KR102528733B1 - A test jig device and a portable test device for aligning optical mechanism of optical system in the video surveillance - Google Patents

Abstract

The present invention is able to, before installing a video surveillance device having a plurality of optical systems on the site, allow a user to check if the optical center points of optical systems of the video surveillance device match each other. If the optical center points do not match each other, the present invention is able to allow a user to align the optical mechanism of the plurality of optical systems so that the optical center points of the optical systems of the video surveillance device can match each other. The present invention is able to, therefore, prevent the difficulties in performing the precise and accurate surveillance photographing for a subject to be monitored due to an incorrect alignment of the optical mechanism of the plurality of optical systems. On the site where the video surveillance device is installed, the user is allowed to check if the optical center points of the optical systems of the video surveillance device having the plurality of optical systems match each other on the site. If the optical center points do not match each other, the user is allowed to align the optical mechanism of the plurality of optical systems on the site of installation so that the optical center points of the optical systems of the video surveillance device can match each other. Therefore, the present invention is able to allow the user to immediately test if the optical center points of the optical systems of the video surveillance device match each other on the site. The test jig device at least comprises: a dummy target plate (200), a transversal rotation unit (400), and an inclined rotation unit (500).

Description

A test jig device and a portable test device for aligning optical mechanism of optical system in the video surveillance}

The present invention relates to a test jig device for aligning optical mechanisms of an optical system of a video surveillance device and a portable test device, and more particularly, to the optics of optical systems of a video surveillance device having a plurality of optical systems before field installation of a video surveillance device having a plurality of optical systems. A test jig device for aligning optical mechanisms, which enables checking whether the center points coincide with each other and, if not, aligning the optical mechanisms of a plurality of optical systems so that the optical centers of the optical systems of the video surveillance system coincide with each other, and a portable test device It is a device related technology.

Recently, video surveillance technology for preventing increasing crimes and accidents and for personal safety and public security is developing.

In particular, such video surveillance technology is also applied to the defense field, and various military surveillance devices for monitoring enemy military facilities by capturing them as images are being developed and supplied.

Military video surveillance devices are generally configured to include surveillance cameras for daytime, surveillance cameras for nighttime, and surveillance cameras for low visibility, and each surveillance camera has an optical system for adjusting the focus, which constitutes the optical system formed in each surveillance camera. Various optical components used may have different optical characteristics depending on the manufacturer.

The optical centers of the optical systems formed in each camera (day surveillance camera, night surveillance camera, low visibility surveillance camera, etc.) constituting the military video surveillance device do not coincide with each other due to optical components having different optical characteristics for each manufacturer. If not, that is, when the optical mechanisms of the plurality of optical systems formed in the military video surveillance device are misaligned, it becomes difficult to precisely and accurately monitor and capture enemy military facilities.

Therefore, it is necessary to determine whether the optical center points of the plurality of optical systems formed inside the video surveillance device coincide with each other before the installation of the military video surveillance system. misaligned), it is necessary to align the optical mechanisms of the plurality of optical systems so that the optical center points of the plurality of optical systems coincide with each other.

Therefore, the present invention, due to the above necessity, allows checking whether the optical centers of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other before installing the video surveillance device having a plurality of optical systems, and if they do not match, To propose a technology related to a test jig device for aligning an optical mechanism and a portable test device capable of aligning the optical mechanisms of a plurality of optical systems so that the optical centers of the optical systems of a video surveillance device coincide with each other. The following are prior art related to this.

1. Republic of Korea Patent Registration No. 10-0923084 Camera mount arranged in a straight line through a 3-point target and a straight-line arrangement method using the same 2. Republic of Korea Patent Publication No. 10-2013-0033439 Geodetic surveying device with automatic high-precision target point aiming function 3. Republic of Korea Patent Publication No. 10-2022-0076592 Attitude stabilization target detection camera device for unmanned surface vehicle

The present invention makes it possible to check whether the optical centers of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other before installing the video surveillance device having a plurality of optical systems, and if not, the optics of the optical systems of the video surveillance device An object of the present invention is to enable optical mechanisms of a plurality of optical systems to be aligned so that the center point coincides with each other.

In order to achieve the above object, the test jig device for aligning the optical mechanism of the video surveillance optical system of the present invention,

a movable jig table 100;

a dummy target plate 200 on which a target mark is displayed, which moves in vertical and horizontal directions, rotates left and right, and tilts forward and backward;

a vertical/horizontal movement unit 300 that moves the dummy target plate 200 in vertical and horizontal directions;

a left and right rotation unit 400 that rotates the dummy target plate 200 left and right;

It is characterized in that it includes an inclination rotation unit 500 for incliningly rotating the dummy target plate 200 forward and backward,

In addition, another embodiment of the present invention, a portable test device for aligning an optical mechanism of an optical system of a video surveillance device,

a dummy target plate 200 on which a target mark is displayed, rotates left and right, and tilts forward and backward;

a left and right rotation unit 400 that rotates the dummy target plate 200 left and right;

It is characterized in that it includes an inclination rotation unit 500 that tilts the dummy target plate 200 forward and backward.

The present invention makes it possible to check whether the optical centers of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other before installing the video surveillance device having a plurality of optical systems, and if not, the optics of the optical systems of the video surveillance device It is possible to align the optical mechanisms of the plurality of optical systems so that the center points coincide with each other, thereby providing an effect of preventing difficulty in precisely and accurately monitoring an object to be monitored due to misalignment of the optical mechanisms of the plurality of optical systems.

In addition, the present invention makes it possible to check whether the optical center points of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other at the site where the video surveillance device is installed, and if they do not match, the optical center points of the optical systems of the video surveillance device By making it possible to align the optical mechanisms of a plurality of optical systems at the installation site to coincide with each other, it is possible to immediately test whether the optical centers of the optical systems of the video surveillance device coincide with each other in the field.

1 is an exemplary installation view of Embodiment 1 of the present invention
2 is an overall configuration diagram of Embodiment 1 of the present invention
3 is an exploded view of Example 1 of the present invention
4 is a detailed configuration diagram of a vertical/horizontal moving unit in Example 1 of the present invention;
5 is a vertical/horizontal movement unit operation state diagram according to Example 1 of the present invention;
6 is a detailed configuration diagram of a left and right rotation unit in Example 1 of the present invention;
7 is a state diagram of the operation of the left and right rotating parts according to the first embodiment of the present invention;
8 is a detailed configuration diagram of an inclined rotation unit of Example 1 of the present invention
9 is a state diagram of the operation of the inclined rotation unit in Example 1 of the present invention
10 is an exemplary installation view of embodiment 2 of the present invention
11 is an overall configuration diagram of Embodiment 2 of the present invention
12 is a detailed configuration diagram of a left and right rotation unit in Example 2 of the present invention

According to the present invention, a test jig device (10, hereinafter, Embodiment 1 of the present invention) for aligning an optical mechanism of an optical system of a video surveillance device and a portable test device (20, hereinafter, hereinafter) for aligning an optical mechanism of an optical system of an image surveillance device according to differences in some configurations. It is characterized by including embodiment 2) of the invention.

In the test jig device for aligning the optical mechanisms of the video surveillance device optical system, which is Example 1 (10) of the present invention, the optical center points of the optical systems of the video surveillance device having a plurality of optical systems are mutually If they do not match, the optical mechanisms of the plurality of optical systems can be aligned so that the optical centers of the optical systems of the video surveillance device coincide with each other, so that due to misalignment of the optical mechanisms of the plurality of optical systems, As an invention that provides an effect of preventing difficulty in precisely and accurately monitoring and photographing a monitoring target, as shown in FIG. 2, the jig table 100, the dummy target plate 200, and the vertical/horizontal moving unit 300 ), a left and right rotation unit 400, and an inclined rotation unit 500.

Specifically, the test jig device for aligning the optical mechanism of the optical system of the video surveillance device of the present invention, as shown in FIGS. 2 and 3,

a movable jig table 100;

a dummy target plate 200 on which a target mark is displayed, which moves in vertical and horizontal directions, rotates left and right, and tilts forward and backward;

a vertical/horizontal movement unit 300 that moves the dummy target plate 200 in vertical and horizontal directions;

a left and right rotation unit 400 that rotates the dummy target plate 200 left and right;

It is characterized in that it includes an inclination rotation unit 500 that tilts the dummy target plate 200 forward and backward.

The jig table 100 has a movable configuration, wheels are installed for movement, and a vertical/horizontal moving unit 300 is installed on the upper surface of the jig table 100.

In particular, on the vertical/horizontal movement unit 300 installed on the upper surface of the jig table 100, a left and right rotation unit 400 and an inclined rotation unit 500, which will be described later, are installed, so that the dummy target plate 200 moves vertically/horizontally and rotates left and right. , enables up and down tilt rotation.

The dummy target plate 200 has a configuration in which a target mark is displayed, moves in vertical and horizontal directions, rotates left and right, and tilts forward and backward.

The target mark displayed on the dummy target plate 200 enables checking whether optical center points of the optical systems of the video surveillance device coincide with each other, and if not, a plurality of optical systems such that the optical centers of the optical systems of the video surveillance device coincide with each other. It becomes a virtual target that allows them to align their optical mechanisms.

In order to be able to check whether the optical center points of the optical systems of the video surveillance system coincide with each other, the dummy target plate 200 marked with the target mark must be capable of moving vertically and horizontally, rotating left and right, and tilting forward and backward. do.

To this end, the dummy target plate 200 is moved in vertical and horizontal directions by a vertical/horizontal moving unit 300 to be described later, rotated in the left and right directions by a left and right rotation unit 400 to be described later, and an inclined rotation unit to be described later ( 500) rotates obliquely in the forward and backward directions.

The vertical/horizontal movement unit 300 is installed on the upper surface of the jig table 100 to move the dummy target plate 200 in vertical and horizontal directions.

When checking whether the optical centers of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other, the user moves the dummy target plate 200 in vertical/horizontal directions through the vertical/horizontal movement unit 300 .

Specifically, the vertical/horizontal moving unit 300, as shown in FIG. 4,

A pair of installation frames 310 installed on the upper surface of the jig table 100;

A horizontal movement unit 320 installed between the pair of installation frames 310 to horizontally move the dummy target plate 200;

It is characterized in that it includes a vertical moving unit 330 installed on the horizontal moving unit 320 to vertically move the dummy target plate 200 .

As shown in FIG. 2, the installation frame 310 is a pair of configurations installed on the upper surface of the jig table 100, and a pair of installation frames 310 having a certain height are on the upper surface of the jig table 100. It is installed in a spaced apart state at regular intervals, and a horizontal moving part 320 is installed between the pair of installation frames 310 to support the installed horizontal moving part 320 so that it can be installed at a certain height.

In particular, since the installation frame 310 supports the horizontal moving part 320 at a certain height, a space in which the vertical moving part 330 installed on the horizontal moving part 320 can move vertically is provided.

The horizontal movement unit 320 is installed between a pair of installation frames 310 to horizontally move the dummy target plate 200, and the horizontal movement unit 320 is a pair of installation frames 310 spaced apart from each other. The dummy target plate 200 is horizontally moved in between.

Specifically, the horizontal moving unit 320, as shown in FIGS. 4 and 5,

The vertical guide frame 332 of the vertical moving unit 330 is coupled and installed, and the horizontal moving plate 321 moves horizontally on the horizontal guide frame 322,

A horizontal guide frame 322 installed between a pair of installation frames 310 to guide the horizontal movement of the horizontal movement plate 321;

It is characterized in that it includes a horizontal driver 323 that horizontally moves the horizontal movement plate 321 to a target point on the horizontal guide frame 322 using a control signal or coordinate information provided from the outside.

The horizontal movement plate 321 is composed of a plate to which the vertical guide frame 332 of the vertical movement unit 330 is coupled and installed and a plate that moves horizontally on the horizontal guide frame 322, as shown in A of FIG. Likewise, the horizontal movement plate 321 is horizontally moved to a target point on the horizontal guide frame 322 by sliding in the horizontal direction on the horizontal guide frame 322 by the horizontal driving unit 323 .

The horizontal guide frame 322 is installed between a pair of installation frames 310 to guide the horizontal movement of the horizontal moving plate 321, and the horizontal guide frame 322 has a certain length in the horizontal direction.

That is, the horizontal guide frame 322 having a certain length in the horizontal direction functions as a kind of guide rail that guides the horizontal moving plate 321 to slide in the horizontal direction.

The horizontal driver 323 horizontally moves the horizontal movement plate 321 to a target point on the horizontal guide frame 322 using a control signal or coordinate information provided from the outside. In order to accurately move the 321 horizontally, it is preferable to apply a linear motor capable of precise position control.

At this time, when receiving a control signal or coordinate information from the outside, the horizontal drive unit 323 drives the horizontal movement plate 321 to slide to a target point on the horizontal guide frame 322 corresponding to the control signal or coordinate information. .

The vertical moving unit 330 is installed on the horizontal moving unit 320 to vertically move the dummy target plate 200. Specifically, the vertical moving unit 330 is shown in FIGS. 4 and 5. As

The vertical movement plate 331 to which the installation plate 410 of the left and right rotation unit 400 is coupled and vertically moved on the vertical guide frame 332,

A vertical guide frame 332 coupled to the horizontal movement plate 321 of the horizontal movement unit 320 and guiding the vertical movement of the vertical movement plate 331;

It is characterized in that it includes a vertical driver 333 that vertically moves the vertical movement plate 331 to a target point on the vertical guide frame using a control signal or coordinate information provided from the outside.

The vertical movement plate 331 has a configuration in which the installation plate 410 of the left and right rotation unit 400 is coupled and installed, and as shown in FIG. It slides in the vertical direction on the vertical guide frame 332 and vertically moves to a target point on the vertical guide frame 332 .

The vertical guide frame 332 is coupled to the horizontal movement plate 321 and has a configuration for guiding the vertical movement of the vertical movement plate 331, and the vertical guide frame 332 has a certain length in the vertical direction.

That is, the vertical guide frame 332 having a certain length in the vertical direction functions as a kind of guide rail that guides the vertical movement plate 331 to slide in the vertical direction.

The vertical driver 333 is a component that vertically moves the vertical movement plate 331 to a target point on the vertical guide frame 332 using a control signal or coordinate information provided from the outside.

As shown in FIG. 4 , the vertical drive unit 333 moves vertically along a movement guide groove formed on the side of the vertical guide frame 332 according to driving of a drive motor (3331, installed inside the vertical guide frame) and a drive motor. It is configured to include a movable body 3332 and a connecting bracket 3333 connecting the vertical movable body and the vertical movable plate 331, and when a control signal or coordinate information is received from the outside, a vertical guide frame corresponding to the control signal or coordinate information. The vertical movement plate 331 is driven to slide to the target point on 332 .

That is, the drive motor 3331 drives the vertical movement plate 331 to slide and move to the target point on the vertical guide frame 332 corresponding to the control signal or coordinate information, and the vertical guide frame 332 is driven by the drive motor. ) The vertical movable body 3332 moves along the movement guide groove formed on the side, and as the vertical movable body 3332 moves, the vertical movable plate 331 connected to the vertical movable body 3332 through the connecting bracket 3333 is a vertical guide frame. It moves vertically to the target point on (332).

The left and right rotation unit 400 is configured to rotate the dummy target plate 200 left and right, and as shown in FIGS. It is coupled and installed to the vertical moving plate 331.

When checking whether the optical centers of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other, the user horizontally rotates the dummy target plate 200 at a constant angle in the left and right direction through the left and right rotation unit 400 .

Specifically, the left and right rotation unit 400, as shown in FIG. 6,

An L-shaped installation plate 410 coupled to the vertical movement plate 331 of the vertical/horizontal movement unit 300 and having a base frame 420 installed on the upper surface thereof;

A base frame 420 coupled to the upper surface of the installation plate 410 and having a left and right rotation plate 430 installed at the center of the upper surface;

An inclined rotation unit 500 is installed on the upper surface, and a left and right rotation plate 430 installed in the center of the upper surface of the base frame 420 and rotated left and right by the left and right rotation drive unit 450,

A left and right rotation control unit 440 formed on one side of the base frame 420 to adjust the left and right rotation amount of the left and right rotation plate 430,

It is characterized in that it includes a left and right rotation driving unit 450 formed inside the base frame 420 so as to rotate the left and right rotation plate 430 left and right according to the control of the left and right rotation control unit 440 .

The installation plate 410 is coupled to the vertical movement plate 331 of the vertical/horizontal movement unit 300 and has a configuration in which a base frame 420 is installed on the upper surface, and the installation plate 410 has an L-shape. The vertical surface is coupled to the vertical moving plate 331 of the vertical/horizontal moving unit 300, and the base frame 420 is installed on the horizontal surface.

The base frame 420 is installed coupled to the upper surface (horizontal surface) of the L-shaped installation plate 410, and the left and right rotation plate 430 is installed in the center of the upper surface of the base frame 420, and the base frame 420 ) An installation groove 421 is formed at the center of the upper surface of the left and right rotation plate 430 is inserted and installed.

The left and right rotation plate 430 has an inclined rotation unit 500 installed on the upper surface, installed in the center of the upper surface of the base frame 420, and rotated left and right by the left and right rotation drive unit 450, as shown in FIG. Likewise, the left and right rotation plate 430 is inserted into the installation groove 421 formed in the center of the upper surface of the base frame 420 and functions as a kind of turntable that rotates left and right.

The left and right rotation control unit 440 is a kind of control bar formed on one side of the base frame 420 to control the amount of left and right rotation of the left and right rotation plate 430, and the user adjusts the left and right rotation using the control bar. The amount of left and right rotation of the left and right rotation plate 430 is controlled by adjusting the unit 440 .

The left and right rotation driving unit 450 is formed inside the base frame 420 to rotate the left and right rotation plate 430 left and right according to the control of the left and right rotation control unit 440, and the user is a control bar. When the left and right rotation control unit 440 is operated, the left and right rotation driving unit 450 rotates the left and right rotation plate 430 by a rotation amount corresponding to the amount of operation of the left and right rotation control unit 440, which is a control bar.

Referring to FIG. 7 , when the user manipulates the left and right rotation control unit 440, which is an adjustment bar, to rotate the dummy target plate 200 to the right by a certain amount, the left and right rotation driving unit 450 is the left and right rotation control unit. As shown in FIG. 7 , the left and right rotation plate 430 is rotated to the right by a rotation amount corresponding to the manipulation amount of 440 .

On the other hand, it is necessary to check the horizontal installation state of the test jig device of the present invention. If the test jig device of the present invention is not installed horizontally, the dummy target plate 200 is also not in a horizontal state, and due to this, an error may occur when aligning the optical mechanisms of the plurality of optical systems of the video surveillance device 30. can To this end, as shown in FIG. 6 , the left and right rotation part 400 is installed on the upper surface of the installation plate 410 and is characterized in that it further includes a leveler 460 to check the inclination of the device.

If the test jig device is not in a horizontal state through the leveler 460 (if the dummy target plate 200 is not in a horizontal state), the user moves the jig table 100 so that the test jig device is in a horizontal state. .

The tilt rotation unit 500 tilts the dummy target plate 200 forward and backward. When checking whether optical centers of the optical systems of a video surveillance device having a plurality of optical systems match each other, the user uses the tilt rotation unit 500 to rotate the dummy target plate 200 forward and backward. The target plate 200 is obliquely rotated in the forward and backward directions.

Specifically, the inclined rotation unit 500, as shown in FIG. 8,

An inclined base frame 510 coupled to the upper surface of the left and right rotation plate 430 of the left and right rotation unit 400 and having an inclined rotation plate 520 installed thereon;

A target plate mount 550 is installed on the upper surface, and an inclined rotation plate 520 installed on the upper side of the inclined base frame 510 and rotated inclinedly on the upper side of the inclined base frame 510 by the inclined rotation driving unit 540,

An inclination rotation controller 530 installed on one side of the inclination base frame 510 to adjust the inclination rotation amount of the inclination rotation plate 520;

An inclination rotation driving unit 540 installed inside the inclination base frame 510 so as to tilt the inclination rotation plate 520 according to the control of the inclination rotation control unit 530;

It is characterized in that it includes a target plate mount 550 installed on the upper surface of the inclined rotation plate 520 to which the dummy target plate 200 is coupled and installed.

In particular, the tilt rotation range of the tilt rotation plate 520 is -8° to +8°.

The inclined base frame 510 is installed coupled to the upper surface of the left and right rotation plate 430 of the left and right rotation part 400, and the inclined rotation plate 520 is formed on the upper side, and the left and right rotation plate of the left and right rotation part 400 ( 430) When rotating left and right, the inclined base frame 510 is also rotated left and right, so that the entire inclined rotating part 500 is rotated left and right.

The inclined rotation plate 520 has a target plate mount 550 installed on the upper surface, installed on the upper side of the inclined base frame 510, and inclined rotation on the upper side of the inclined base frame 510 by the inclined rotation drive unit 540. In this case, the tilt rotation range of the tilt rotation plate 520 is -8° to +8°.

The inclined rotation plate 520 is installed to be able to slide on the upper side of the inclined base frame 510, and as shown in FIG. 9, the inclined rotation plate 520 rotates so-called Viking on the upper side of the inclined base frame 510 It rotates obliquely in the form of a pendulum motion called

At this time, if the inclination rotation range of the inclination rotation plate 520 is too large, the inclination rotation range of the dummy target plate 200 in the front-back direction also becomes too large, and the plurality of video surveillance devices 30 through the dummy target plate 200 Since it becomes difficult to check whether the optical centers of the optical systems for aligning the optical mechanisms coincide or not, it is preferable to limit the tilt rotation range of the tilt rotation plate 520 to -8° to +8°.

The inclination rotation controller 530 is a kind of control bar formed on one side of the inclination base frame 510 to adjust the amount of inclination rotation of the inclination rotation plate 520. The tilt rotation amount of the tilt rotation plate 520 is adjusted by adjusting the controller 530 .

The inclined rotation driving unit 540 is formed inside the inclined base frame 510 to tilt the inclined rotation plate 520 according to the control of the inclined rotation control unit 530, and the user can use the control bar When the inclination rotation controller 530 is manipulated, the inclination rotation driver 540 tilts the inclination rotation plate 520 by an inclination rotation amount corresponding to the amount of manipulation of the inclination rotation controller 530, which is a control bar. rotate

Referring to FIG. 9 , when the user manipulates the tilt rotation controller 530, which is a control bar, to tilt the dummy target plate 200 backward by a predetermined amount, the tilt rotation driver 540 adjusts the tilt rotation. As illustrated in FIG. 9 , the tilt rotation plate 520 is tilted forward by an tilt rotation amount corresponding to the manipulation amount of the unit 530 so that the dummy target plate 200 is tilted backward by a predetermined amount.

The target plate mount 550 is installed on the upper surface of the inclined rotation plate 520 and is coupled to the dummy target plate 200, so that the dummy target plate 200 is stably installed on the upper surface of the inclined rotation plate 520. support the union

Since the dummy target plate 200 moves in vertical and horizontal directions, rotates left and right, and tilts forward and backward, the dummy target plate 200 is stably installed on the inclined rotation plate ( 520), the dummy target plate 200 stably moves in vertical and horizontal directions, rotates left and right, and tilts forward and backward.

Hereinafter, Embodiment 2 of the present invention will be described in detail with reference to the accompanying drawings.

In the portable test device for aligning the optical mechanisms of the video surveillance device optical system, which is Example 2 (20) of the present invention, at the site where the video surveillance device is installed, whether the optical centers of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other. , and if they do not match, the optical mechanisms of the plurality of optical systems can be aligned at the installation site so that the optical centers of the optical systems of the video surveillance device coincide with each other, so that the optical center points of the optical systems of the video surveillance device coincide with each other As an invention that provides an effect that can be tested immediately in the field, as shown in FIG. 11, it is characterized by comprising a dummy target plate 200, a left and right rotation unit 400, and an inclined rotation unit 500. do.

Specifically, the portable test device for aligning the optical mechanism of the optical system of the video surveillance device according to the present invention, as shown in FIGS. 10 and 11,

a dummy target plate 200 on which a target mark is displayed, rotates left and right, and tilts forward and backward;

a left and right rotation unit 400 that rotates the dummy target plate 200 left and right;

It is characterized in that it includes an inclination rotation unit 500 that tilts the dummy target plate 200 forward and backward.

Compared to the above-described embodiment 1 (10), the second embodiment (20) of the present invention does not include the vertical/horizontal moving unit 300 for moving the dummy target plate 200 in vertical and horizontal directions. to be characterized

In the portable test device for aligning the optical mechanisms of the video surveillance device optical system, which is Example 2 (20) of the present invention, at the site where the video surveillance device is installed, whether the optical centers of the optical systems of the video surveillance device having a plurality of optical systems coincide with each other. As shown in FIG. 10, it is installed and used on a mount 40 such as a camera tripod in the field.

The dummy target plate 200 of the second (20) embodiment of the present invention has a structure in which a target mark is displayed, rotates left and right, and tilts forward and backward, and the dummy target plate 200 of the first embodiment (10) described above. Since the plate 200 has the same structural characteristics, a detailed description thereof will be omitted.

The left and right rotation unit 400 of the second (20) embodiment of the present invention is configured to rotate the dummy target plate 200 left and right, as shown in FIG. 12,

An installation plate 410 coupled to a mount on which a portable test device can be installed and having a base frame 420 installed thereon;

A base frame 420 coupled to the upper surface of the installation plate 410 and having a left and right rotation plate 430 installed at the center of the upper surface;

An inclined rotation unit 500 is installed on the upper surface, and a left and right rotation plate 430 installed in the center of the upper surface of the base frame 420 and rotated left and right by the left and right rotation drive unit 450,

A left and right rotation control unit 440 installed on one side of the base frame 420 to adjust the left and right rotation amount of the left and right rotation plate 430,

It is characterized in that it includes a left and right rotation drive unit 450 installed inside the base frame 420 so as to rotate the left and right rotation plate 430 left and right according to the control of the left and right rotation control unit 440 .

The installation plate 410 has a configuration coupled to and installed on a mounting table 40 on which a portable test device 20 can be installed at a site where a video surveillance device is installed. ) Same as the installation plate 410, but in the form, L-shaped like the installation plate 410 of the above-described embodiment 1 (10) of the present invention, or as shown in FIG. 12, flat plate shape can be

The structural characteristics of the base frame 420, the left and right rotation plate 430, the left and right rotation adjusting unit 440, and the left and right rotation driving unit 450 are the base frame 420 of the first embodiment (10) of the present invention described above. Since the structural features of the left and right rotation plate 430, the left and right rotation controller 440, and the left and right rotation drive unit 450 are the same, detailed descriptions thereof are omitted.

In addition, the left and right rotation part 400 of the portable test device for aligning the optical mechanism of the optical system of the video surveillance device according to the second (20) embodiment of the present invention is installed on the upper surface of the installation plate 410, and is a horizontal level ( 460), and the structural features of the leveler 460 of the second (20) embodiment of the present invention are the same as those of the leveler 460 of the first embodiment (10) of the present invention. omit explanation.

On the other hand, the left and right rotation part 400 of the portable test device for aligning the optical mechanism of the optical system of the video surveillance device of the second embodiment (20) of the present invention is different from the left and right rotation part 400 of the first embodiment (10) of the present invention. It is characterized in that it further comprises a handle 470 installed on the side of the plate 410.

The handle 470 is a configuration for ease of installation when the portable test device for aligning the optical mechanism of the optical system of the video surveillance device according to the second embodiment of the present invention (20) is coupled to a mount 40 such as a camera tripod in the field. .

If the handle 470 is not configured, when the portable test device for aligning the optical mechanism of the optical system of the video surveillance device according to the second embodiment of the present invention (20) is coupled to the mount 40 such as a camera tripod in the field. , It is installed by touching the dummy target plate 200, the left/right rotation unit 400, or the inclined rotation unit 500. Due to this touch, the dummy target plate 200, the left/right rotation unit 400, or the tilt rotation unit 500 are abnormal. this can happen

In order to prevent this, when the portable test device for aligning the optical mechanism of the video surveillance optical system, which is Example 2 (20) of the present invention, is coupled to a mount 40 such as a camera tripod in the field, as shown in FIG. , After unfolding the handle 470 in a folded state so that the user can grip it, when the user grips the unfolded handle 470, the optical mechanism of the video surveillance optical system according to the second embodiment of the present invention (20) The portable test device for alignment can be easily combined and installed on a mount 40 such as a camera tripod in the field.

The inclined rotation unit 500 of the second embodiment of the present invention (20) is configured to tilt the dummy target plate 200 forward and backward,

An inclined base frame 510 coupled to the upper surface of the left and right rotation plate 430 of the left and right rotation unit 400 and having an inclined rotation plate 520 installed thereon;

A target plate mount 550 is installed on the upper surface, and an inclined rotation plate 520 installed on the upper side of the inclined base frame 510 and rotated inclinedly on the upper side of the inclined base frame 510 by the inclined rotation driving unit 540,

An inclination rotation controller 530 installed on one side of the inclination base frame 510 to adjust the inclination rotation amount of the inclination rotation plate 520;

An inclination rotation driving unit 540 installed inside the inclination base frame 510 so as to tilt the inclination rotation plate 520 according to the control of the inclination rotation control unit 530;

It is characterized in that it includes a target plate mount 550 installed on the upper surface of the inclined rotation plate 520 to which the dummy target plate 200 is coupled and installed.

In particular, the tilt rotation range of the tilt rotation plate 520 is -8° to +8°.

The structural features of the inclined rotation unit 500 of the second embodiment of the present invention (20) are the same as those of the inclined rotation unit 500 of the first embodiment of the present invention (10) described above, and a detailed description thereof is omitted. do.

Although the technical idea of the present invention has been described above with the accompanying drawings, this is an illustrative example of a preferred embodiment of the present invention, but does not limit the present invention, and the scope of the present invention is not limited to the embodiments, and this It will be obvious that those skilled in the art include modifications within the scope of the technical idea of the present invention.

10: Test jig device for aligning the optical mechanism of the video surveillance system
20: Portable test device for aligning the optical mechanism of the video surveillance optical system
30: video monitoring device
40: installation table
100: jig table
200: dummy target plate
300: vertical/horizontal moving part
400: left and right rotation part
500: inclined rotation part

Claims (13)

In the test jig device for aligning the optical mechanism of the video surveillance optical system,
a movable jig table 100;
a dummy target plate 200 on which a target mark is displayed, which moves in vertical and horizontal directions, rotates left and right, and tilts vertically;
a vertical/horizontal moving unit 300 that moves the dummy target plate 200 in vertical and horizontal directions;
a left and right rotation unit 400 that rotates the dummy target plate 200 left and right;
Including an inclination rotation unit 500 for incliningly rotating the dummy target plate 200 forward and backward,

The left and right rotation part 400,
An L-shaped installation plate 410 coupled to the vertical movement plate 331 of the vertical/horizontal movement unit 300 and having a base frame 420 installed on the upper surface thereof;
A base frame 420 coupled to an upper surface of the installation plate 410 and having a rotating plate 430 installed in the center of the upper surface;
An inclined rotation unit 500 is installed on the upper surface, and a left and right rotation plate 430 installed in the center of the upper surface of the base frame 420 and rotated left and right by the left and right rotation drive unit 450,
A left and right rotation control unit 440 formed on one side of the base frame 420 to adjust the left and right rotation amount of the left and right rotation plate 430,
The optics of an optical system of a video surveillance device comprising a left and right rotation driver 450 formed inside the base frame 420 so as to rotate the left and right rotation plate 430 left and right according to the control of the left and right rotation control unit 440 Test jig device for mechanism alignment.
The method of claim 1,
The vertical/horizontal movement unit 300,
A pair of installation frames 310 installed on the upper surface of the jig table 100;
A horizontal movement unit 320 installed between the pair of installation frames 310 to horizontally move the dummy target plate 200;
A test jig device for aligning an optical mechanism of an optical system of an image surveillance device, characterized in that it includes a vertical moving unit 330 installed on the horizontal moving unit 320 to vertically move the dummy target plate 200.
The method of claim 2,
The horizontal moving unit 320,
The vertical guide frame 332 of the vertical moving unit 330 is coupled and installed, and the horizontal moving plate 321 moves horizontally on the horizontal guide frame 322,
A horizontal guide frame 322 installed between a pair of installation frames 310 to guide the horizontal movement of the horizontal movement plate 321;
A horizontal drive unit 323 for horizontally moving the horizontal movement plate 321 to a target point on a horizontal guide frame using a control signal or coordinate information provided from the outside,
The vertical movement unit 330,
The vertical movement plate 331 to which the installation plate 410 of the left and right rotation unit 400 is coupled and vertically moved on the vertical guide frame 332,
A vertical guide frame 332 coupled to the horizontal movement plate 321 of the horizontal movement unit 320 and guiding the vertical movement of the vertical movement plate 331;
A test for aligning an optical mechanism of an optical system of an image surveillance device, characterized in that it includes a vertical driving unit 333 that vertically moves the vertical movement plate 331 to a target point on the vertical guide frame using a control signal or coordinate information provided from the outside. jig device.
delete The method of claim 1,
The left and right rotation part 400,
A test jig device for aligning an optical mechanism of an optical system of a video surveillance device, characterized in that it further comprises a level 460 installed on the upper surface of the installation plate 410 to check the inclination of the device.
The method of claim 1,
The inclined rotation part 500,
An inclined base frame 510 coupled to the upper surface of the left and right rotation plate 430 of the left and right rotation unit 400 and having an inclined rotation plate 520 installed thereon;
A target plate mount 550 is installed on the upper surface, and an inclined rotation plate 520 installed on the upper side of the inclined base frame 510 and rotated inclinedly on the upper side of the inclined base frame 510 by the inclined rotation driving unit 540,
An inclination rotation controller 530 installed on one side of the inclination base frame 510 to adjust the inclination rotation amount of the inclination rotation plate 520;
An inclination rotation driving unit 540 installed inside the inclination base frame 510 so as to tilt the inclination rotation plate 520 according to the control of the inclination rotation control unit 530;
A test jig device for aligning an optical mechanism of an optical system of an image surveillance device, characterized in that it includes a target plate mount 550 installed on the upper surface of the inclined rotation plate 520 and to which the dummy target plate 200 is coupled and installed.
The method of claim 6,
The test jig device for aligning the optical mechanism of the video surveillance optical system, characterized in that the tilt rotation range of the tilt rotation plate 520 is -8 ° to +8 °.
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