KR100794557B1 - Device for indicating an area taken by a camera - Google Patents

Abstract

An apparatus for displaying a photographing area is provided to simultaneously perform photographing and the display of a photographing area using a simple configuration unified with a video camera. An apparatus for displaying a photographing area comprises a laser generation unit(110), a conversion unit(120) and a laser forwarding unit(140). The laser generation unit(110) generates and irradiates a laser beam having a specific wavelength band. The conversion unit(120) converts the laser beam, generated and irradiated from the laser generation unit(110), in the form of an indicator which can display an appointed region. The laser forwarding unit(140) enables the converted laser beam to be outputted on the forwarding path of an image forwarding light, which delivers the image information of an object, to a camera, in the opposite direction to the image forwarding light.

Description

DEVICE FOR INDICATING AN AREA TAKEN BY A CAMERA}

1 is a perspective view showing a photographing area display device of a conventional physical imager;

2 is a cross-sectional view schematically showing a photographing area display device employed in an actual imager according to a preferred embodiment of the present invention;

3 is a use state diagram showing a state of use of the photographing area display device employed in the physical imager according to the preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: photographing area display device 110: laser generating means

120: conversion means 130: auxiliary lens

140: laser transmission means 200: video camera

210: CCD 220: magnification lens

L, L ': laser beam I: image transmission light

P: Subject

The present invention relates to a photographing area display device for displaying a photographing area of an image photographing apparatus, and more particularly, to a photographing area display apparatus for visualizing an area photographed by a camera of an image photographing apparatus by using a laser beam. It is about.

In general, an image photographing apparatus converts image information of a subject obtained by photographing into an electrical signal, stores the image information, or transmits the image information to a display device such as a screen or a monitor to illuminate the image. However, if you need to zoom in on a part of the subject using the video camera or move the shooting area in the enlarged state, the location of the shooting area is not displayed objectively, making it difficult to find the shooting location. There was a problem.

In view of such a problem, conventionally, a photographing area display device of an actual imager which emits a laser beam to a subject to display a photographing area on a subject has been proposed. As shown in FIG. 1, the conventional photographing area display device of the real object imager includes four laser injection apparatuses 10 installed around the video camera 1. The laser injection apparatus 10 includes a motor that determines the amount of rotation by a control signal, a drive gear installed on a rotating shaft of the motor, a laser injection unit rotatably coupled to a case, and generating and irradiating a laser beam L and a drive gear. It is composed of a driven gear to rotate the laser injection unit by transmitting the rotation of the laser injection unit. The laser jetting apparatus 10 rotates each laser jetting unit through a control signal transmitted according to the photographing area of the video camera 1 to adjust the scale of the display line displayed in a square shape on the subject by the laser beam L. do. Accordingly, the area in the display line corresponds to the photographing area of the video camera 1 so that the photographing area of the video camera 1 can be displayed on the subject.

However, such a photographing area display device of a conventional real imager has a problem in that it is complicated and expensive, and requires a relatively large amount of power. In addition, since the video camera 1 and the laser jetting apparatus 10 are dualized, an error according to a variable in the process of calculating a photographing area of the video camera 1, converting it into a control signal, and transmitting it to the laser jetting apparatus 10 again. There was a possibility that may occur, a time difference may occur between the shooting of the video camera 1 and the display of the shooting area of the laser injection device 10, there is a problem that does not meet the fast screen switching.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and provides a photographing area display apparatus of an actual imager which simultaneously captures a video camera and displays a photographing area by using a simple configuration unified with a video camera.

The photographing area display device of the present invention for achieving the above object is a laser generating means for generating and irradiating a laser beam having a predetermined wavelength band, an indicator form capable of displaying a predetermined area of the laser beam of the laser generating means Conversion means for converting the light beam into a laser beam means for outputting the laser beam converted in the opposite direction to the image transmission light on the transmission path of the image transmission light for transmitting the image information of the subject to the camera. It is preferable that the area display device is provided in the real imager.

 Here, it is preferable to further include an auxiliary lens provided on the output path of the converted laser beam to adjust the scale of the converted laser beam so that the indicators displayed on the photographing area of the camera and the subject correspond to each other.

In addition, the laser generating means is a laser diode, the conversion means is composed of a diffraction optical element for converting the input laser beam into a specific shape and output.

In addition, the laser transfer means is provided on the transmission path of the image transmission light is made of an optical mirror that reflects the converted laser beam and transmits light outside the wavelength band of the laser beam.

Preferably, the indicator is preferably made of any one of a shape of a rectangular border line, a dot representing a corner of the rectangle, and a shape representing a part of each corner portion of the rectangular border line.

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

2 is a schematic cross-sectional view of a photographing area display device employed in an actual imager according to a preferred embodiment of the present invention. As shown in the drawing, the photographing area display apparatus 100 of the physical imager according to the present invention displays a laser generating means 110 for generating and irradiating a laser beam and a laser beam radiated from the laser generating means 110. Converting means 120 for converting the laser beam, an auxiliary lens 130 for adjusting the scale of the laser beam converted into an indicator form, and laser transmitting means 140 for transmitting the adjusted laser beam to the subject. )

The laser generating means 110 is a laser diode for generating a laser beam L having a predetermined wavelength band using a forward semiconductor junction as an active medium, and is used as a charge coupled device 210 of the video camera 200. It is provided on one side of the video camera 200 so as not to interfere with the optical path of the image transmission light (I) of the subject. The laser generating means 110 is preferably located in the video camera 200 so that the optical path of the laser beam (L) to be irradiated and the optical path of the image transmission light (I) cross each other. The conversion means 120 for converting the laser beam L of the laser generating means 110 into the form of an indicator is provided in front of the laser generating means 110 to which the laser beam L is irradiated. The converting means 120 is a diffraction optical element for converting the linear laser beam L input by using a diffraction phenomenon into a specific shape and outputting the specific shape. The present invention employs a diffractive optical element configured to convert the input laser beam L into a square frame shape or a dot shape representing a corner of the square so as to increase the discrimination power. The laser beam L 'converted by the converting means 120 is scaled by the auxiliary lens 130. The auxiliary lens 130 is provided in front of the converting means 120 through which the converted laser beam L 'is output to refract the transmitted laser beam L' to adjust its scale to correspond to the photographing area of the camera. do. The scale of the laser beam L 'is preferably equal to or slightly larger than the photographing area. The laser beam L 'whose scale is adjusted by the auxiliary lens 130 is transmitted to the subject by the laser transfer means 140. The laser transfer means 140 is positioned at the point where the optical path of the image transfer light I of the subject input to the CCD 210 and the optical path where the laser beam L 'is output intersect to intersect the image transfer light I and the laser. The beam L 'is provided to input and output in the same optical path. Here, the laser transfer means 140 is made of a light mirror that reflects a laser having a predetermined wavelength band and transmits light having the other wavelength as it is. Accordingly, the laser transfer means 140 reflects the laser beam L 'to have the same optical path as the optical path of the image transfer light I without interfering with the image transfer light I input to the CCD 210. To pass on. The laser beam L 'transmitted to the subject in the same optical path as the optical path of the image transmission light I is transmitted through the same path as the image transmission light I through the magnification lens 220 that controls the imaging magnification of the CCD 210. Therefore, it is linked with the enlargement or reduction of the photographing area photographed by the CCD 210.

Hereinafter, the operation and use state of the photographing area display apparatus 100 of the real imager according to an exemplary embodiment of the present invention will be described with reference to the drawings.

3 is a use state diagram showing a state of use of the photographing area display device employed in the physical imager according to the preferred embodiment of the present invention.

2 and 3, when the photographing area display apparatus 100 of the real image presenter of the present invention receives the laser beam L irradiated from the laser generating means 110 into the converting means 120, the converting means 120. ) Converts the input laser beam L into an indicator form, preferably, a rectangular borderline or a corner bordered portion of a rectangular borderline, a dot representing a corner of a rectangle, and outputs the converted laser beam L. FIG. The scaled and output laser beam L 'is adjusted to correspond to the photographing area of the CCD 210 via the auxiliary lens 130, and the scaled laser beam L' is laser-transmitting means. The light beam is reflected by the light beam and has the same optical path as that of the image transmission light I input to the CCD 210, and proceeds and is displayed on the subject. Accordingly, the image information of the image transfer light I input to the CCD 210 is displayed on a screen or a monitor through a projector connected to the real imager, and the indicator corresponding to the photographed area is displayed on the subject P. . The photographing area display apparatus 100 is not limited to the real imager and may be used in any field in which a camera is employed.

The present invention is not limited to the above embodiments, and various modifications may be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims.

As described in detail above, the photographing area display device according to the present invention can be manufactured with a simple configuration, thereby lowering the manufacturing cost, and the input / output optical paths of the laser beam converted into the indicator form and the image transmission light input to the CCD are the same. By uniting so that the laser beam and the image transmission light is dualized, it provides an effect that can solve the error according to the variables that can occur as input and output to a separate optical path and conditions.

Claims (9)

A photographing area display device for displaying a photographing area photographed by a video camera of an imaging device on a subject, Laser generating means for generating and irradiating a laser beam having a predetermined wavelength band; Conversion means for converting the laser beam of the laser generating means into an indicator form capable of displaying a predetermined area; And a laser transfer means for outputting the converted laser beam in a direction opposite to the image transfer light on a transmission path of the image transfer light transferring the image information of the subject to the camera. The method of claim 1, The image photographing device is a photographing area display device, characterized in that the real picture. The method of claim 1, And an auxiliary lens provided on the output path of the converted laser beam to adjust the scale of the converted laser beam such that the photographing area of the camera and the indicator displayed on the subject correspond to each other. The method of claim 1, And the laser generating means is a laser diode. The method of claim 1, And said converting means is a diffraction optical element for converting an input laser beam into a specific shape and outputting the same. The method of claim 1, And the laser transfer means is a filter mirror installed on the transmission path of the image transfer light to reflect the converted laser beam and to transmit light outside the wavelength band of the laser beam. The method of claim 1, And the indicator is in the form of a rectangular border line. The method of claim 1, And the indicator is in the form of a dot representing a corner of a quadrangle. The method of claim 1, And the indicator is a shape showing a part of each corner portion of the rectangular border line.

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