temperature of radiant light.Because each life entity 4 that lives all has the optimum test condition about irradiates light illumination intensity and colour temperature separately, therefore, the illumination intensity and the colour temperature of light must be adjusted to optimum value in order effectively this life entity of living to be tested.Illumination intensity (being luminous energy intensity) can move fiber optic cable light exit side by the direction along arrow A and regulate.The colour temperature of light can become to assign to regulate by changing the light wavelength that imports the fiber optic cable receiving terminal.

Fig. 3 represents that one is regulated the illumination intensity of irradiates light and the device example of colour temperature, and in Fig. 3,10 is a back up pad (can regard a part corresponding to Fig. 1 cover plate 5 as); The 11st, be vertically mounted on the column on the back up pad 10; The 12nd, a fixed head in column 11 upper ends; The 13rd, can be along a mobile vertically movable plate of column 11; The 14th, the motor that movable plate 13 is moved along arrow 13 directions; The 15th, by a feed screw of motor 14 driven rotary, the 16th, with a nut of the screw-threaded engagement of feed screw 15, they integrally are fixed on the portable plate 13.When feed screw 15 drove rotation by motor 14, nut 16 just moved along the direction of arrow B together with movable plate 13.17 is fiber optic cable light exit sides, and it is fixed on the center of movable plate 13; 18a, 18b and 18c(18c are not shown in Fig. 3) be other several fiber optic cable terminations, the connected mode of they and movable plate 13 makes them can move along the direction of arrow C and rotate along arrow Q indicated direction.19a, 19b and 19c(19c are not shown in Fig. 3) be respectively the forearm that supports fiber optic cable 18a, 18b and 18c.20a, 20b and 20c(20c are not shown in Fig. 3) be the big arm that makes

forearm

19a, 19b and 19c move and rotate along direction shown in the arrow Q respectively along the arrow C direction.21a, 21b and 21c(21c are not shown in Fig. 3) be respectively to drive the motor that each rotates along direction shown in the arrow Q

big arm forearm

20a and 19a, 20b and 19b and 20c and 19c.22a, 22b and 22c(22c are not shown in Fig. 3) be telescopic arm, when they were driven by motor 21a, 21b and 21c respectively, they can change length separately on the indicated direction of arrow D.23a, 23b and 23c(23c are not shown in Fig. 3) be respectively drive feed screw 24a, 24b and 24c(24c not shown in Fig. 3) motor that rotates.25a, 25b and 25(25b and 25c are not shown in the drawings) be respectively the nut with feed screw 24a, 24b and 24c screw engages.The light that penetrates from the fiber optic cable 17 that is installed in the portable plate center for example can be a branch of light corresponding to white daylight, and contains a large amount of red compositions simultaneously from the light that fiber optic cable 18a penetrates, contain a large amount of blue compositions from the light that fiber optic cable 18b penetrates, contain a large amount of green compositions from the light that fiber optic cable 18c penetrates.Therefore, just can change the color of total synthetic light, for example white, red, blueness or green by regulating light quantity that fiber optic cable 18a, 18b and 18c penetrate.For example, in the present embodiment, the light beam that penetrates from fiber optic cable 17,18a, 18b and 18c passes the part that back up pad 10(is equivalent to Fig. 1 cover plate 4 respectively) go up transparent part 10a, around experimental subjects 28, mix the synthetic light of forming a branch of irradiation experimental subjects then mutually.The illumination intensity of this synthetic light and colour temperature can preset to the value that is suitable for experimental subjects 28.Yet when as long as experimental subjects 28 is changed another life entity or experiment condition and changed to some extent, the illumination intensity of synthetic light and the prevalue of colour temperature also must be regulated.In addition, even same experimental subjects, if allow it be exposed under the illumination of illumination intensity and color temperature constant, so also still need readjust, because these two parameters of the light beam that each bar fiber optic cable is sent had change and will depend on the weather in the middle of one day, for example the color of daylight is red with the dusk in the morning.

Fig. 3 has expressed the example of a device of the necessary various adjustings of suitable realization illumination system.Its luminous energy intensity can drive movable plate 13 by motor 14 and move the realization adjusting along the arrow B direction.Yet, because fiber optic cable 18a, 18b and 18c be also along with movable plate 13 moves up and down together, therefore when adjusting movable plate 13, if do not carry out additive regulating, the irradiated subjects of the position deviation of the synthetic light of Xing Chenging so.Motor 21a, 21b and 21c and

telescopic arm

22a, 22b and 22c can be used for regulating to compensate departing from of above-mentioned optical cable, when movable plate 13 is driven, is being with fiber optic cable together during vertical moving by motor 14,

telescopic arm

22a, 22b and 22c are also driven synchronously along the direction of arrow D by motor 21a, 21b and 21c simultaneously respectively and move.Each flexible armed lever and one are fixed on that the combination of the nut on the arm carries out.In other words by motor 21a ' (21b ', 21c ') be fixed on telescopic arm 22a(22b, 22c) on nut 22a ' (22b ', 22c ') just spin together mutually in advance.By above-mentioned feed mechanism, telescopic arm 22a just can the direction along arrow D move under motor 21a drives.For example, when movable plate 13 moved up, telescopic arm 22a just was pulled to motor 21a simultaneously.When movable plate 13 moved down, telescopic arm 22a was just pushed away simultaneously motor 21a.With telescopic arm 22a(22b, 22c) motion match big arm 24a and forearm 19a(24b and 19b, 24c and 19c) rotate along direction shown in the arrow Q around fulcrum 26a, so the light that makes fiber optic cable penetrate can point to underproof object.In other words, light can still be radiated on the subjects and can not change its colour temperature.Adjusting for the colour temperature of the light of exposure experiment object can be carried out as follows:

As feed screw 24a(24b, 24c) by motor 23a(23b, 23c) drive when rotating, with feed screw 24a screw-threaded engagement and be fixed on nut 25a(25b, 25c on the movable plate) just the direction along feed screw 24a self length move, so the forearm 19a of support fiber optic cable 18a just moves along the direction of arrow C indication, thereby can realize adjusting for photochromic temperature.For example,, can make to transmit and contain a large amount of red more close subjects 28 of fiber optic cable 18a that become beam split if make colour temperature near red, make again simultaneously other fiber optic cable 18b and 18c away from subjects 28.In other words, any needed photochromic temperature can obtain by the distance of regulating between subjects 28 and the fiber optic cable 18a-18c exit end.Regulator 27 is the levels of regulating support plate 10; So that the subjects that is placed under the support plate can be under the irradiation of light more expediently.The subjects that is in situation shown in Figure 3 under the irradiate light is an animal, but subjects is not limited to animal, it can be any lived thing, for example people, a strain plant, a fish, a cell that lives or the like.For instance, subjects can be seated in below the support plate 10 test board 10(as shown in Figure 1) in it is tested.

Fig. 4 is the topology view that a solar ray-collecting device is shown for example, and this device is used for sunshine is imported aforesaid fiber optic cable 1.As shown in Figure 4, solar ray-collecting device comprise a transparent head protector 30, Fresnel lens 31, lens mount 32, sun position sensor 33, the fiber optic cable (hereinafter being called " photoconduction ") formed by a large amount of optical fiber, cable brackets 35, arm 36, pulse motor 37, the horizontal rotating shaft 38 that drives by pulse motor 37, base 39, pulse motor 40 and the pulse motor 40 driven vertical rotating shafts 41 of supporting protection cap 30.

Detect the direction of the sun by means of sun position sensor 33, its detection signal gating pulse motor 37 and 40 is used for rotating respectively transverse axis 38 and Z-axis 41, so that the direction that makes lens 31 is always towards the sun, the sunshine that is focused on by each lens 31 just is imported in the optical fiber by the end face that is located at each the bar optical fiber 34 on each camera lens focus like this.Each the bar optical fiber 34 that stretches out from lens 31 each bar optical fiber is bundled in and becomes a bundle cable 1 together, and the place of any needs drawn and be introduced in the sunlight collecting device by optical cable 1, is used to carry out about the biologicall test to the reaction of light of the biosome that lives.

Fig. 5 illustrates a view that how sunray is imported optical fiber.In Fig. 5,31 is a Fresnel lens or similar elements, the 34th, and the sunray that receiver lens 31 is focused on also is sent to an optical fiber that needs the illumination part with it.When the lens combination focusing sunlight, the picture of the sun, as shown in Figure 6, by a core A and an annular section B who contains the light component of a large amount of and lens combination focus respective wavelength who almost forms by white light.In other words, under the situation of this lens combination focusing sunlight, the size of the focus of lens and sun elephant can change to some extent according to the different of light component wavelength.For example, to make diameter be D to the short blue light of wavelength ₁The sun resemble and be in position P ₁, in addition, it is D that green light makes diameter ₂The sun resemble and be in position P ₂, red light makes diameter D ₃The sun resemble and be in position P ₃Therefore, as shown in Figure 5, when the light-receiving end face of optical fiber is in position P ₁The time, can collect the sunshine that contains a large amount of blue compositions at annular section.When the light-receiving end face of optical fiber is in position P ₂The time, can collect the sunshine that contains a large amount of green compositions at annular section.When the light-receiving end face of optical fiber is in position P ₃The time, can collect the sunshine that contains a large amount of red compositions at annular section.In each case, the diameter of optical fiber all can be selected according to the composition of the light that will collect.For example, according to the color of desired light, for example be blue, green or red, so needed photoconduction diameter is respectively D ₁, D ₂And D ₃With such method, can save fiber optic cable requirement, and also can collect the sunshine that contains a large amount of desired color components most effectively.Also have, as shown in Figure 5, if the enlarged-diameter of the light-receiving end face of optical fiber is to D ₀, just can collect the visible light that contains all wavelengths composition there.

The optical receiving end of optical fiber can be in manufacturing plant's predetermined fixed at each solar ray-collecting device separately on the focusing surface of lens; The user also can be installed in the solar ray-collecting device versatilely, so that can add adjustment along the direction of lens axis to the position of optical fiber optical receiving end according to the color of needed irradiates light.Under the situation of as shown in Figure 1 embodiment, the optical receiving end of the optical fiber in the sunlight collecting device can be regulated according to the output signal of color temperature sensor 9.

As can be seen from the above description, according to the present invention, can make a kind of biometric apparatus with the radiation of visible light facility, the subjects that it can be lived with irradiation, and can change its energy intensity and/or colour temperature to this light, perhaps remain on the fixing energy intensity and/or color temperature value, so, can accurately, effectively study subjects alive to the reaction of light with this device.

Claims

1, a kind of biometric apparatus, it includes a dianegative and core is transparent, other outer peripheral portion is the cover plate of reflecting surface, it is characterized in that: said backplanes support a test board, said cover plate is covered with test board, so that the illumination that enters through the cover plate transparent part is mapped on the life entity that holds in the test board.

2, biometric apparatus as claimed in claim 1 is characterized in that: an illumination intensity sensor and/or a color temperature sensor on the cover board are housed, make it can monitor and/or regulate the illumination intensity and/or the colour temperature of the light of irradiation life entity alive.

3, biometric apparatus as claimed in claim 2, it is characterized in that: it has a fiber optic cable that is used for conducting the light that shines the life entity of living, also have a mechanism that is used for adjusting distance between life entity alive in the test board and the fiber optic cable light exit side, thereby can regulate the optical illumination intensity of passing fiber optic cable, shining the life entity of living in the test board.

4, as the biometric apparatus of claim 2 or 3, it is characterized in that: wherein used three fiber optic cables at least, its working method is: wherein the light that conducts in described optical cable comprises a large amount of red light compositions, light of conduction comprises a large amount of blue light compositions in another, the light of conduction comprises a large amount of green light compositions in also having one, simultaneously the said optical cable of each bar all has a movably light exit side, so that change the distance of the life entity that this light exit side lives in the test board and the colour temperature that adjusting shines the light on the biosome alive.