KR101771365B1 - Laser Scale for Camera - Google Patents

Abstract

The present invention provides a laser scale for a camera, which comprises: a body unit (120) inserted into a camera lens; a device unit (140) enabling a laser beam to be emitted; and a clamp (160) enabling the camera lens and the body unit (120) to be strongly coupled. The device unit has a lens which reflects a portion of a laser beam outputted from a light emitting unit and passes through another portion of the laser beam. Therefore, a plurality of divided laser beams are reflected to the outside to be a sign of an object, and in a state of being the sign, the laser beams are photographed for a size of a product to be known.

Description

{Laser Scale for Camera}

Field of the Invention [0002] The present invention relates to a laser scale for a camera, and more particularly, to a laser scale for a camera capable of recognizing the size of an object with a photograph by combining a camera with a device for indicating a gap with a laser.

A camera is an optical device that allows users to take a variety of pictures while they are carrying it. Police or investigators take pictures of the evidence with the camera as the incident happens.

Generally, when you take a photo of evidence, you put the person along with the evidence.

FIG. 1 is a block diagram showing an example of a photograph of an evidence photograph taken using a conventional camera. As shown in FIG. 1, when photographs of evidence were conventionally taken, photographs were taken with a bamboo pattern or a product with a normal numerical value in the absence of a person.

So, every time I take a picture of evidence, I had to shoot it with my fingers and it took a long time to shoot.

Registered Patent Bulletin Korea Registration No. 10-0193494

The present invention has been proposed in order to solve the above problems, and it is an object of the present invention to provide a laser scale for a camera which can be used for a conventional camera and can be easily mounted and separated, .

According to an aspect of the present invention, there is provided a camera comprising: a ring-shaped main body fitted to a camera lens; a light emitting unit provided in the main body and outputting a laser beam; and a plurality of lenses provided in the main body, Lt; / RTI > Wherein the lenses are spaced apart from each other, a part of the laser beam is transmitted, a part of the laser beam is reflected, and the reflected laser beam is installed parallel to each other.

In this case, the lens is disposed so as to be spaced apart from the light emitting portion in a straight line, and the laser beam reflected from the lens is inclined so as to face the front of the camera lens; The laser beam output from the light emitting unit is output to the front of the light emitting unit, and a part of the laser beam is transmitted through the lens and a part of the laser beam is reflected.

In the above, the main body is further provided with a mirror; The lens is positioned between the mirror and the light emitting unit, and the laser beam passing through the lens is reflected by the mirror in front of the camera.

The mirror is installed so as to be spaced apart from the lens and inclined so that the reflecting surface of the mirror faces the front of the camera lens, and the laser beam reflected from the mirror and the laser beam reflected from the lens are arranged parallel to each other .

The main body further includes a ring-shaped extension body spaced from the main body. The extension body is connected to the main body by a protruding rod-shaped connection member. The laser scale for a camera further includes a clamp, And the clamp is located between the body and the extension body and is coupled to the extension body.

The main body includes a cylindrical outer tube portion, a cylindrical inner tube portion having a diameter smaller than that of the outer tube portion and located in parallel with the inner tube portion, and an annularly formed inner tube portion located at one end portion of the outer tube portion and the inner tube portion. And a bottom portion, and a space is formed between the main body and the cover to house the device portion.

The laser scale for a camera according to the present invention is easy to use by attaching it to a conventional camera, can take a photograph of an evidence quickly, and easily attaches and separates a laser scale for a camera and a camera.

FIG. 1 is a block diagram showing an example of a photograph of an evidence photograph taken using a conventional camera,
FIG. 2 is a perspective view showing a laser scale for a camera according to the present invention mounted on a camera lens,
3 is a perspective view of a laser scale for a camera according to the present invention,
Fig. 4 is an exploded perspective view of Fig. 3,
5 is a schematic view showing an apparatus part of a laser scale for a camera according to the present invention,
FIG. 6 is a plan view showing a combined state of the extension body and the clamp of the laser scale for a camera according to the present invention,
FIG. 7 is a block diagram illustrating an example of a photograph of an evidence photograph taken using a laser scale for a camera according to the present invention.

Hereinafter, a laser scale for a camera according to the present invention will be described in detail with reference to the accompanying drawings. In the detailed description, description of the contents described in the prior art will be omitted.

3 is a perspective view of a laser scale for a camera according to the present invention, Fig. 4 is an exploded perspective view of Fig. 3, Fig. 5 is an exploded perspective view of the camera scale, 6 is a plan view showing a state in which the extension body of the laser scale for a camera and the clamp are coupled to each other according to the present invention, and Fig. 7 is a cross- FIG. 8 is a block diagram showing an example of a photograph display of an evidence item taken using another laser scale for a camera.

In the following description, the left side of the width in Fig. 4 is described as "front of the camera ".

2 to 4, the laser scale 100 for a camera according to the present invention includes a main body 120 fitted to a camera lens, a device unit 140 for outputting a laser beam, And a clamp 160 for firmly coupling the main body 120.

As shown in FIG. 4, the main body 120 includes a main body 121 and a cover 125. The main body 121 is formed in a ring shape to be fitted into a camera lens. The main body 121 includes an outer tube 121a, an inner tube 121c, and a bottom 121b.

The outer tube portion 121a is cylindrical and the inner tube portion 121c has a smaller diameter than the outer tube portion 121a and is formed inside the outer tube portion 121a. The bottom part 121b is formed in an annular shape to be positioned at one end of the outer tube part 121a and the inner tube part 121c. That is, the main body 121 is formed as a hollow body having a front surface opened. The main body 121 has a space formed between the main body 121 and the cover 125 to receive the apparatus unit 140.

The outer tube 121a may have a cylindrical shape or may have various shapes. The bottom part 121b can also be formed in various models in which a circular hole into which a camera lens is inserted is formed. The diameter of the inner cylinder 121c is equal to the diameter of the camera lens.

The cover 125 is provided on the front surface of the main body 121 to close the opened surface of the main body 121. The cover 125 is formed in an annular shape having the same shape as the bottom 121b. A hole 1250 is formed in the cover 125.

The laser beam is emitted to the outside through the hole 1250. The holes 1250 may be formed as a plurality of small holes or as a single large hole.

5, the apparatus unit 140 includes a substrate 141, a light emitting unit 143, a lens 145, and a battery 147.

The substrate 141 has the same shape as the bottom 121b of the main body 121 and is smaller than the bottom 121b. The substrate 141 is formed of an annular plate. The substrate 141 is provided inside the main body 121. And is attached to the bottom portion 121b of the main body 121 of the substrate 141 in the present embodiment. The substrate 141 may be formed in various shapes that can be accommodated in the main body 121. The light emitting unit 143, the lens 145, the battery 147, and the mirror 149 are installed on the substrate 141. The substrate 141 can be replaced with the bottom 121b of the main body 121. [

The light emitting portion 143 is installed on the substrate 141. One of the light emitting units 143 may be provided and two laser beams of the light emitting units 143 may be provided at the end of the substrate 141 so as to be perpendicular to each other. The light emitting unit 143 is made of a laser and outputs a laser beam. The laser beam output from the light emitting unit 143 has a linearity so that even if the distance of the object to be photographed is large, the intensity of the light is not substantially reduced, and the laser beam is accurately displayed on an object. Since the laser is a known technique, a detailed description thereof will be omitted.

The plurality of lenses 145 are spaced apart from each other in a straight line with the light emitting portion 143 and positioned in front of the light emitting portion 143. The lens 145 is formed of a lens through which a part of the laser beam is transmitted and part of which is reflected. The lens 145 is installed such that the reflected laser beams are parallel to each other. And the laser beam reflected by the lens 145 is inclined so as to face the front of the camera lens.

The lens 145 outputs the laser beam output from the light emitting unit 143 to the front of the light emitting unit 143 and is then brought into contact with the laser beam output from the light emitting unit 143. A part of the laser beam output from the light emitting unit 143 in the lens 145 is transmitted to another neighboring lens 145. Also, a part of the laser beam output from the light emitting unit 143 in the lens 145 is reflected and output to the front of the camera. The laser beam reflected by the lens 145 is marked on an external object. The plurality of lenses 145 are provided, and the above process is repeated.

Therefore, a laser beam is output from the light emitting unit 143, a part of the laser beam is passed through each lens 145, and a part of the laser beam is reflected, so that one laser beam is output in parallel to the plurality of laser beams. The lens 145 divides one laser beam of the light emitting unit 143 into a plurality of light beams. The output laser beam is marked on an external object, and if the labeled object is photographed, the actual size of the object can be determined by photograph.

In this embodiment, the lens 145 is spaced apart from the light emitting portion 143 in a straight line and is spaced apart from the light emitting portion 143 by a predetermined distance. For example, the distance between the lenses 145 may be 1 cm.

The battery 147 is installed on the substrate 141. The battery 147 may be provided outside the main body 121. The battery 147 supplies electricity so that the light emitting unit 143 can output a laser beam. Since the battery is a known technology, a detailed description thereof will be omitted.

 The device unit 140 further includes a mirror 149. The mirror 149 is formed such that the lens 145 is positioned between the mirror 149 and the light emitting portion 143. That is, the mirror 149 is spaced apart from the lens 145. And the reflecting surface of the mirror 149 is inclined so as to face the front of the camera lens. Further, the laser beam reflected by the mirror 149 and the laser beam reflected by the lens 145 are installed parallel to each other.

Therefore, the laser beam having passed through the lens 145 due to the mirror 149 is totally reflected toward the front of the camera. This is efficient by preventing unwanted passing laser beams, and is clear and accurate until the last mark.

In this embodiment, the mirror 149 is spaced apart from the lens 145 by the same distance.

3 and 4, the clamp 160 is further included in the laser scale 100 for a camera.

The extension body 123 is further provided in the main body part 120. The main body 121 is positioned on the extension body 123 in front of the extension body 123. The extension body 123 is formed in a ring shape spaced apart from the main body 121. The extending body 123 is provided with a connecting member 1230. The connecting member 1230 is formed in the form of a rod protruding from the extending body 123. The extension body 123 is connected to the main body 121 by a connecting member 1230.

The clamp 160 is positioned between the body 121 and the extension body 123. The clamp 160 is engaged with the extension body 123. The clamp 160 allows the main body 121 and the camera lens to be more firmly coupled.

As shown in FIG. 7, when a camera equipped with the laser scale 100 for a camera of the present embodiment is used, such a photograph is taken. For example, the spacing of the laser is constantly spaced by 1 cm, so you can see the size of the product on the photo.

Up to now, the laser scale for a camera according to the present invention has been described with reference to the embodiments shown in the drawings, but it is merely an example, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible . Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

100: a laser scale for a camera 121:
123: extension body 125: cover
143: light emitting portion 145: lens
149: mirror 160: clamp

Claims (6)

A light emitting part 143 provided in the main body 121 and outputting a laser beam; a light emitting part 143 provided in the main body 121 so as to be positioned in front of the light emitting part 143; And a plurality of lenses (145) provided in the lens unit;
The lenses 145 are spaced apart from each other, a part of the laser beam is passed through and a part of the laser beam is reflected, and the reflected laser beams are installed parallel to each other;
The main body 121 includes a cylindrical outer tube portion 121a and a cylindrical inner tube portion 121c having a diameter smaller than that of the outer tube portion 121a and disposed in parallel with the inner tube portion 121a, And a bottom portion 121b formed at an end portion of the outer tube 121a and the inner tube portion 121c and connected to one end of the inner tube portion 121c. A space is formed between the main body 121 and the cover 125, ) Is accommodated in the housing (100). The apparatus according to claim 1, wherein the lens (145) is disposed so as to be spaced apart from the light emitting part (143) in a straight line, and the laser beam reflected by the lens (145) is inclined toward the front of the camera lens;
Wherein the laser beam output from the light emitting unit 143 is output to the front of the light emitting unit 143 so that a part of the laser beam is transmitted through the lens 145 and a part of the laser beam is reflected. 3. The apparatus of claim 2, further comprising a mirror (149) on the body (121); The lens 145 is positioned between the mirror 149 and the light emitting portion 143 so that the laser beam passing through the lens 145 is totally reflected toward the front of the camera by the mirror 149. [ (100). 4. The apparatus according to claim 3, wherein the mirror (149) is disposed away from the lens (145) and is inclined so that the reflecting surface of the mirror (149) faces the front of the camera lens, And a laser beam reflected from the lens (145) are arranged parallel to each other. The connector according to claim 1, wherein the body (121) further comprises a ring-shaped extension body (123) spaced from the body (121), the extension body (123) A clamp 160 connected to the main body 121 and to the camera laser scale 100; Characterized in that the clamp (160) is positioned between the body (121) and the extension body (123) and is coupled to the extension body (123). delete

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