KR20040095027A - lighting apparatus which diffuse infrared rays - Google Patents

Abstract

PURPOSE: An infrared lighting equipment for controlling light emission is provided to engage a viewing angle of an electromotive zoom lens with a viewing angle of an infrared lens, and to automatically control the viewing angle of the infrared lens according to the viewing angle of the electromotive zoom lens, thereby clearly illuminating an object. CONSTITUTION: A CCD camera(10) senses an object to automatically adjust a focus of a zoom lens, and outputs a digital image. A signal detector(20) detects an auto iris signal and a focus control signal. A controller(30) compares/analyzes the auto iris signal and the focus control signal, controls an infrared light output, and outputs a control signal for controlling a viewing angle of an infrared lens according to a viewing angle of the zoom lens. An infrared light source unit(40) controls an output of an infrared light source according to the control signal. An infrared lens unit(50) consists of the first optical lens for collecting emitted light, the second optical lens for controlling an emission angle of the light, and the third optical lens for preventing the light from being dispersed. A lens driver(60) moves the second optical lens according to the control signal, and controls an infrared emission angle.

Description

Lighting apparatus which diffuse infrared rays

The present invention relates to an infrared illumination device, and more particularly, to improve the lighting efficiency of a subject by allowing the angle of view of an electric zoom lens of a general camera and an angle of view of an infrared lens that clearly illuminates a subject even in dark or bad weather at night or in a field of view. It relates to a light divergence adjustment lighting device.

In general, surveillance cameras are installed indoors or outdoors, such as apartments, department stores, houses, etc. for the purpose of day and night security. Cameras equipped with infrared illuminators with infrared LD or LED are used for the places where the brightness is changed according to the conditions.

The infrared lighting device having the infrared LD or LED is automatically supplied with power when it falls below a set illuminance to operate the infrared LED, and provides a more distinguishable image through the light generated from the infrared LED, and at night or at a dark time. Allows you to shoot subjects even in bad weather.

However, the conventional infrared illuminating device having an infrared LD or LED has a fixed angle of divergence of infrared rays, so that when the screen is constructed while adjusting the angle of view of the camera using a digital camera such as a CCD camera, the focus of the subject, the perspective, the camera According to the zoom ratio of the infrared light is too narrow or wide, there is a problem that the illumination efficiency of the subject is reduced.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to link an angle of view of an electric zoom lens for adjusting an angle of view of a general camera and an infrared lens for emitting infrared light, according to an angle of view of the electric zoom lens. By adjusting the angle of view automatically, it is to illuminate the subject clearly even at night or in dark weather, and to improve the lighting efficiency.

1 is a block diagram illustrating an infrared illuminating device for adjusting light divergence according to an embodiment of the present invention.

2 is a perspective view showing an infrared lens unit of the light divergence adjustment lighting apparatus according to an embodiment of the present invention.

3 is a conceptual diagram showing the divergence angle of the light divergence adjustment lighting apparatus according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: CCD camera 20: signal detector

30 control unit 40 infrared light source unit

50: infrared lens unit 60: lens driving unit

The configuration of the present invention for achieving the above object is made as follows.

In the infrared lighting device that can shoot a subject even in low light,

A CCD camera which detects a subject and automatically focuses the zoom lens and outputs a digital image;

A signal detection unit for detecting an auto iris signal for adjusting the exposure of the CCD camera and a focus adjustment signal for adjusting the focus of the zoom lens according to the perspective of the subject;

Control to adjust the infrared light output according to the illuminance around the subject and to adjust the angle of view of the infrared lens according to the angle of view of the zoom lens of the CCD camera by comparing / analyzing the auto iris signal and the focus control signal applied by the signal detection unit A control unit for outputting a signal;

An infrared light source unit adjusting an output of the infrared light source according to a control signal applied from the controller so that a subject can be photographed even in a low illuminance;

A first optical lens that collects the light emitted from the infrared light source unit, a second optical lens that adjusts the divergence angle of the light collected by the first optical lens, and an agent that prevents light from being emitted from the second optical lens An infrared lens unit forming three optical lenses;

And a lens driver for adjusting the divergence angle of the infrared light by moving the second optical lens of the infrared lens part according to a control signal applied from the controller.

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

1 is a block diagram showing a light divergence adjusting lighting apparatus according to an embodiment of the present invention, Figure 2 is a perspective view showing an infrared lens unit of the light divergence adjusting lighting apparatus according to an embodiment of the present invention, Figure 3 Is a conceptual diagram showing the divergence angle of the light divergence adjustment lighting apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the light divergence adjusting lighting apparatus of the present invention compares a CCD camera 10 photographing a subject, a signal detector 20 connected to the camera, and a signal applied from the signal detector 20. A control unit 30 for outputting a control signal for controlling the light output of the infrared light and the divergence angle of the infrared light by analyzing the infrared light source unit 40 for emitting infrared light according to the control signal applied from the control unit 30; An infrared lens unit 50 for transmitting infrared rays emitted from the infrared light source unit 40 and a lens driver 60 for adjusting the firing angle of the infrared lens unit 50 according to a control signal applied from the controller 30. Consists of

The CCD camera 10 detects a subject and automatically outputs a digital image by focusing on a zoom lens, and adjusts the exposure of the camera according to the brightness of an image signal detected by the image sensor CCD of the camera. Outputs the (AutoIris) signal.

The signal detection unit 20 is connected to the CCD camera 10 detects an auto iris signal for adjusting the exposure of the camera and a focus adjustment signal for adjusting the focus of the zoom lens according to the perspective of the subject and outputs an electrical signal corresponding thereto. do.

The controller 30 compares / analyzes the auto iris signal and the focus control signal applied by the signal detector 20 to adjust the light output of the infrared rays according to the illuminance around the subject, and adjusts the zoom lens of the CCD camera 10. Outputs a control signal for adjusting the angle of view of the infrared lens according to the angle of view.

The infrared light source unit 40 emits infrared rays so that the subject can be photographed even in a low illuminance, and the output of the infrared light source is adjusted according to a control signal applied from the controller 30.

For example, it is preferable that the infrared light source unit 40 emits infrared rays by installing a laser diode (LD) or a light emitting diode (LED).

The infrared lens unit 50 illuminates a subject by transmitting infrared rays emitted from the red circle light source unit 40, and as illustrated in FIGS. 2A and 2B, first infrared rays collecting light emitted from the infrared light source unit 40. A lens 51, a second optical lens 52 for adjusting the divergence angle of the light collected by the first optical lens 51, and the agent for preventing the dispersion of light emitted from the second optical lens 52 The three optical lens 53 is formed.

For example, the first optical lens 51 uses a converging lens that collects light, the second optical lens 52 uses a diverging lens that emits light, and the third optical lens 53 has a purpose. Alternatively, it is preferable to use an optional lens that can produce convergence, divergence, or parallel rays according to the output, and the third optical lens can be omitted if necessary.

The lens driver 60 adjusts the divergence angle of the infrared ray by moving the second optical lens 52 of the infrared lens unit 50 according to a control signal applied from the controller 30.

Referring to the operation of the infrared illuminating device for light divergence adjustment of the present invention made as described above is as follows.

First, when the CCD camera 10 detects a subject, the CCD camera 10 applies a corresponding focus control signal and an auto iris signal to adjust the focus and nozzle of the zoom lens according to the perspective of the subject and the brightness of the image signal. Output

In this case, the signal detector 20 detects a focus control signal and an auto iris signal applied from the CCD camera 10 and outputs an electrical signal corresponding thereto to the controller 30.

The controller 30 outputs a control signal for controlling the output of the infrared light source by comparing / analyzing the focus control signal and the auto iris signal applied from the signal detector 20 to the infrared light source 40 and at the same time the infrared light source. The control signal for adjusting the divergence angle of the output to the lens driver (60).

At this time, the infrared light source unit 40 emits infrared rays to the subject through the infrared lens unit 50 by adjusting the output of the infrared light source according to the control signal applied from the controller 30.

At the same time, the lens driving unit 60 moves the second optical lens 52 of the infrared lens unit 50 in association with the zoom lens of the CCD camera according to a control signal applied from the control unit 30. Adjust divergence angle.

Meanwhile, the movement range setting and operation of the infrared lens unit 50 interlocked with the zoom lens of the CCD camera 10 will be described below.

First, when the initial power is supplied to the zoom lens of the CCD camera 10, the zoom lens of the CCD camera 10 is set to the minimum zoom state to have the widest angle of view, and at the same time, the zoom lens of the infrared lens unit 50 The two optical lenses 52 are positioned as shown in FIG. 2A and set to have the widest angle of view.

At this time, the maximum divergence angle can be adjusted by adjusting the position of the fixed block 2 (B).

Subsequently, the zoom lens of the CCD camera 10 is placed in the maximum zoom state, and the second optical lens 52 is positioned so that the infrared light visible on the screen fits the screen, and the fixed block is further prevented from moving the lens beyond the position. Using 1 (A), fix the movable range as shown in FIG. 2B.

In this way, the movement range of the second optical lens 52 is determined, and when the zoom lens of the CCD camera 10 is moved within this range, the light divergence angle of the infrared lens unit 50 depends on the position of the zoom lens. It will change linearly.

In addition, the second optical of the infrared lens unit 50 to move from the maximum light divergence angle of the infrared light to the minimum light divergence angle at the same time as the movement time from the minimum zoom magnification of the zoom lens of the CCD camera 10 to the maximum zoom magnification When the driving time of the lens 52 is synchronized, the angle of view of the zoom lens of the CCD camera 10 and the divergence angle of the infrared lens unit 50 may be automatically matched.

Therefore, when the zoom lens of the CCD camera 10 is adjusted from the minimum zoom magnification to the maximum zoom magnification, the second optical lens 52 of the infrared lens unit 50 is moved to increase the infrared divergence angle as shown in FIG. 3A. In contrast, when adjusted to the minimum zoom magnification at the maximum zoom magnification, the infrared divergence angle is adjusted according to the zoom magnification of the CCD camera 10 by adjusting the infrared divergence angle from the minimum divergence angle to the maximum divergence angle as shown in FIG. 3B. Can be adjusted automatically.

As described above, in the present invention, the zoom lens of the camera photographing the subject and the infrared lens of the infrared illuminating device are interlocked so that the infrared divergence angle of the infrared lens is automatically narrowed or widened according to the angle of view of the zoom lens of the camera. By improving the lighting efficiency and allowing the subject to be clearly identified even at night or in poor visibility, the expenses of buildings, apartments and houses can be more efficiently executed.

Claims (1)

In the infrared lighting device that can shoot a subject even in low light, A CCD camera 10 for detecting a subject and automatically outputting a digital image by focusing the zoom lens; A signal detector 20 for detecting an auto iris signal for adjusting the exposure of the CCD camera 10 and a focus adjustment signal for adjusting the focus of the zoom lens according to the perspective of the subject; Compare / analyze the auto iris signal and the focus control signal applied by the signal detector 20 to adjust the light output of the infrared rays according to the illuminance around the subject, and adjust the angle of view of the infrared lens according to the angle of view of the zoom lens of the CCD camera. A control unit 30 for outputting a control signal for performing the control; An infrared light source unit 40 which adjusts the output of the infrared light source according to a control signal applied from the controller 30 so that the subject can be photographed even in a low illuminance; A first optical lens 51 for collecting light emitted from the infrared light source unit 40, a second optical lens 52 for adjusting the divergence angle of the light collected by the first optical lens 51, and the second optical lens 51 An infrared lens unit 50 forming a third optical lens 53 which prevents dispersion of light emitted from the optical lens 52; Light divergence comprising: a lens driver 60 for adjusting the divergence angle of the infrared rays by moving the second optical lens 52 of the infrared lens unit 50 according to a control signal applied from the controller 40. Infrared illuminator for adjustment.