KR101209508B1 - Search devices using ultraviolet evidence - Google Patents

Abstract

PURPOSE: An evidence distinguishing device using ultraviolet rays is provided to simply and rapidly perform a work conversion between an evidence searching step using a wide-angle lens and an evidence photographing step using a diopter lens and to improve a quality of observation images by synchronizing a photographing unit and a lighting unit to be integrated. CONSTITUTION: An evidence distinguishing device using ultraviolet rays comprises a photographing unit(1), a dipoter lens(10), a wide-angle lens(20), and a lighting unit(30). The photographing unit converts the ultraviolet rays into visible rays. One end of the dipoter lens is mounted on a lens mount(1a) of the photographing unit and the other end of the dipoter lens comprises an auxiliary mount(12). The wide-angle lens is mounted to the auxiliary mount, thereby converting a view angle of the dipoter lens into a wide angle. The lighting unit is installed in one side of the photographing unit possible to adjust an angle and irradiates the ultraviolet rays to a subject.

Description

Search devices using ultraviolet evidence

The present invention relates to an apparatus for screening evidence using ultraviolet light, and more particularly, to an apparatus for screening evidence using ultraviolet light to search and collect evidence including fingerprints, blood, and semen using ultraviolet light.

Ultraviolet rays are typically invisible at shorter wavelengths than visible light, but when ultraviolet rays are irradiated on a substance, the substance that absorbs the ultraviolet rays moves into a high excited state, causes dissociation or ionization, and depending on the substance, the absorbed energy Since it emits as fluorescence, it is widely used for collecting evidence containing blood and semen which is invisible to the naked eye in murder and rape cases by using the characteristics of ultraviolet rays.

Looking at the evidence collecting device using the ultraviolet light disclosed in the prior art, in the number 10-201081457, the upper and lower widths are narrow and the left and right ranges of the light quantity is maintained so that the light is irradiated in the plane horizontal direction and the illumination intensity is almost constant in the irradiation range Therefore, it is easy to search for evidence such as foot prints, fingerprints, hairs, etc. remaining on the ground, and it is easy to work while moving in the horizontal direction at the scene of the incident, and in particular, the overall shape is clearly shown in the search phase. The identity analysis can be performed more accurately, and further includes a second bulb that emits light having a wavelength in the range of 440 to 460 nm, preferably 450 nm, to clearly detect fingerprints, semens, etc., which are not easily observed by the naked eye. Doing.

In this case, the investigator collecting the evidence may wear ultraviolet identification glasses to visually identify the evidence that reacts to the ultraviolet light, or search the evidence using a photographing apparatus that converts the ultraviolet light into visible light and outputs and stores it. .

In other words, two investigators form a team, one person holds up an ultraviolet light device, and the other person moves along the direction in which ultraviolet light is irradiated through the lighting device using a photographing device to search and photograph the evidence. In the step of searching for evidence using the photographing apparatus, a wide-angle lens is used to enlarge the viewing angle, and the detected evidence is replaced with a macro range when photographing.

As such, in using the photographing apparatus, a wide-angle lens and a macro lens are provided independently, and according to the number of photographing evidences, the lens needs to be replaced frequently from several times to several dozen times, so that the inspection time due to securing the evidence is delayed, and the lens There are many cases that lead to poor evidence retrieval.

In addition, the quality of the image is determined according to the angle at which the ultraviolet light irradiated through the lighting device is incident on the photographing device. Inconsistencies or uneven distribution of ultraviolet rays resulted in severe image quality variations, especially in the shadows in the image, resulting in poor reading accuracy.

Accordingly, the present invention has been conceived to solve the above problems, and the work conversion of the evidence search step using a wide angle and the photographing step using a macro is carried out quickly and easily, and maintaining the same angle of incidence of the observation image during the observation. An object of the present invention is to provide an evidence screening apparatus using ultraviolet rays to improve quality.

In order to achieve the above object, the present invention is characterized in that, in the evidence screening apparatus using ultraviolet light provided with the photographing unit 1 for converting ultraviolet rays into visible light, one end of the lens mount 1a of the photographing unit 1 is provided. The macro lens 10 having the auxiliary lens 12 mounted at the other end thereof; A wide-angle lens 20 mounted on the auxiliary mount 12 to convert the angle of view of the macro lens 10 into a wide angle; And an illumination unit 30 installed on one side of the photographing unit 1 to irradiate ultraviolet rays to the subject side.

At this time, the auxiliary mount 12 is characterized in that the wide-angle lens 20 is provided to be detachable by the screw portion (12a).

In addition, the auxiliary mount 12 is characterized in that the wide-angle lens 20 is pivoted on the hinge 12b to be folded on the macro lens 10.

In addition, the auxiliary mount 12 is characterized in that the wide-angle lens 20 is inserted in a slide manner, it is provided so that the position is fixed by the elastic piece (12c).

In addition, the wide-angle lens 20 is characterized in that the focus adjustment piece 22 is positioned to adjust the position at the end corresponding to the macro lens so that the separation distance with the macro lens 10 is adjusted.

In addition, the lighting unit 30 is characterized in that the ultraviolet lamp 32 and the reflection shade 34, the turning angle of which is adjusted around the ultraviolet lamp 32 is provided.

In addition, the reflector 34 has an intermediate plate portion 34a that is bent in an arc shape to diffuse ultraviolet rays and a side plate portion 34b for reflecting ultraviolet rays scattered outwardly from both ends of the intermediate plate portion 34a toward the subject side. It features.

According to the above configuration and operation, the present invention is provided so that the wide-angle lens is detachable on the auxiliary mount of the macro lens, the work conversion of the evidence search step using the wide-angle lens and the photographic evidence recording step using the macro lens is carried out quickly and easily, and photographing By synchronizing the unit and the lighting unit integrally, the quality of the observed image is improved as the angle of incidence of the ultraviolet rays is uniformly maintained during the observation.

1 is a block diagram showing an overall apparatus for screening evidence using ultraviolet rays according to the present invention.
Figure 2a to 2c is a block diagram showing an auxiliary mount of the evidence screening apparatus using ultraviolet light according to the present invention.
Figure 3 is a block diagram showing an example of use according to the angle adjustment of the reflection shade of the evidence screening apparatus using ultraviolet light according to the present invention.
Figure 4 is a block diagram showing an illumination unit of the evidence screening apparatus using ultraviolet light according to the present invention.
5a to 5b is a photographed image for comparing the result of photographing the fingerprint by using the screening device of the prior art and the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to an evidence screening apparatus using ultraviolet light provided with a photographing unit (1) for converting ultraviolet light into visible light. The work conversion is performed quickly and easily, and the main configuration includes the macro lens 10, the wide-angle lens 20, and the illumination unit 30 to improve the quality of the observation image by maintaining the same UV incident angle during observation.

The photographing unit 1 according to the present invention converts and stores ultraviolet rays introduced through the macro lens 10 or the macro lens 10 and the wide-angle lens 20 to be described later into visible light, and the user visually converts the converted image. An eyepiece provided to be identified as is provided at one side.

In addition, one end of the macro lens 10 according to the present invention is mounted on the lens mount 1a of the imaging unit 1, and the other end is provided with an auxiliary mount 12. The macro lens 10 is a lens for capturing a high resolution image of a subject in a narrow angle of view to obtain a clean and high resolution image. The macro lens 10 is used for capturing evidence found at an event scene as an image.

At this time, as the angle of view is narrowed due to the characteristics of the macro lens 10, the wide angle lens 20 to be described later is additionally mounted with the macro lens 10 mounted in the step of searching for the presence or absence of evidence for a large area at the event site. To enlarge the angle of view.

In addition, the wide-angle lens 20 according to the present invention is mounted on the auxiliary mount 12 is provided so that the angle of view of the macro lens 10 is converted to a wide angle. The wide-angle lens 20 is a lens that provides a wider angle of view than the macro lens, and the angle of view is maintained at 30 degrees to 60 degrees, and the ultraviolet rays for the field of view wider than the field of view captured by the macro lens 10 are applied to the macro lens 10. Make it enter the angle of view.

Accordingly, as the angle of view of the macro lens 10 is converted to the wide angle by the wide angle lens 20, a wider viewing angle is secured at the event site, so that it is easy to search for the entirety of the evidence and whether the evidence is found during the inspection. 20) Since the separation is taken and photographing the evidence using the macro lens 10, there is an advantage that the task conversion of the evidence search step and the evidence photographing step is performed quickly and simply.

Here, the wide-angle lens 20 is detachably installed on the macro lens 10 through the auxiliary mount 12, the detailed description thereof will be described in detail with reference to Figures 2a to 2c to be described later.

In FIG. 2A, the auxiliary mount 12 is provided such that the wide-angle lens 20 is detachable by the screw part 12a. That is, the auxiliary mount 12 is fastened in such a manner that the wide-angle lens 20 is rotated by forming a female / male screw portion at an end portion corresponding to the wide-angle lens 20 and the macro lens 10.

In FIG. 2B, the auxiliary mount 12 is provided such that the wide-angle lens 20 is pivoted about the hinge 12b to be folded on the macro lens 10. The auxiliary mount 12 connects one end of the wide angle lens 20 and the macro lens 10 to the hinge 12b so that the wide angle lens 20 is located in front of the macro lens 10 when searching for evidence. When turning as much as possible, when photographing evidence, the wide-angle lens 20 is returned to its original position to use the macro lens 10. At this time, the hinge 12b is provided in the longitudinal direction so that the wide-angle lens 20 is pivoted horizontally, and the other end corresponding to the hinge 12b is provided with a latch J for fixing the position of the wide-angle lens 20. It is desirable to.

In FIG. 2C, the auxiliary mount 12 is provided such that the wide-angle lens 20 is inserted in a slide manner and fixed by the elastic piece 12c. The auxiliary mount 12 is formed so as to be inserted into the female and male structures, and an elastic piece 12c including rubber, teflon, and spring is provided at end portions corresponding to each other to fix the engagement position. The lens 10 is inserted into the end of the wide-angle lens 20)

In addition, the wide-angle lens 20 is provided so that the focusing piece 22 is positioned at the end portion corresponding to the macro lens so that the distance from the macro lens 10 is adjusted. The focus adjusting piece 22 is formed in a ring shape and is screwed to the end of the wide-angle lens 20 to adjust the protruding position according to the rotational direction. Accordingly, while the evidence searching step using the wide-angle lens 20 and the photographing step of the evidence using the macro lens 10 are repeatedly performed, the wide-angle lens 20 and the macro lens 10 are separated by the focus adjusting piece 22. The distance is maintained accurately, and even if the initial setting position is changed during use, there is an advantage that the focusing between the wide-angle lens 20 and the macro lens 10 is easily performed in the field.

In addition, the illumination unit 30 according to the present invention is installed so as to adjust the angle on one side of the photographing unit 1, and irradiates ultraviolet rays to the subject side. The lighting unit 30 includes an ultraviolet lamp 32 and a reflection shade 34 whose rotation angle is adjusted about the ultraviolet lamp 32. 1 shows a state in which the ultraviolet lamp 32 is installed in the longitudinal direction, and the position of the ultraviolet lamp 32 is fixed while the reflection shade 34 is pivoted around the ultraviolet lamp 32 in a fixed state to adjust the ultraviolet irradiation direction. do.

As the lighting unit 30 is integrally synchronized with the photographing unit 1 as described above, even when the separation distance L1 (L2) between the evidence and the lens is changed as shown in FIG. 3, the UV irradiation position is performed by simply changing the angle of the reflection shade 34. Is easily adjusted, and even though the direction of ultraviolet irradiation is adjusted by adjusting the angle of the reflector 34, the separation distance between the subject and the ultraviolet lamp 32 is kept constant. Is prevented.

In addition, the reflection shade 34 is provided with an intermediate plate portion 34a that is bent in an arc shape and diffusely irradiates ultraviolet rays, and a side plate portion 34b that reflects ultraviolet rays scattered outwardly from both ends of the intermediate plate portion 34a toward the subject side. The intermediate plate portion 34a is formed in an arcuate shape so as to form a concentric circle with the ultraviolet lamp 32 to perform the role of reflecting and irradiating the light distribution of the ultraviolet lamp 32 forward, and the side plate portion 34b is provided at both ends of the intermediate plate portion 34a. It is formed so as to extend to irradiate the metering of the ultraviolet lamp 32 to the front.

That is, FIG. 4 (a) shows the distribution distribution of the direct light irradiated from the ultraviolet lamp 32 and the reflected light reflected by the intermediate plate portion 34a. The amount of light in the intermediate portion P1 is increased compared to the peripheral portion P2 on the subject side, and as shown in (b) of FIG. 4, it shows an ultraviolet irradiation distribution diagram irradiated by the side plate portion 34b, and the pair of side plate portions 34b. As the ultraviolet rays are irradiated at the crossing angle, the amount of light of the peripheral portion P2 is increased compared to the central portion P1 on the subject side.

Accordingly, the ultraviolet light is concentrated by the direct light of the ultraviolet lamp 32 and the reflected light of the intermediate plate portion 34a to the center portion P1 of the subject, and at the same time, the ultraviolet ray irradiated at the crossing angle by the pair of side plate portions 34b is applied to the subject. As concentrated in the peripheral portion P2, ultraviolet rays are uniformly irradiated on the center portion P1 and the peripheral portion P2 of the subject as shown in FIG. 4C to prevent the generation of shadows in the captured image.

5a to 5b is a photographed image for comparing the result of photographing the fingerprint by using the screening device of the prior art and the present invention.

5a is a conventionally photographed image by using the photographing unit and the lighting unit independently, and the focus of the photographing unit and the focus of the irradiation of the ultraviolet ray of the lighting unit are inconsistent, as well as the occurrence of shadows due to the uneven irradiation of the ultraviolet ray. 5B shows a partially overexposed state, and FIG. 5B shows the fingerprint 1 as being integrally synchronized with the photographing unit 1 and the lighting unit 30 according to the present invention and irradiated with ultraviolet rays uniformly distributed to the subject side through the reflector 34. Clearly taken.

10: Macro Lens 20: Wide Angle Lens
30: lighting unit

Claims (7)

In the evidence screening apparatus using the ultraviolet light provided with the photographing unit 1 for converting the ultraviolet light into visible light,
A macro lens 10 having one end mounted to the lens mount 1a of the photographing unit 1 and an auxiliary mount 12 provided at the other end thereof;
A wide-angle lens 20 mounted on the auxiliary mount 12 to convert the angle of view of the macro lens 10 into a wide angle; And
And an illumination unit 30 installed to adjust the angle on one side of the photographing unit 1 and irradiating ultraviolet rays to the subject side.
The auxiliary mount 12 is an evidence-proof apparatus using ultraviolet light, characterized in that the wide-angle lens 20 is pivoted around the hinge (12b) to be folded on the macro lens (10). delete delete In the evidence screening apparatus using the ultraviolet light provided with the photographing unit 1 for converting the ultraviolet light into visible light,
A macro lens 10 having one end mounted to the lens mount 1a of the photographing unit 1 and an auxiliary mount 12 provided at the other end thereof;
A wide-angle lens 20 mounted on the auxiliary mount 12 to convert the angle of view of the macro lens 10 into a wide angle; And
And an illumination unit 30 installed to adjust the angle on one side of the photographing unit 1 and irradiating ultraviolet rays to the subject side.
The auxiliary mount 12 is an evidence-detecting device using ultraviolet light, characterized in that the wide-angle lens 20 is inserted in a slide manner, and is fixed to the position by the elastic piece (12c). The method according to claim 1 or 4,
The wide-angle lens 20 is an evidence-proof apparatus using ultraviolet rays, characterized in that the focusing adjustment piece 22 is positioned to adjust the position of the end portion corresponding to the macro lens so that the distance from the macro lens 10 is adjusted. The method according to claim 1 or 4,
The lighting unit 30 is an ultraviolet light detection device using an ultraviolet light, characterized in that the ultraviolet lamp 32, and the reflection shade 34 that the pivot angle is adjusted around the ultraviolet lamp 32 is provided. The method according to claim 6,
The reflection shade 34 is bent in an arc shape is characterized in that the intermediate plate portion 34a for diffusing the ultraviolet rays and the side plate portion 34b for reflecting the ultraviolet rays scattered outward from both ends of the intermediate plate portion 34a toward the subject side. Evidence screening device using ultraviolet light.

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