KR20200002131A - Hidden camera detector of IR light scattering - Google Patents

Abstract

According to the present invention, disclosed is a hidden camera detector using infrared light scattering. The present invention is improved to detect a hidden camera, which uses visible light filter technology to be difficult to recognize with naked eyes, directly with naked eyes and to distinguish a lens of a hidden camera which an existing hidden camera detector using reflection of light cannot distinguish from reflecting materials as a result of confirmation using reflected light after direct irradiation.

Description

Equipment for detecting voyeurism equipment using infrared light scattering {Hidden camera detector of IR light scattering}

The present invention relates to a technology for detecting voyeur equipment, and more specifically, for wired and wireless cameras, single-storage cameras, mobile phone basic cameras, cameras camouflaged with a filter, cameras camouflaged in a nail, etc. It is a technology that can detect voyeur equipment that is hard to visually recognize whether the power is on or off.

       In general, video recording is a method of transmitting a video signal of the camera via wired or wireless, or recording a video by storing it in its own memory such as a built-in memory camera. However, these video equipments are easily identified with the naked eye when the equipment is installed indoors.

      For this reason, it is impossible to check the voyeur equipment by disguising it in various shapes or making it difficult to visually check. For example, camouflage glasses that cover the camera with visible light filters, mirrors made of special glass, screw or button-type voyeur equipment are sold, and small cameras are hidden in speakers and toilet boxes used in daily life.

      Since the camera can detect rays other than the visible light seen by humans, making it difficult to realize natural colors, the camera has an internal infrared filter that blocks infrared rays for clean colors.

       However, the voyeur equipment has a miniaturization, so it is impossible to install an infrared cut filter inside the camera, and the same function is realized by coating the infrared cut filter on the lens portion exposed to the outside.

       Currently, camouflaged cameras using visible light filter technology are not visible to the naked eye, and hidden camera detection devices using visible light cannot be identified, and the equipment that detects video transmission radio cannot be confirmed even if the power is large. And voyeurs that transmit video signals digitally cannot be detected by analog signal hidden cameras.

      Light scattering is a scattering phenomenon that occurs when there is an impurity in the transparent medium or a partial change in refractive index. Infrared filter coated on the lens is light scattering occurs by coating the infrared filter impurities on the lens medium. Nails or metals, which are uniform media for indirect light, are not scattered, but infrared filter coated lenses are scattered and reflect the coated lens even in ambient light.

      Visible light scattering occurs in the lens, which results in poor image quality. Visible light has been developed to minimize light scattering. It has a larger area than the flat surface and accommodates light of various angles, so it is good for light scattering.

      When directly irradiated with infrared or visible light, it can be seen that the lens or reflecting material is reflected in the same way, but it is difficult to distinguish the lens and reflecting material so that it can be distinguished by using light scattering.

Publication No. 10-2017-0123773 (published date 2018.05.30.) Korean Patent Publication No. 10-2018-0051240 (published date 2018.05.16.)

The present invention is to improve the conventional problems as described above, the equipment to check the reflection by directly irradiating visible light and infrared light is detected only in one direction of the light nail head or metal and glass materials, other reflective materials and voyeur It is a problem that the reflection of the equipment lens is the same, and the voyeur equipment which cannot be visually checked by using the visible light filter technology is intended to solve the problem that the detection equipment using the visible light cannot be detected.

The apparatus for detecting a voyeur using infrared light scattering of the present invention for achieving the above object is equipped with a visible light filter and irradiates two or more infrared light to further widen the indirect light scattering generation area, and the visible light that is difficult to check with the naked eye. The voyeur equipment using the filter technology visually checks the voyeur equipment through the infrared image screen through which the infrared rays are directly transmitted and reflected, so that the nail head or the reflective materials are not scattered by the infrared indirect light and the lens is scattered by the infrared light. It was.

As described above, the present invention does not cause infrared light scattering of the reflective material, but distinguishes infrared light scattering light of the lens of the voyage equipment, and the voyage equipment using the visible light filter technology also allows the naked eye to check the object with the infrared image screen.

1 is a schematic block diagram of an apparatus for detecting a voyeur using infrared light scattering as an embodiment of the present invention.

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

      1 is a schematic block diagram of an apparatus for detecting a voyeur using infrared light scattering according to an embodiment of the present invention.

      Referring to FIG. 1, the apparatus for detecting voyage equipment using infrared light scattering according to an embodiment of the present invention includes an infrared light source unit 10 and 20, a visible light filter unit 30, a camera unit 40, and an image display unit ( 50).

      The infrared light source units 10 and 20 are configured to provide a light source for viewing an infrared transmitted image and to provide infrared indirect light for finding a lens for a voyeur.

      The visible light filter unit 30 is configured to block visible light so that only the reflected light source shot by infrared light from the infrared light source units 10 and 20 can be seen.

      Accordingly, the camera unit 40 is configured to detect an infrared light source using a built-in battery power and output an image.

      The image screen unit 50 is configured to view the image output from the camera unit 40 on the screen.

      In the apparatus for detecting a voyeur using infrared light scattering according to the present invention configured as described above, as shown in FIG. 1, when the infrared light is irradiated from the infrared light source units 10 and 20, the visible voyeur is not reflected to the transmitted infrared rays and mixed The visible light and the light reflected by the infrared light reaches the visible light filter unit 30, and the visible light is blocked to output the infrared light reflected by the camera unit 40 to the image screen unit 50.

     In addition, when the infrared light source unit 10 and 20 irradiates infrared rays around the voyeurism lens, indirect light of infrared rays is formed, and infrared reflection is generated by light scattering of the voyeur equipment, and the mixed visible rays and the rays reflected by the infrared rays are visible rays The filter 30 reaches the filter unit 30 to block visible light and output infrared rays reflected by the camera unit 40 to the image screen unit 50.

      Then, the voyeur equipment can be visually checked by the infrared rays transmitted and reflected on the screen output to the image screen unit 50, and the infrared rays reflected by the indirect light can identify the lens of the voyeur equipment.

      In the above description, the technical idea of the apparatus for detecting voyage equipment using infrared light scattering of the present invention has been described with the accompanying drawings, but this is by way of example only for describing the best embodiment of the present invention and not for limiting the present invention.

      Accordingly, the present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

10; Infrared light source unit 20; Infrared light source
30; Visible light filter unit 40; Camera
50; Video screen part

Claims (2)

An infrared light source unit for irradiating two or more infrared light sources;
A visible light filter unit blocking light other than the infrared light source irradiated from the infrared light source unit;
A camera unit for supplying power from a battery to output infrared light passing through the visible light filter unit as an image;
An image screen unit for viewing an image output of the camera unit on a screen;            According to claim 1, wherein the infrared light source is infrared transmission and infrared indirect light is formed, and the visible light filter unit to the visible light to remove the visible light and the reflected light infrared reflected by infrared light from the spectral equipment lens A voyeur detection device using infrared light scattering.

Images