KR20110055233A - Infrared lighting apparatus - Google Patents

Abstract

PURPOSE: An infrared illumination controlling apparatus is provided to control the quantity of light of the infrared light source according to the change of necessary illumination by using an infrared illumination CCD camera. CONSTITUTION: A signal detection unit(120) detects a focus controlling signal which controls the focus of a zoom lens according to an automatic eyeless signal that controls the exposure to a CCD camera. A control unit(130) outputs a control signal to control the amount of light and controls the light output of an infrared ray by comparing a focus control signal. A main light source driving unit(150) photographs a subject by controlling the output of a main infrared ray light source according to the control signal.

Description

Infrared lighting device for adjusting zoom interlocking light {InfraRed Lighting Apparatus}

The present invention relates to an infrared illuminating device for adjusting zoom interlocked light, and using an CCD camera 10 that detects a subject and automatically focuses a zoom lens and outputs a digital image. In the illumination device, a signal detector 120 for detecting an auto iris signal for adjusting the exposure of the CCD camera 10 and / or a focus adjustment signal for adjusting the focus of the zoom lens according to the perspective of the subject, and the signal detector ( 120 compares / analyzes the AutoIris signal and the focus control signal applied by the controller, and adjusts the light output of the infrared light according to the illuminance around the subject, and adjusts the amount of light in conjunction with the angle of view of the zoom lens of the CCD camera 10. Control unit 130 for outputting a control signal for controlling the output of the main infrared light source 151 according to the control signal applied from the control unit 130 And a main light source driver 150 for photographing a subject even at a low illuminance, wherein the auxiliary light source 162 includes one or more infrared light sources 161 according to a control signal applied from the controller 130. It relates to a zoom-linked light amount control infrared illumination device 100, characterized in that it comprises one or more auxiliary light source driver 160 to adjust the output of the) to shoot the subject even in a low illumination.

In general, surveillance cameras are installed indoors or outdoors, such as apartments, department stores, houses, etc. for the purpose of day and night security, and these surveillance cameras are general cameras used in places that maintain a predetermined brightness for monitoring time and outside. 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 illuminating device having the infrared LD or LED is automatically supplied with power when it falls below a set illuminance to operate an infrared light source, and provides a more discriminating image through the light generated from the infrared light source, and at night or at a dark time. Allows you to shoot subjects even in bad weather.

On the other hand, when configuring a screen while adjusting the angle of view of the camera using a digital camera such as a CCD camera, infrared illuminators that adjust the divergence angle of infrared rays according to the focus of the subject, the perspective and the zoom magnification of the camera have been mainly used. .

Many infrared lighting devices have been proposed and used to control the divergence angle by adjusting the light collection speed. However, many existing infrared illuminators use the first focusing point to adjust the divergence angle while using a light source having a property close to a point light source. A lens unit including a lens diverging lens-second focusing lens and a mechanical component for driving the same were used.

However, such a conventional infrared illuminator uses a lens array of a complex configuration, as well as a mechanical component such as a drive motor for driving the same, the configuration is complicated and the cost increases, There has been a problem that mechanical component failure and subsequent maintenance is required.

The present invention solves the problems of the above-described conventional inventions, and does not require a mechanical component to change the divergence angle of the light beam according to the distance to the place to be photographed or the required illumination by using an infrared CCD camera. The problem is that the amount of light is adjusted to enable more efficient photography.

In addition, there is no mechanical drive element for adjusting the distance between the lens assembly and the light source for adjusting the light divergence angle, so that there is no need to worry about the failure of mechanical components such as a motor and maintenance.

On the other hand, in addition to adjusting the output of the infrared light source, in order to adjust the brightness of the infrared light source, it is possible to adjust the number of lighting of each of the plurality of infrared light sources configured to enable the brightness control of the infrared light source while maintaining high efficiency. Let that be the task.

In order to achieve the above object, the zoom-linked light amount control infrared illuminating device of the present invention, even when the subject is low, using a CCD camera 10 for detecting a subject and automatically focusing the zoom lens and outputting a digital image. In the infrared illuminating device for photographing, the signal detection unit 120 for detecting the auto iris signal for adjusting the exposure of the CCD camera 10 and the focus adjustment signal for adjusting the focus of the zoom lens according to the perspective of the subject, Compare / analyze the AutoIris signal and the focus control signal applied by the signal detector 120 to adjust the light output of the infrared rays according to the illuminance around the subject, and interlock with the angle of view of the zoom lens of the CCD camera 10. Control unit 130 for outputting a control signal for adjusting the amount of light and the main infrared light source 151 according to the control signal applied from the control unit 130 It includes a main light source driving unit 150 to adjust the output of the) to shoot the subject even in a low illumination, consisting of one or more infrared light source 161 according to the control signal applied from the controller 130. It characterized in that it comprises one or more auxiliary light source driver 160 to adjust the output of the auxiliary light source 162 to be photographed even in a low illumination.

In addition, the auxiliary light source driver 160 changes the lighting quantity of the infrared light source 161 constituting the auxiliary light source 162 according to a control signal applied from the controller 130 to change the amount of lighting of the auxiliary light source 162. Adjusting the output is characterized in that it further has a function to shoot the subject even in low light.

In addition, one of the auxiliary light source 162 is characterized by consisting of two or more infrared light source 161 arranged on the outer circumferential circle of the main infrared light source 151.

In addition, the control unit 130 has a main light source output control input means 141 for inputting a signal for adjusting the output of the main infrared light source 151, and an auxiliary light source output control for adjusting the output of the auxiliary light source 162. One or more auxiliary light source adjustment input means configured to include an input means 142 and an auxiliary light source lighting quantity adjustment input means 143 for changing the lighting quantity of the infrared light source 161 constituting the auxiliary light source 162 ( It is characterized in that the operation input unit 140, including 144 is further connected.

In addition, the signal detection unit 120, the control unit 130 and the main light source driver 150 is embedded, the front is arranged on the outer peripheral source of the main infrared light source 151 and the main infrared light source 151. The main light source case 170 and two or more infrared light sources 161 are installed, and connected through the main light source case 170 and the support 171, the auxiliary light source driver 160 is embedded therein, the front At least one auxiliary light source case 172 to which the auxiliary light source 162 is installed, and a protective cover installed on an upper surface of the main light source case 170 to protect the main light source case 170 from direct sunlight and an external environment. 173, a first connector 110 installed at a rear surface of the main light source case 170, and connecting the CCD camera 10 and the signal detector 120 to the main light source case 170. It is installed on the rear side and the control unit 130 and the operation input unit (1) It characterized in that it further comprises a second connector 111 for connecting 40.

According to the present invention, more efficient shooting by adjusting the amount of light of the infrared light source without the mechanical component for changing the divergence angle of the light beam according to the distance to the place to be photographed or the required illuminance using the infrared CCD camera This has the advantage of being possible.

In addition, since there is no mechanical driving element for adjusting the distance between the lens assembly and the light source for adjusting the light divergence angle, there is an advantage that there is no need to worry about the failure and maintenance of mechanical components such as a motor.

On the other hand, in addition to adjusting the output of the infrared light source, in order to adjust the brightness of the infrared light source, it is possible to adjust the number of lighting of each of the infrared light source composed of a plurality of advantages that the brightness of the infrared light source can be adjusted while maintaining high efficiency There is this.

Hereinafter, with reference to the accompanying drawings, it will be described in detail an infrared illumination device for adjusting the zoom-linked light amount according to an embodiment of the present invention. First, it should be noted that the same components or parts in the drawings are denoted by the same reference numerals as much as possible. In the following description of the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

As shown in FIG. 3, the present invention includes a signal detector 120, a controller 130, a main light source driver 150, and an auxiliary light source driver 160.

As illustrated in FIG. 3, the signal detection unit 120 detects a subject and automatically adjusts the exposure of the CCD camera 10 for outputting a digital image by focusing the zoom lens. Accordingly, a focus adjustment signal for adjusting the focus of the zoom lens is detected.

The controller 130 compares / analyzes an AutoIris signal and a focus control signal applied by the signal detector 120 to adjust the light output of infrared rays according to the illuminance around the subject, and the CCD camera 10 Outputs a control signal for adjusting the amount of light in conjunction with the angle of view of the zoom lens.

The main light source driver 150 adjusts the output of the main infrared light source 151 according to a control signal applied from the controller 130 so that the subject can be photographed even in a low illuminance.

The auxiliary light source driver 160 adjusts the output of the auxiliary light source 162 composed of one or more infrared light sources 161 as shown in FIG. 1 according to a control signal applied from the controller 130 to lower the illuminance. Allows you to shoot the subject even in places. The auxiliary light source driver 160 may be configured to include one or more as shown in FIG. The infrared light source 510 preferably emits infrared rays by installing a laser diode (LD) or a light emitting diode (LED). On the other hand, the auxiliary light source driver 160 changes the amount of lighting of the infrared light source 161 constituting the auxiliary light source 162 according to the control signal applied from the controller 130 of the auxiliary light source 162 It is desirable to further have a function of adjusting the output so that the subject can be photographed even in low light. This function is particularly useful when the infrared light source 161 is configured using a light emitting diode (LED). That is, in the case of LED, it is possible to adjust the amount of light by controlling the input voltage or current, but the driving efficiency when driving at a low light amount compared to the case of outputting the optimized light amount is significantly reduced. Therefore, when performing the function of adjusting the output of the infrared light source 161 in the auxiliary light source driver 160, in the case of the present invention considering the use of a plurality of the infrared light source 161 is a low output illumination If necessary, it is preferable to drive only a few of the infrared light sources 161 to the optimized light output state, and to drive all of the infrared light sources 161 to the optimized light output state when high output illumination is required. The auxiliary light source driving unit 160 has a function of changing the number of lighting of each of the infrared light sources 161 according to a control signal applied from the control unit 130 using a switching element or the like. Since the technology is widely used in the field, a detailed description thereof will be omitted. On the other hand, one of the auxiliary light source 162 may be composed of two or more infrared light sources 161 arranged on the outer circumferential circle of the main infrared light source 151, as shown in FIG.

In addition to the automatic zoom linkage function of the present invention, in order to adjust the amount of light directly by the user's needs, the controller 130 adjusts the output of the main infrared light source 151 as shown in FIG. 3. A main light source output control input means 141 for inputting a signal to be input, an auxiliary light source output control input means 142 for adjusting the output of the auxiliary light source 162, and the infrared light source constituting the auxiliary light source 162 ( Preferably, the operation input unit 140 including one or more auxiliary light source adjustment input means 144 configured to include an auxiliary light source lighting quantity adjustment input means 143 for changing the lighting quantity of the 161 is further connected. . In this case, the main light source output control input means 141, the auxiliary light source output control input means 142 and the auxiliary light source lighting quantity control input means 143 may be configured in various ways such as using a button or a switch. In one embodiment, it is possible to configure a push button form arranged regularly as shown in FIG. Since the technique of configuring the manipulation input unit 140 for inputting the above-described control signal is a technique widely known and used in the field to which the present invention belongs, detailed description thereof will be omitted.

Meanwhile, when the present invention is actually installed and used, as illustrated in FIGS. 1 and 2, the signal detection unit 120, the control unit 130, and the main light source driving unit 150 are embedded, and the front surface of the signal detection unit 120 is installed. A main light source case 170 in which a main infrared light source 151 and two or more infrared light sources 161 arranged on an outer circumferential circle of the main infrared light source 151 are installed, the main light source case 170 and a supporter ( It is preferable to further include at least one auxiliary light source case 172 connected through the 171, the auxiliary light source driving unit 160 therein, the auxiliary light source 162 is installed on the front. In this case, it is preferable that a protective cover 173 is provided on the upper surface of the main light source case 170 to protect the main light source case 170 from direct sunlight and an external environment as shown in FIG. 1. On the other hand, the first connector 110 is installed on the back of the main light source case 170 and connects the CCD camera 10 and the signal detector 120 as shown in FIG. 2 for easy installation and use. And a second connector 111 installed at a rear surface of the main light source case 170 and connecting the control unit 130 and the manipulation input unit 140.

Hereinafter, the operation of the zoom-linked light amount control infrared illumination device 100 according to an embodiment of the present invention will be described.

First, if you want to take a distant subject, the auto iris signal for adjusting the exposure of the CCD camera 10 transmitted from the CCD camera 10 and / or the focus adjustment signal for adjusting the focus of the zoom lens according to the perspective of the subject. By detecting and interlocking accordingly, the amount of light of the zoom-linked light adjusting infrared ray lighting apparatus 100 is increased.

On the contrary, when photographing a nearby subject, an auto iris signal for adjusting the exposure of the CCD camera 10 transmitted from the CCD camera 10 and / or a focus adjustment signal for adjusting the focus of the zoom lens according to the subject's perspective are detected. Accordingly, the amount of light of the zoom-linked light adjusting infrared ray lighting apparatus 100 is reduced by interlocking accordingly.

Thus, it is possible to provide infrared illumination of the required amount of light according to the perspective or illuminance of the subject without a mechanical operating element.

In the foregoing description, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a front perspective view of a zoom-linked light amount control infrared illuminating device according to an embodiment of the present invention.

2 is a rear perspective view of the zoom-linked light amount control infrared illuminating device according to an embodiment of the present invention.

3 is a block diagram illustrating a structure of an infrared illumination device for controlling zoom-linked light amount according to an embodiment of the present invention.

<Description of Symbols Used in Main Parts of Drawing>

10: CCD camera

100: infrared lighting device

110: first connector 111: second connector

120: signal detector 130: controller

140: operation input unit 141: main light source output control input means

142: auxiliary light source output adjustment input means

143: auxiliary light source lighting quantity control input means

144: auxiliary light source control input means

150: main light source driver 151: main infrared light source

160: auxiliary light source driving unit 161: infrared light source

162: auxiliary light source

170: main light source case 171: support

172: auxiliary light source case 173: protective cover

Claims (5)

In the infrared illuminating device that detects the subject and automatically captures the subject even in low light using a CCD camera 10 that automatically focuses the zoom lens and outputs a digital image. A signal detection unit 120 for detecting an auto iris signal for adjusting the exposure of the CCD camera 10 and / or a focus adjustment signal for adjusting the focus of the zoom lens according to the perspective of the subject; Compare / analyze the AutoIris signal and the focus control signal applied by the signal detector 120 to adjust the light output of the infrared rays according to the illuminance around the subject, and interlock with the angle of view of the zoom lens of the CCD camera 10. Control unit 130 for outputting a control signal for adjusting the amount of light; A main light source driver 150 which adjusts the output of the main infrared light source 151 according to a control signal applied from the controller 130 so that the subject can be photographed even in a low illuminance; Consists of including An auxiliary light source driver 160 for controlling an output of the auxiliary light source 162 including one or more infrared light sources 161 according to a control signal applied from the controller 130 to photograph the subject even in a low illuminance; Zoom-linked light amount control infrared illumination device 100, characterized in that it comprises one or more. The method according to claim 1, The auxiliary light source driver 160 changes the lighting quantity of the infrared light source 161 constituting the auxiliary light source 162 according to a control signal applied from the controller 130 to output the output of the auxiliary light source 162. Infrared illumination device 100, the zoom-linked light amount control, characterized in that it further has a function to allow the shooting of the subject even in low light by adjusting. The method according to claim 1 or 2, One of the auxiliary light source (162) is a zoom-linked light amount control infrared illumination device (100), characterized in that composed of two or more infrared light sources (161) arranged on the outer circumference of the main infrared light source (151). The method of claim 3, The control unit 130 has a main light source output control input means 141 for inputting a signal for controlling the output of the main infrared light source 151, and an auxiliary light source output control input means for adjusting the output of the auxiliary light source 162. 142 and one or more auxiliary light source adjustment input means 144 including an auxiliary light source lighting quantity adjustment input means 143 for changing the lighting quantity of the infrared light source 161 constituting the auxiliary light source 162. Zoom input light intensity control infrared illuminating apparatus 100, characterized in that the operation input unit 140 is configured to include a further connection. The method according to claim 4, The signal detector 120, the controller 130, and the main light source driver 150 are embedded, and two front surfaces are arranged on the outer circumference of the main infrared light source 151 and the main infrared light source 151. A main light source case 170 in which the above infrared light source 161 is installed; At least one auxiliary light source case 172 connected to the main light source case 170 and the support 171, and having an auxiliary light source driving unit 160 embedded therein and having the auxiliary light source 162 installed at a front surface thereof; A protective cover 173 installed on an upper surface of the main light source case 170 and protecting the main light source case 170 from direct sunlight and an external environment; A first connector 110 installed at a rear surface of the main light source case 170 and connecting the CCD camera 10 to the signal detector 120; A second connector 111 installed at a rear surface of the main light source case 170 and connecting the control unit 130 and the operation input unit 140; Zoom-linked light amount control infrared illumination device 100, characterized in that further comprises a.

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