KR200189102Y1 - CCD camera of many directions using mirror - Google Patents

Abstract

The present invention is a lens body mounted in the mount and a camera body with a built-in CCD module for converting the image incident through the lens into electrical energy, screwed to the mount of the camera body and is open in all directions perpendicular to the coupling direction A plurality of openings are formed to communicate with each of the openings and the camera body, a mirror mounted at a predetermined position in the barrel such that the images incident through the plurality of openings are collected and reflected to the camera body, and the respective openings. It is screwed in front of the and consists of an angle of view adjuster for adjusting the incident angle of the image in an array of a plurality of lenses.

Therefore, according to the present invention, it is possible to simultaneously monitor the multi-direction, ie front, rear, left and right areas by using one surveillance camera, and expand the shooting and surveillance area of the region. By adjusting the distance from the camera, the image quality of the captured image can be improved.

Description

Multi-Directional Surveillance Camera with Mirrors {CCD camera of many directions using mirror}

The present invention relates to a multi-directional surveillance camera (CCD camera) using a mirror, and more particularly, the structure of the barrel mounted on the mount of the surveillance camera to expand the direction and the area to be monitored by the surveillance camera It relates to a multi-directional surveillance camera using a mirror improved.

In the conventional case of using one surveillance camera, only the front area can be photographed, and the area that can be monitored using the surveillance camera is limited to the front only. Also, when using multiple surveillance cameras, the image captured by each surveillance camera is recorded as one. By outputting the screen, one place can monitor several places at the same time, but to do this, it is troublesome that several surveillance cameras must be installed in the place where the monitoring is required.

Accordingly, the applicant has been allowed to shoot and monitor multi-direction by one surveillance camera in Utility Model Registration Application No. 1999-26742 dated Dec. 01, 1999, but the objects in different positions and the surveillance camera are out of focus. There is a drawback that you cannot get clear picture quality. In addition, there is a drawback that a mirror having a predetermined shape reflects images in various directions as it is, and thus the area that can be monitored by the surveillance camera is narrowed.

An object of the present invention is to provide a multi-directional surveillance camera using a mirror that can simultaneously monitor the multi-direction, that is, the front, rear, left and right areas by using a single surveillance camera and to expand the shooting and surveillance area of the area. To provide.

In addition, another object of the present invention is to provide a multi-directional surveillance camera using a mirror to increase the image quality of the image to be photographed by adjusting the distance between the surveillance camera and the object to be monitored.

1 is an exploded perspective view showing a multi-directional monitoring camera using a mirror according to the present invention.

2 is a schematic cross-sectional view showing a multi-directional surveillance camera using a mirror according to the present invention.

Figure 3a, b is a perspective view showing another embodiment of a mirror embedded in the barrel of the surveillance camera according to the present invention.

※ Explanation of code about main part of drawing ※

1: Mount 2,7: Lens

3: camera body 4, 9, 10, 13, 16, 17, 19: spiral

6: barrel 8: lens case

11, 12, 18: opening 14, 14a, 14b: mirror

15: lid 20: fixed jaw

21: cushioning member 22: support

23: angle of view adjuster

The multi-directional surveillance camera using a mirror according to the present invention for achieving the above object is a camera body with a lens mounted in the mount and a built-in CCD module for converting the image incident through the lens into electrical energy; And a plurality of openings which are screwed to the mount of the camera body and open in all directions perpendicular to the coupling direction to communicate the respective openings with the camera body, and the images incident through the plurality of openings are collected. And a mirror mounted at a predetermined position in the barrel so as to be reflected by the camera body, and an angle of view adjuster which is screw-coupled to the front of each opening and adjusts an angle of incidence of an image in an array of a plurality of lenses.

As various embodiments of the mirror embedded in the barrel, a polygonal mirror having three or more surfaces corresponding one-to-one with the opening, a conical mirror, a semicircular mirror, or the like can be used.

In addition, a spiral is formed on the inner circumferential surface of the opening perforated in the upper portion of the barrel, the fixing jaw is formed in the inner circumferential surface of the support formed on the outer circumferential surface of the spiral portion screwed to the spiral portion is formed with a spiral portion and the opening is inserted into the lower end mirror It is formed to be inward, and the screw portion of the lid screwed to the spiral portion of the support can be fixed to the mirror.

Here, a cushioning member (such as a sponge) is inserted between the mirror and the lid to prevent the mirror from flowing, thereby minimizing the shaking of the mirror or the impact applied to the mirror.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with an exemplary drawing.

In the present invention, as shown in Figs. 2 and 3, in front of the camera body 3, a mount 1 having a lens 2 therein protrudes, and behind the lens 2, that is, the camera body 3 ) Has a built-in CCD module that converts an image incident through the lens 2 into an electrical signal and transmits the same to an unshown monitor or other output device or storage device. And the spiral part 4 screwed with the spiral part formed in the barrel 6 is formed in the front outer peripheral surface of the mount 1.

The barrel (6) is provided with a plurality of openings (11) extending open in the downward direction and in the horizontal direction to communicate with each other, and screwed with the spiral portion (4) formed on the mount (1) on the inner peripheral surface of the opening in the downward direction The spiral portion is formed, and the inner peripheral surfaces of the plurality of openings 11 facing in the horizontal direction are formed with the spiral portion 10 screwed with the spiral portion 9 formed on the outer peripheral surface of the lens case 8, respectively. It is comprised so that 23) may be fixed to the barrel 6. As shown in FIG.

A circular opening 12 having a spiral portion 19 is formed in the inner surface at a portion where the plurality of openings 11 formed to face the center of the upper end of the barrel 6, that is, all four directions, are drilled. An opening 18 having a predetermined shape into which the mirror 14 is inserted is formed inside the lower end of the support 22 having the spiral portion 13 to be screwed on the outer circumferential surface thereof, and the fixing jaw 20 supporting the mirror 14. This inwardly formed side is formed, and the spiral part 17 is formed in the inner peripheral surface of the support 22. As shown in FIG. A mirror 14 is inserted into the opening 14 of the support 22 to reflect an image incident through each opening 11, and the reflecting surface of the mirror 14 is the number of the openings 11. Has the same number as

Such a mirror may be configured in a polygonal shape having three or more surfaces corresponding one-to-one with an opening. In various examples, as illustrated in FIGS. 3A and 3B, a conical mirror 14a and a semicircular mirror 4b may be formed. Can be mentioned. Of course, as the shape of the mirror is changed, it is natural that the opening of the barrel through which the image is incident from various directions must also be converted to correspond to the mirror.

Moreover, the lid 15 of the predetermined shape which has the spiral part 16 in the outer peripheral surface, ie, the spiral part 17 of the support 22, is screwed together so that the mirror 14 may be fixed. Preferably, by forming a handle of a predetermined shape on the top of the lid 15 can be more smoothly separated coupling 15. In addition, the shock absorbing member 21 may be inserted between the mirror 14 and the lid 15 to minimize the shaking of the mirror 14 and the impact applied to the mirror 14.

The barrel (6), that is, the angle of view adjuster (23) coupled to each opening (11) is an image in which a plurality of lenses (7), such as convex and concave lenses, are embedded in the lens case (8) and reflected on the mirror (14). The focus and distance of the camera can be adjusted. Of course, by adjusting the distance between the mirror 14 and the angle of view adjuster 23 will be able to adjust the focus or distance of the image.

The operation of the present invention configured as described above will be described with reference to FIG.

When the surveillance camera is installed in a predetermined area and then driven, the image of the corresponding area incident through the angle of view adjuster 23 having a plurality of lenses 7 in different directions is installed by the mirror 14 having four sides. The light is reflected and incident on the CCD module in the surveillance camera through the lens 2 and converted into an electrical signal. At this time, the image reflected by the mirror 14 on the lens 2 of the camera body 3 is incident in a clear state by adjusting the focus and distance by the angle of view adjuster 23.

The images in various directions converted into electrical signals are divided into four screens and displayed on a screen not shown. Accordingly, a single surveillance camera can be used to simultaneously monitor a multi-direction region (that is, the region of the front, rear, left, and right sides of the surveillance camera).

Therefore, according to the present invention, a single surveillance camera can be used to simultaneously monitor and monitor multi-direction, ie front, rear, left and right areas, and can extend the shooting and surveillance area of the corresponding area. By controlling the distance from the camera, the image quality of the captured image can be improved.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical idea of the present invention, and such modifications and modifications belong to the appended utility model registration claims. will be.

Claims (6)

A camera body having a lens mounted in the mount and a CCD module for converting an image incident through the lens into electrical energy; A barrel which is screwed to the mount of the camera body and has a plurality of openings open in all directions perpendicular to the coupling direction to communicate the respective openings with the camera body; A mirror mounted at a predetermined position in the barrel such that the images incident through the plurality of openings are collected and reflected to the camera body; And An angle of view adjuster screwed to the front of each opening to adjust an angle of incidence of the image in an array of a plurality of lenses; Multi-directional surveillance camera using a mirror, characterized in that it comprises a. The method of claim 1, The mirror is a multi-directional surveillance camera using the mirror, characterized in that the mirror having a polygonal shape having three or more surfaces corresponding one-to-one with the opening. The method of claim 1, The mirror is a multi-directional surveillance camera using the mirror, characterized in that the mirror of the cone shape. The method of claim 1, The mirror is a multi-directional surveillance camera using the mirror, characterized in that the semi-circular mirror. The method of claim 1, A spiral is formed on the inner circumferential surface of the opening perforated in the upper portion of the barrel, and a fixing jaw in which the spiral is formed on the inner circumferential surface of the support formed on the outer circumferential surface of the spiral portion screwed to the spiral portion is formed and a hole is inserted into the lower end. And a spiral portion of the lid is screwed to the spiral portion of the support and is configured to fix the mirror. The method of claim 5, Multi-directional monitoring camera using the mirror, characterized in that the buffer member for preventing the flow of the mirror is interposed between the mirror and the lid.