CN205281097U - Ultraviolet direct reflection device of shooing - Google Patents

Abstract

The utility model provides an ultraviolet direct reflection device of shooing belongs to the equipment of shooing field, including camera and reflect meter, the reflect meter shines a perpendicular to and shoots a section of thick bamboo including shining a section of thick bamboo and shooing a section of thick bamboo, shoots a section of thick bamboo both ends and all is equipped with the opening, shines a section of thick bamboo including free end and link, the free end that shines a section of thick bamboo with shooing a section of thick bamboo and connecting, shine a section of thick bamboo and communicate with each other with shooing a section of thick bamboo, be equipped with luminous body, first lens, polygonal mirror, diffusion mirror and second lens in proper order in shining a section of thick bamboo from the free end to the link, shoot and be equipped with semitransparent mirror in the section of thick bamboo, an opening part of shooting tin is located to the shooting end of camera. The light that the luminous body sent loops through and forms the bright speck after first lens, polygonal mirror, diffusion mirror and second lens are handled, and the bright speck forms clear fingerprint streakline on partly the semi -reflector piece projects the fingerprint thoroughly, and the camera sees through and shoots. This kind is shot the device and need not adjusted the light source angle, does not receive the interference of external parasitics light, can carry out the fingerprint to complicated object and draw.

Description

A kind of ultraviolet directional reflecting photograph device

Technical field

The utility model relates to photographing device field, specifically, it relates to a kind of ultraviolet directional reflecting photograph device.

Background technology

At present, the device of shooting fingerprint generally has two kinds, one is full spectrum camera or red ultraviolet-cameras, UV-light shooting is carried out in axis light mode, the interference being easily subject to ambient light, consequently, it is desirable to there is the darkroom of light shade cover, and the fingerprint that sweat mark amount is bigger can only be taken, the surface shooting of injustice is more difficult; Another kind is ultraviolet viewing system, for different objects, by adjusting different light source radiating angles, carries out fingerprint shooting. This kind of ultraviolet viewing system, searches fingerprint easy, but the process of taking pictures needs more rich use experience just can be filmed. UV-light is irradiated on a large scale simultaneously, it is easy to user is damaged.

Practical novel content

The purpose of this utility model is to provide a kind of ultraviolet directional reflecting photograph device, to improve the problems referred to above.

The utility model is achieved in that

The utility model provides a kind of ultraviolet directional reflecting photograph device, comprise camera and reflection unit, described reflection unit comprises irradiation cylinder and shooting cylinder, the axes normal of described irradiation cylinder is in the axis of described shooting cylinder, described shooting cylinder two ends are equipped with opening, described irradiation cylinder comprises free end and coupling end, the free end of described irradiation cylinder is connected with described shooting cylinder, described irradiation cylinder communicates with described shooting cylinder, from free end to coupling end, twinkler it is provided with successively in described irradiation cylinder, first lens, polygonal mirror, diffusion mirror, 2nd lens, it is provided with semi-transparent semi-reflecting lens in described shooting cylinder, the shooting end of described camera is located at an opening place of shooting cylinder.

In the technical program, twinkler is the light source of whole device, twinkler is by after the first lens, lighting angle is processed by the first lens, then enters polygonal mirror and process, then through diffusion eyeglass, light is carried out parallel hot spot, carry out amplifying shaping through the 2nd lens on light spot again and form bright spot, finally projecting on fingerprint by bright spot through semi-transflective reflective eyeglass, can form fingerprint ridge clearly, camera is taken through shooting again. This kind of camera arrangement does not need adjustment light-source angle, not by the interference of extraneous veiling glare, complex object can be carried out fingerprint extraction, the fingerprint shot complete display more.

Further, described irradiation cylinder comprises and connects cylinder and diffusion barrel, one end of described diffusion barrel connects with the described cylinder that is connected, by connecting, block is connected the other end of described diffusion barrel with described shooting cylinder, described twinkler, the first lens and polygonal mirror are all located in described connection cylinder, described diffusion mirror is located at described diffusion barrel and the junction being connected cylinder, and described 2nd lens are located at described diffusion barrel and the junction being connected block.

It is divided into the object connecting cylinder and diffusion barrel to be by irradiating cylinder, facilitates the installation and removal of twinkler, the first lens, polygonal mirror, diffusion mirror and the 2nd lens.

Further, the diameter of described 2nd lens is greater than the diameter of described diffusion mirror.

After polygonal mirror light is processed by diffusion mirror, form parallel light, if the diameter of the 2nd lens is greater than diffusion mirror diameter, parallel light as much as possible can be made by the 2nd lens, form bigger bright spot.

Further, described twinkler is provided with some heat radiation bars near the free end of described connection cylinder, described connection cylinder free end.

Twinkler can send heat while luminescence, if radiating effect is not good, then can have influence on the work-ing life of twinkler. For strengthening radiating effect, twinkler is arranged near the free end connecting cylinder, and the good heat radiation bar of some thermal conductivity is set on the end face connecting cylinder free end.

Further, described connection cylinder free end is provided with bonnet, is provided with fan, bonnet has been offered ventilation hole in described bonnet.

After the free end of connection cylinder arranges bonnet, twinkler is had certain provide protection by bonnet, and the fan in bonnet can increase the air flow of bonnet inside, is taken out of from ventilation hole fast by the heat on heat radiation bar.

Further, some radiating grooves offered by described connection cylinder.

Being located at due to twinkler connects in cylinder, and after twinkler irradiates for a long time, connecting cylinder can generate heat. Therefore, radiating groove offered by connection cylinder and increase the contact area with outside air, it is to increase its heat dispersion, ensure that the heat connected in cylinder can fall apart fast.

Further, the interior cylinder body that described shooting cylinder comprises urceolus body and is located in urceolus body, described urceolus is held with it and is provided with upper baffle ring, and the lower end of urceolus body is provided with lower baffle ring, described interior cylinder body is fixed by upper baffle ring and lower baffle ring and urceolus body, and described semi-transparent semi-reflecting lens is located in described interior cylinder body.

When producing, semi-transparent semi-reflecting lens and interior cylinder body can be set to integrative-structure. Being coordinated with urceolus body by upper baffle ring and lower baffle ring just can by fixing for the installation of interior cylinder body, and the shooting cylinder of this kind of structure is easy to realize installation and the dismounting of semi-transparent semi-reflecting lens.

Further, the angle of the axis of described semi-transparent semi-reflecting lens and described interior cylinder body is 45 degree.

The benefit of this kind of structure is, after the bright spot formed after the 2nd lens process is irradiated on semi-transparent semi-reflecting lens, it is possible to as much as possible project on shot object, shooting effect is better.

Further, also comprising bracing frame, described camera and described reflection unit are all located on support frame as described above, and described camera and reflection unit all removably connect with support frame as described above.

After camera and reflection unit are connected with bracing frame, camera and the accurate position of shooting cylinder can be ensured, the size of picture can be adjusted by adjusting the focal length of camera. In addition, angle, the highly direction by adjustment bracing frame, adjustable taken pictures.

Further, described twinkler is multiple ultraviolet LED lamps.

Ultraviolet LED light fixture has shockproof and feature that is less energy-consumption, and the object that ultraviolet LED lamp is multiple is to increase the brightness of light source.

The beneficial effects of the utility model are:

The ultraviolet directional reflecting photograph device that the utility model provides, adopts ultraviolet LED lamp as light source, has shockproof and less energy-consumption feature, arranges fan and ultraviolet LED lamp can be dispelled the heat by ventilation hole on bonnet, extends its work-ing life. The light that ultraviolet LED lamp sends forms bright spot by the first lens, polygonal mirror, diffusion mirror, the 2nd lens after processing successively, and bright spot projects on fingerprint through semi-transflective reflective eyeglass, forms fingerprint ridge clearly, and camera is taken through shooting cylinder again. This kind of camera arrangement does not need adjustment light-source angle, not by the interference of extraneous veiling glare, complex object can be carried out fingerprint extraction, the fingerprint shot complete display more, in addition, ultraviolet LED lamp is located at and is irradiated in cylinder, the UV-light directional illumination sent, can not spread, and can not user be damaged.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, it is briefly described to the accompanying drawing used required in embodiment below, it is to be understood that, the following drawings illustrate only some embodiment of the present utility model, therefore should not be counted as is the restriction to scope, for those of ordinary skill in the art, under the prerequisite not paying creative work, it is also possible to obtain other relevant accompanying drawings according to these accompanying drawings.

The structural representation of the ultraviolet directional reflecting photograph device that Fig. 1 provides for the utility model embodiment 1;

The structural representation of the reflection unit of the ultraviolet directional reflecting photograph device that Fig. 2 provides for the utility model embodiment 1;

The connection block of ultraviolet directional reflecting photograph device that Fig. 3 provides for the utility model embodiment 1 and the structural representation of intraware thereof;

The diffusion barrel of ultraviolet directional reflecting photograph device that Fig. 4 provides for the utility model embodiment 1 and the structural representation of intraware thereof;

The connection cylinder of ultraviolet directional reflecting photograph device that Fig. 5 provides for the utility model embodiment 1 and the structural representation of intraware thereof;

The right view of the connection cylinder of the ultraviolet directional reflecting photograph device that Fig. 6 provides for the utility model embodiment 1;

The shooting cylinder of ultraviolet directional reflecting photograph device that Fig. 7 provides for the utility model embodiment 1 and the structural representation of intraware thereof.

In figure, Reference numeral is:

Camera 101; Irradiate cylinder 102; Shooting cylinder 103; Twinkler 104; First lens 105; Polygonal mirror 106; Diffusion mirror 107; 2nd lens 108; Semi-transparent semi-reflecting lens 109; Connect cylinder 110; Cylinder 1101; First linker 1102; 2nd linker 1103; Diffusion barrel 111; Connect block 112; Heat radiation bar 113; Bonnet 114; Ventilation hole 115; Fan 116; Radiating groove 117; Urceolus body 118; Interior cylinder body 119; Upper baffle ring 120; Lower baffle ring 121; Lock ring 122; Multiaspect lens barrel body 123; Card rank 124; Camera support 125; Bracing frame 126; Power supply box 127; Annular protrusion 128.

Embodiment

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments. The assembly of the utility model embodiment usually describing in accompanying drawing herein and illustrating can be arranged with various different configuration and design.

Therefore, below to the detailed description of the embodiment of the present utility model provided in the accompanying drawings and the claimed scope of the present utility model of not intended to be limiting, but only represent selected embodiment of the present utility model. Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

It should be noted that: similar label and letter accompanying drawing below represents similar item, therefore, once a certain Xiang Yi accompanying drawing is defined, then do not need it carries out definition further and explains in accompanying drawing subsequently.

In description of the present utility model, it should be noted that, term " " center ", " on ", D score, " left side ", " right side ", " vertically ", " level ", " interior ", it is based on orientation shown in the drawings or position relation that the orientation of the instruction such as " outward " or position are closed, or this practicality novel product orientation usually put or position relation when using, it is only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device referred to or element must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model. in addition, term " first ", " the 2nd ", " the 3rd " etc. are only for distinguishing description, and can not be interpreted as instruction or hint relative importance.

In addition, the term such as term " level ", " vertically ", " pendency " does not represent and requires the absolute level of parts or pendency, but can tilt a little. As " level " only refers to its direction relatively " vertically " level more, be not this structure of expression must level completely, but can tilt a little.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ", " installation ", " being connected ", " connection " should be interpreted broadly, such as, it is possible to be fixedly connected with, can also be removably connect, or connect integratedly; Can be mechanically connected, it is also possible to be electrical connection; Can be directly be connected, it is also possible to be indirectly connected by intermediary, it is possible to be the connection of two element internals. For the ordinary skill in the art, it is possible to particular case understands the concrete implication of above-mentioned term in the utility model.

Embodiment 1, referring to figs. 1 through Fig. 7

Such as Fig. 1, shown in Fig. 2, the present embodiment provides a kind of ultraviolet directional reflecting photograph device, comprise camera 101 and reflection unit, reflection unit comprises irradiation cylinder 102 and shooting cylinder 103, the axes normal irradiating cylinder 102 is in the axis of shooting cylinder 103, shooting cylinder 103 two ends are equipped with opening, irradiate cylinder 102 and comprise free end and coupling end, the free end irradiating cylinder 102 is connected with shooting cylinder 103, irradiate cylinder 102 to communicate with shooting cylinder 103, irradiate in cylinder 102 from free end to coupling end, it is provided with twinkler 104 successively, first lens 105, polygonal mirror 106, diffusion mirror 107, 2nd lens 108, first lens 105 and the 2nd lens 108 are the recessed lens of the convex one side of one side, it is provided with semi-transparent semi-reflecting lens 109 in shooting cylinder 103, the shooting end of camera 101 is located at an opening place of shooting cylinder 103, the shooting end of camera 101 is the one end at camera 101 camera lens place.

In the present embodiment, twinkler 104 comprises multiple ultraviolet LED lamp and lamp socket, and all ultraviolet LED lamps are all located on lamp socket, and the wavelength of the UV-light that ultraviolet LED lamp is launched is 365nm. Camera 101 eliminates red ultraviolet filter, and the logical sheet of ultraviolet band is housed.

Wherein, for convenience of the installation and removal of twinkler 104, first lens 105, polygonal mirror 106, diffusion mirror 107 and the 2nd lens 108, irradiation cylinder 102 is divided into dismountable connection cylinder 110 and diffusion barrel 111 two portions, connect cylinder 110 coaxial with diffusion barrel 111, cylinder 110 connects with being connected in one end of diffusion barrel 111, and by connecting, block 112 is connected the other end of diffusion barrel 111 with shooting cylinder 103.

Connecting block 112 is square structure, and as shown in Figure 3, its inside is provided with ladder hole, and ladder hole comprises macropore and the aperture coaxial with it, and the 2nd lens 108 are fixed after being located in macropore by the 2nd lens 108 by lock ring 122.

As shown in Figure 4, the right-hand member of diffusion barrel 111 is provided with annular protrusion 128, the external diameter of annular protrusion 128 is less than the external diameter of diffusion barrel 111, the internal diameter of annular protrusion 128 is less than the internal diameter of diffusion barrel 111, the left end of diffusion barrel 111 is located at and is connected in block 112 macropore, the left side of diffusion barrel 111 contacts with lock ring 122, and the diameter of macropore mates mutually with the external diameter of diffusion barrel 111. Diffusion mirror 107 is located in annular protrusion 128, and is fixed by diffusion mirror 107 by two lock rings 122. The diffusion barrel 111 of this kind of structure ensure that the diameter of the 2nd lens 108 is greater than the diameter of diffusion mirror 107.

As shown in Figure 5, connect cylinder 110 entirety and become " work " font, comprise cylinder 1101, first linker 1102 and the 2nd linker 1103, the left end of cylinder 1101 is connected with the first linker 1102, the right-hand member of cylinder 1101 is connected with the 2nd linker 1103, the external diameter of the first linker 1102 and the external diameter of the 2nd linker 1103 are all greater than the external diameter of cylinder 1101, the internal diameter of the 2nd linker 1103 and the internal diameter of the 2nd linker 1103 are all greater than the internal diameter of cylinder 1101, the annular protrusion 128 of diffusion barrel 111 right-hand member is located in the first linker 1102, the external diameter of annular protrusion 128 mates mutually with the internal diameter of the first linker 1102. polygonal mirror 106 is located in cylinder 1101, for convenience of the installation of polygonal mirror 106, multiaspect lens barrel body 123 is set in cylinder 1101, the external diameter of multiaspect lens barrel body 123 mates mutually with the internal diameter of cylinder 1101, multiaspect lens barrel body 123 right-hand member is located by card rank 124, multiaspect lens barrel body 123 left end is fixed by lock ring 122, and polygonal mirror 106 is fixed in multiaspect lens barrel body 123. first lens 105 are located in the 2nd linker 1103, and the first lens 105 are fixed by lock ring 122. twinkler 104 is also located in the 2nd linker 1103, and the free end near the 2nd linker 1103, the external diameter of the lamp socket in twinkler 104 mates mutually with the internal diameter of the 2nd linker 1103.

Twinkler 104 can send heat while luminescence, if radiating effect is not good, then can have influence on the work-ing life of twinkler 104. For strengthening radiating effect, the free end at the 2nd linker 1103 arranges some heat radiations article 113, and heat radiation article 113 is perpendicular to the end face of the 2nd linker 1103.

As shown in Figure 1, the 2nd linker 1103 free end is provided with bonnet 114, and twinkler 104 is had certain provide protection by bonnet 114. Heat for ensureing on heat radiation bar 113 can fall apart fast, arranges fan 116, bonnet 114 has been offered ventilation hole 115 in bonnet 114. For strengthening ventilation effect, as shown in Figure 6, the 2nd linker 1103 also arranges ventilation hole 115, on top cover the axis of the ventilation hole 115 on the axis of ventilation hole 115 and the 2nd linker 1103 all with the axis being parallel of the 2nd linker 1103.

After twinkler 104 irradiates for a long time, connecting cylinder 110 can generate heat. Therefore, the cylinder 1101 connecting cylinder 110 offers radiating groove 117 and increase the contact area with outside air, it is to increase its heat dispersion, ensure that the heat connected in cylinder 110 can fall apart fast.

As shown in Figure 7, shooting cylinder 103 comprises urceolus body 118 and interior cylinder body 119, connect block 112 to be connected with urceolus body 118, interior cylinder body 119 is located in urceolus body 118, urceolus body 118 and interior cylinder body 119 all offer through hole, can project smoothly on semi-transparent semi-reflecting lens 109 to ensure the light of twinkler 104. Urceolus body 118 upper end is provided with upper baffle ring 120, and upper baffle ring 120 is provided with the first opening, and urceolus body 118 times ends are provided with lower baffle ring 121, and lower baffle ring 121 is provided with the 2nd opening, and interior cylinder body 119 is fixed after all coordinating with urceolus body 118 by upper baffle ring 120 and lower baffle ring 121. Semi-transparent semi-reflecting lens 109 is located in interior cylinder body 119, and be fixedly connected with interior cylinder body 119, semi-transparent semi-reflecting lens 109 is 45 degree with the angle of the axis of interior cylinder body 119, and the lower edge of semi-transparent semi-reflecting lens 109 is positioned at the lower right of cylinder body 119, and the upper edge of semi-transparent semi-reflecting lens 109 is positioned at the upper left side of cylinder body 119.

In the present embodiment, the 2nd opening in opening first opening that is in upper baffle ring 120 at shooting cylinder 103 two ends and lower baffle ring 121, the shooting end of camera 101 is located at the first opening place.

The shooting end of camera 101 can be linked together by coupling device with shooting cylinder 103, and both can also be in a distance. Focus for convenience of camera 101, camera 101 is separated with shooting cylinder 103. In the present embodiment, for ensureing, between camera 101 and shooting cylinder 103, there is position relation accurately, also it is provided with bracing frame 126, camera 101 and reflection unit are all arranged on bracing frame 126, as shown in Figure 1, bracing frame 126 is tripod, and camera 101 is removably connected by camera support 125 and bracing frame 126, and reflection unit also removably connects with bracing frame 126. In shooting process, can according to the distance of made thing body, adjustment camera 101 focal length is taken, certainly, according to real needs, it is possible to bracing frame 126 is taken off, camera 101 and reflection unit are arranged on the worktable in laboratory, as laboratory photographing device.

In addition, bracing frame 126 being also provided with power supply box 127, for giving, twinkler 104 provides electric energy to power supply box 127.

The ultraviolet directional reflecting photograph device that the present embodiment provides, adopts ultraviolet LED lamp as light source, has shockproof and less energy-consumption feature, and the wavelength of the UV-light that ultraviolet LED lamp sends is 365nm, the fingerprint of shooting can not be caused damage. Bonnet 114 arranges fan 116 and ultraviolet LED lamp can be dispelled the heat by ventilation hole 115, extend its work-ing life. The light that ultraviolet LED lamp sends forms bright spot by the first lens 105, polygonal mirror 106, diffusion mirror 107, the 2nd lens 108 after processing successively, bright spot projects on fingerprint through semi-transflective reflective eyeglass, forming fingerprint ridge clearly, camera 101 is taken through shooting cylinder 103 again. This kind of camera arrangement does not need adjustment light-source angle, not by the interference of extraneous veiling glare, complex object can be carried out fingerprint extraction, the fingerprint shot complete display more, in addition, ultraviolet LED lamp is located at and is irradiated in cylinder 102, the UV-light directional illumination sent, can not spread, user can not be damaged.

These are only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations. All within spirit of the present utility model and principle, any amendment of doing, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a ultraviolet directional reflecting photograph device, it is characterized in that, comprise camera and reflection unit, described reflection unit comprises irradiation cylinder and shooting cylinder, the axes normal of described irradiation cylinder is in the axis of described shooting cylinder, described shooting cylinder two ends are equipped with opening, described irradiation cylinder comprises free end and coupling end, the free end of described irradiation cylinder is connected with described shooting cylinder, described irradiation cylinder communicates with described shooting cylinder, from free end to coupling end, twinkler it is provided with successively in described irradiation cylinder, first lens, polygonal mirror, diffusion mirror and the 2nd lens, it is provided with semi-transparent semi-reflecting lens in described shooting cylinder, the shooting end of described camera is located at an opening place of shooting cylinder.

2. ultraviolet directional reflecting photograph device according to claim 1, it is characterized in that, described irradiation cylinder comprises and connects cylinder and diffusion barrel, one end of described diffusion barrel connects with the described cylinder that is connected, by connecting, block is connected the other end of described diffusion barrel with described shooting cylinder, described twinkler, the first lens and polygonal mirror are all located in described connection cylinder, and described diffusion mirror is located at described diffusion barrel and the junction being connected cylinder, and described 2nd lens are located at described diffusion barrel and the junction being connected block.

3. ultraviolet directional reflecting photograph device according to claim 2, it is characterised in that, the diameter of described 2nd lens is greater than the diameter of described diffusion mirror.

4. ultraviolet directional reflecting photograph device according to claim 2, it is characterised in that, described twinkler is provided with some heat radiation bars near the free end of described connection cylinder, described connection cylinder free end.

5. ultraviolet directional reflecting photograph device according to claim 4, it is characterised in that, described connection cylinder free end is provided with bonnet, is provided with fan, bonnet has been offered ventilation hole in described bonnet.

6. ultraviolet directional reflecting photograph device according to claim 2, it is characterised in that, some radiating grooves offered by described connection cylinder.

7. ultraviolet directional reflecting photograph device according to claim 1, it is characterized in that, the interior cylinder body that described shooting cylinder comprises urceolus body and is located in urceolus body, described urceolus is held with it and is provided with upper baffle ring, the lower end of urceolus body is provided with lower baffle ring, described interior cylinder body is fixed by upper baffle ring and lower baffle ring and urceolus body, and described semi-transparent semi-reflecting lens is located in described interior cylinder body.

8. ultraviolet directional reflecting photograph device according to claim 7, it is characterised in that, the angle of the axis of described semi-transparent semi-reflecting lens and described interior cylinder body is 45 degree.

9. ultraviolet directional reflecting photograph device according to claim 1, it is characterised in that, also comprise bracing frame, described camera and described reflection unit are all located on support frame as described above, and described camera and reflection unit all removably connect with support frame as described above.

10. according to the arbitrary described ultraviolet directional reflecting photograph device of claim 1-9, it is characterised in that, described twinkler comprises multiple ultraviolet LED lamp.