KR101114828B1 - InfraRed Lighting Apparatus - Google Patents

Abstract

The present invention relates to an infrared illuminating device capable of adjusting zoom linking light divergence angle, and comprising an infrared illuminating device capable of photographing a subject even in a low light intensity, and detecting a subject and automatically focusing the zoom lens to output a digital image. A CCD camera 110, an auto iris signal for adjusting the exposure of the CCD camera 110, and a focus adjustment signal for adjusting the focus of the zoom lens according to the subject's perspective, and outputting an electrical signal corresponding thereto. Analyzes the auto iris signal and the focus control signal applied by the detector 120 and the signal detector 120 to adjust the light output of the infrared rays according to the illumination of the surroundings of the subject, and the zoom lens of the CCD camera 110. The control unit 130 and the control unit 130 for outputting a control signal for adjusting the light diffuse angle in conjunction with the angle of view of the The light source driver 140 adjusts the output of the infrared light source 510 which is arranged and arranged on at least one concentric circle on the light source plate 500 according to the control signal to be applied so that the subject can be photographed even in a low illuminance. ) And a lens plate 600 and the light source plate 500 provided with condensing lenses 610 that share an optical axis with each of the infrared light sources 510 according to a control signal applied from the controller 130. It relates to an infrared illuminating apparatus 100 capable of adjusting zoom-linked light divergence angle, characterized in that it comprises a divergence angle adjusting means 300 for adjusting the divergence angle of the infrared rays by adjusting the distance therebetween.

According to the present invention, it is possible to adjust the light divergence angle of the infrared light source according to the distance to the place to be photographed using the infrared CCD camera or the change in the required illuminance, and thus there is an advantage that more efficient photography is possible.

In addition, by using a plurality of infrared light sources, the light source has a property close to a planar light source, and uses a plurality of focusing lenses that share an optical axis with each infrared light source, and thus only a relatively low-precision, inexpensive and small-size focusing lens is used. Even though there is an advantage that the excellent light divergence angle can be adjusted.

On the other hand, in addition to adjusting the light divergence angle of the infrared light source and the output of the infrared light source, it is possible to adjust the lighting quantity of each infrared light source composed of a plurality in order to adjust the brightness of the infrared light source, The advantage is that the brightness can be adjusted.

Light divergence angle, Focusing speed, Infrared, Light source, Illumination

Description

Infrared lighting device with adjustable zoom divergence {InfraRed Lighting Apparatus}

The present invention relates to an infrared illuminating device capable of adjusting zoom linking light divergence angle, and comprising an infrared illuminating device capable of photographing a subject even in a low light intensity, and detecting a subject and automatically focusing the zoom lens to output a digital image. Detects the CCD camera 110 and the auto iris signal for adjusting the exposure of the CCD camera 110 and / or the focus control signal for adjusting the focus of the zoom lens according to the perspective of the subject, and outputs an electrical signal corresponding to each of them. Comparing and analyzing the signal detection unit 120 and the AutoIris signal or / and the focus control signal applied from the signal detection unit 120 to adjust the light output of the infrared rays according to the illuminance around the subject, the CCD A controller 130 for outputting a control signal for adjusting a light diffuse angle in association with an angle of view of the zoom lens of the camera 110; According to a control signal applied from the fisherman 130, the output of the infrared light source 510 is arranged to be arranged on one or more concentric circles on the light source plate 500, respectively, so that the subject can be photographed even in low light In accordance with the light source driver 140 and the control signal applied from the control unit 130, the lens plate 600 and each of the condensing lens 610 to share the optical axis with the respective infrared light source 510 and the With respect to the infrared illumination device 100 capable of adjusting the zoom-linked light divergence angle, characterized in that it comprises a divergence angle adjusting means 300 for adjusting the divergence angle of the infrared ray by adjusting the distance between the light source plate 500 will be.

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 in dark weather. You can also shoot subjects.

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 magnification of the infrared light is too narrow or wide, there was a problem that the illumination efficiency of the subject is reduced.

In order to solve this problem, a number of infrared lighting devices that control the divergence angle by adjusting the light collection speed have been proposed and used, but most of the existing infrared illuminators use a light source having a property close to a point light source, In order to adjust, the lens unit including the first focusing lens-diverging lens-second focusing lens was used. Such conventional infrared lighting device is a CCD camera that detects a subject and automatically focuses a zoom lens and outputs a digital image, as in "infrared light adjusting device for light divergence adjustment" (Korea Patent Publication No. 10-2004-0095027). And a signal detector for detecting an auto iris signal for adjusting the exposure of the CCD camera 110 and a focus control signal for adjusting a focus of a zoom lens according to a perspective of a subject, and an auto iris signal applied from the signal detector 120. And a control unit configured to compare / analyze a focus control signal to adjust an infrared light output according to an illuminance around a subject, and output a control signal for adjusting an angle of view of an infrared lens according to an angle of view of a zoom lens of the CCD camera. Adjust the output of the infrared light source according to the control signal from the camera so that the subject can be taken even in low light. An infrared light source unit, a first optical lens for collecting light emitted from the infrared light source unit, a second optical lens for adjusting the divergence angle of the light collected by the first optical lens, and a dispersion of light emitted from the second optical lens An infrared lens unit for forming a third optical lens that prevents light from the lens, and a lens driver for adjusting the divergence angle of the infrared light by moving the second optical lens of the infrared lens unit 50 according to a control signal applied from the controller. Disclosed is a configuration of an infrared illuminating device for adjusting light divergence, characterized in that losing.

However, the lens portion of such an existing infrared illumination device is complicated to use three or more lenses, the cost increases, as well as the diameter and thickness of the lens used when using a high output light source There was a problem that the weight due to increase significantly.

In addition, calculation of the shape of the complex lens surface is necessary due to spherical aberration or chromatic aberration, which inevitably occurs when the size of the optical lens increases, and manufacturing a precise lens according to such calculation requires much effort and cost. There was a problem that the unit price increased significantly.

The present invention solves the above problems of the present invention, it is possible to adjust the light divergence angle of the infrared light source according to the distance to the place to be photographed or required illumination using an infrared CCD camera with a very simple and inexpensive structure. The task is to enable more efficient photography.

In addition, by constructing a plurality of infrared light source assembly so that the light source has a property close to the planar light source, and using a plurality of focusing lens assembly that shares the optical axis with each infrared light source, a relatively low precision, inexpensive and small size An object of the present invention is to enable an excellent light divergence angle adjustment even using a lens alone.

In order to achieve the above object, the infrared illuminating device which can adjust the zoom interlocking light divergence angle of the present invention is an infrared illuminating device capable of photographing a subject even in a low illuminance, and automatically detects the subject and focuses the zoom lens automatically. CCD camera 110 for outputting a digital image, and an auto iris signal for adjusting the exposure of the CCD camera 110 and / or a signal detector 120 for detecting a focus adjustment signal for adjusting the focus of the zoom lens according to the subject's perspective. ), And compares / analyzes an AutoIris signal or / and a focus control signal applied from the signal detector 120 to adjust the light output of infrared rays according to the illumination of the surroundings of the subject, and the CCD camera 110. A control unit 130 for outputting a control signal for adjusting a light diffuse angle in association with an angle of view of the zoom lens of the lens; A light source driver 140 for controlling the output of the infrared light source 510 which is arranged and arranged in at least two concentric circles on the light source plate 500 according to a control signal so that the subject can be photographed even in a low illuminance; According to a control signal applied from the controller 130, between the lens plate 600 and the light source plate 500, each of the condensing lenses 610 sharing the optical axis with each of the infrared light sources 510 is installed. It characterized in that it comprises a diverging angle adjusting means 300 for adjusting the divergence angle of the infrared ray by adjusting the distance.

In addition, the divergence angle adjusting means 300 is installed on the front of the base plate 200 and any one of a motor or a servo motor for rotating the ball screw shaft 310 in accordance with a control signal applied from the controller 130. Ball slide 320 coupled to the ball screw shaft 310 is installed in the center and the slide bush is installed to pass through the slide rod 210 is installed at three or more places along the outer periphery of the base plate 200 ( 220 are respectively installed and comprises a moving plate 400 which is movable back and forth according to the rotation of the ball screw shaft 310, the light source plate 500 is fixed to the moving plate 400 two or more The slide bush 220 is coupled to each other through the rod 520 and installed to pass through the slide rod 210 along the outer circumference thereof, and is moved back and forth in association with the movement of the movable plate 400. The lens plate 600 is the light The front of the disc 500 is characterized in that it is fixed to the end of the slide rod 210 is installed.

In addition, the divergence angle adjusting means 300 is installed on the front of the base plate 200 and any one of a motor or a servo motor for rotating the ball screw shaft 310 in accordance with a control signal applied from the controller 130. Ball slide 320 coupled to the ball screw shaft 310 is installed in the center and the slide bush is installed to pass through the slide rod 210 is installed at three or more places along the outer periphery of the base plate 200 ( 220 are respectively installed and comprises a moving plate 400 which is movable back and forth according to the rotation of the ball screw shaft 310, the light source plate 500 is 3 along the outer periphery of the base plate 200 It is fixed to the end of the slide rod 210 to be installed at a location or more, the lens plate 600 is located on the front surface of the light source plate 500, at least two fixed rods ( 520 is coupled through the movement of the moving plate 400 It characterized by capable of moving back and forth in cooperation.

In addition, the light source driver 140 may further include a function of changing the number of lighting of each of the infrared light sources 510 according to a control signal applied from the controller 130.

In addition, an end stopper 330 mounted at the end of the moving plate 400 side of the ball screw shaft 310 and limiting the front moving range of the moving plate 400, and the light source plate ( Cooling fan 511 is installed on the rear of the 500, and the base plate 200 is fixed to the inner rear, the outer case 700, the front is open; And, the cover fixed to the front of the outer case 700 Characterized in that it further comprises a transparent cover 710 is fixed using the frame (720).

According to the present invention, it is possible to adjust the light divergence angle of the infrared light source according to the distance to the place to be photographed using the infrared CCD camera or to change the required illuminance.

In addition, by using a plurality of infrared light sources, the light source has a property close to a planar light source, and uses a plurality of focusing lenses that share an optical axis with each infrared light source, and thus only a relatively low-precision, inexpensive and small-size focusing lens is used. Even though there is an advantage that the excellent light divergence angle can be adjusted.

On the other hand, in addition to adjusting the light divergence angle of the infrared light source and the output of the infrared light source, it is possible to adjust the lighting quantity of each infrared light source composed of a plurality in order to adjust the brightness of the infrared light source, The advantage is that the brightness can be adjusted.

Hereinafter, with reference to the accompanying drawings, it will be described in detail an infrared illumination device capable of adjusting the zoom-linked light divergence angle according to an embodiment of the present invention. First, in the drawings, the same components or parts are to be noted that as indicated by the same reference numerals 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.

Infrared illumination device capable of adjusting the zoom-linked light divergence angle of the present invention is largely as shown in Figures 1 and 4, CCD camera 110 for photographing the subject, the signal detection unit 120 connected to the camera, Infrared light source 510 which is arranged and arranged in two or more controller 130 and outputs a control signal for adjusting the light output of the infrared ray and the divergence angle of the infrared ray by comparing / analyzing the signal applied from the signal detection unit 120 The distance between the light source plate 500 and the lens plate 600 on which each of the condenser lenses 610 sharing the optical axis with the infrared light source 510 and the light source plate 500 is adjusted. It comprises a divergence angle adjusting means 300 for adjusting the divergence angle.

The CCD camera 110 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 the image signal detected by the image sensor CCD of the camera. Outputs the (AutoIris) signal.

The signal detector 120 is connected to the CCD camera 110 to detect an auto iris signal for controlling the exposure of the camera and / or a focus control signal for adjusting the focus of the zoom lens according to the perspective of the subject, and corresponding electrical signals. Outputs

The controller 130 compares / analyzes the auto iris signal and / or the focus control signal applied by the signal detector 120 to adjust the light output of the infrared rays according to the illuminance of the subject and controls the CCD camera 110. Outputs a control signal for adjusting the light diffuse angle of the infrared light source according to the angle of view of the zoom lens.

Next, the light source driver 140 adjusts the output of the infrared light source 510 according to the control signal applied from the controller 130 so that the subject can be photographed even in a low illuminance. In this case, as shown in FIGS. 1 and 3A, two or more infrared light sources 510 are preferably arranged on one or more concentric circles on the light source plate 500 to form an aggregate. On the other hand, in order to bring about an effect such as a planar light source, it is more preferable to have a larger number of the infrared light source 510 as shown in Figure 3b. On the other hand, the infrared light source 510 preferably emits infrared rays by installing a laser diode (LD) or a light emitting diode (LED).

Next, the divergence angle adjusting means 300 in accordance with the control signal applied from the control unit 130, each sharing the optical axis as shown by the respective infrared light source 510 and "A" in Figure 2a It has a function of adjusting the divergence angle of the infrared ray by adjusting the distance between the lens plate 600 and the light source plate 500 is installed. In this case, each of the infrared light sources 510 has a one-to-one correspondence with each of the focusing lenses 610 that share an optical axis with each other, and thus the focusing speed and divergence angle of the light beams diverged according to the distance are changed. When using a larger number of the infrared light source 510 and the focusing lens 610 corresponding thereto, the set of the plurality of infrared light sources 510 becomes closer to the characteristics of the planar light source as a whole. The collection of the plurality of focusing lenses 610 has characteristics close to those of the lens array as a whole. Therefore, when the number of the infrared light sources 510 is gradually increased, parallel rays from the planar light source, which is the configuration which enables the most ideal focusing (or divergence) using the optical lens, can be used to planarize the extremely fine lenses on a myriad of planes. It has a light focusing characteristic that is gradually closer to the configuration to pass through the lens array (Lenz Array) arranged.

As an embodiment of the configuration that makes it possible to adjust the distance between the light source plate 500 and the lens plate 600 by using the divergence angle adjusting means 300 can be a wide variety of embodiments. In one embodiment, the divergence angle adjusting means 300 is installed on the front surface of the base plate 200 as shown in Figure 2a and the ball screw shaft 310 to the control signal applied from the control unit 130 Any one of the motor or the servo motor to rotate along, the ball screw 320 coupled to the ball screw shaft 310 is installed in the center and the slide rod is installed at three or more places along the outer periphery of the base plate 200 Slide bushes 220 which are installed to penetrate 210 are respectively installed, and are preferably configured to include a movable plate 400 which is movable back and forth according to the rotation of the ball screw shaft 310.

In addition, the structure for adjusting the distance between the light source plate 500 and the lens plate 600 is also possible in various embodiments, the lens plate 600 as shown in Figure 1a and 2a in one embodiment Is fixed at a constant position, the divergence angle adjusting means 300 can be configured to move the light source plate 500 back and forth. In this case, the light source plate 500 is coupled to the moving plate 400 through two or more fixed rods 520, the slide bush 220 is installed so that the slide rod 210 penetrates along the outer circumference. Are respectively installed to move back and forth in conjunction with the movement of the moving plate 400, the lens plate 600 is fixed to the end of the slide rod 210 in the front of the light source plate 500 is installed It is preferable.

On the other hand, as another embodiment of the structure for adjusting the distance between the light source plate 500 and the lens plate 600, as shown in Figure 1b and 2b is fixed to the light source plate 500 at a constant position In this case, the divergence angle adjusting means 300 may move the lens plate 600 back and forth. In this case, the light source plate 500 is fixed to the end of the slide rod 210 is installed at three or more places along the outer periphery of the base plate 200, as shown in Figure 1b and 2b, The lens plate 600 is located on the front surface of the light source plate 500, as shown in Figure 1b and 2b, coupled to the moving plate 400 through two or more fixing rods 520 and the movement It is preferable to be able to move back and forth in conjunction with the movement of the plate 400.

In addition, the light source driver 140 may further have a function of changing the number of lighting of each of the infrared light sources 510 according to a control signal applied from the controller 130. This function is particularly useful when the infrared light source 510 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 510 in the light source driver 140, in the case of using the plurality of infrared light sources 510 in the case of the present invention requires a low output illumination In this case, it is preferable to drive only a few of the infrared light sources 510 in an optimized light output state, and to drive all of the infrared light sources 510 in an optimized light output state when high output illumination is required. The light source driving unit 140 has a function of changing the number of lighting of each of the infrared light sources 510 according to a control signal applied from the controller 130. Since the technology is widely used in the description will be omitted.

Meanwhile, in order to prevent the light source plate 500 and the lens plate 600 from approaching each other, the moving plate of the ball screw shaft 310 as shown in FIG. 2A or 2B. It is preferable to have an end stopper 340 mounted on the end of the moving side 400 to limit the forward movement range of the moving plate 400. In addition, when considering the case in which the infrared illumination device 100 that can control the zoom-linked light divergence angle of the present invention is used in an external environment, the base plate 200 is fixed to the inner rear as shown in Figure 2a or 2b It is preferable that the front case is further configured to further include an outer case 700 and a transparent cover 710 fixed to the front of the outer case 700 by using a cover fixing frame 720.

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.

1A: a perspective view of an infrared illuminating device capable of adjusting a light divergence angle according to an embodiment of the present invention;

1 b: a perspective view of an infrared illuminating device capable of adjusting a light divergence angle according to another embodiment of the present invention;

Figure 2 a: Cross-sectional view of the infrared illumination device capable of adjusting the light divergence angle according to an embodiment of the present invention.

Figure 2 b: Cross-sectional configuration of the infrared illumination device capable of adjusting the light divergence angle according to another embodiment of the present invention.

Figure 3 a: Front configuration diagram of an infrared illumination device capable of adjusting the light divergence angle according to an embodiment of the present invention.

Figure 3 b: Front configuration diagram of an infrared illumination device capable of adjusting the light divergence angle according to another embodiment of the present invention.

4 is a block diagram of an infrared illuminating device capable of adjusting a light divergence angle according to an embodiment of the present invention.

Figure 5 is a detailed view of the coupling component of the moving plate of the infrared illuminating device capable of adjusting the light divergence angle according to an embodiment of the present invention.

<Description of Symbols Used in Main Parts of Drawing>

100: infrared lighting device

110: CCD camera

120: signal detector 130: controller

140: light source driver

200: base plate

210: slide rod 220: slide bush

300: divergence angle adjusting means

310: ball screw shaft

320: ball screw 330: end stopper

400: moving plate

500: light source plate 510: infrared LED

511: cooling fan

520: fixed rod

600: lens plate 610: focusing lens

700: case 710: cover

720: cover fixing frame

Claims (5)

delete In the infrared lighting device that can shoot a subject even in low light, A CCD camera 110 for detecting a subject and automatically outputting a digital image by focusing the zoom lens; A signal detector 120 which detects an auto iris signal for controlling exposure of the CCD camera 110 and / or a focus control signal for adjusting a focus of a zoom lens according to a perspective of a subject and outputs an electrical signal corresponding to each of the focusing signals; Analyze an AutoIris signal and / or a focus control signal output from the signal detector 120 to adjust the light output of the infrared light according to the illuminance around the subject and adjust the zoom lens of the CCD camera 110. A controller 130 outputting a control signal for adjusting a light diffuse angle in association with the angle of view; In accordance with a control signal applied from the controller 130, the output of the infrared light source 510, which is arranged at least two on the one or more concentric circles on the light source plate 500, by adjusting the output of the subject can be photographed even in low light conditions. A light source driver 140 to be provided; According to a control signal applied from the controller 130, the distance between the lens plate 600 and the light source plate 500 provided with each of the condensing lenses 610 sharing the optical axis with the respective infrared light sources 510. Divergence angle adjusting means for adjusting the divergence angle of the infrared ray by adjusting; Characterized in that comprises a, The divergence angle adjusting means 300, A motor installed on the front surface of the base plate 200 and rotating the ball screw shaft 310 according to a control signal applied from the controller 130; Wow,  The ball screw 320 coupled to the ball screw shaft 310 is installed in the center, the slide bush is installed to pass through the slide rod 210 installed at three or more places along the outer circumference of the base plate 200 ( 220 are respectively installed moving plate 400 which can be moved back and forth in accordance with the rotation of the ball screw shaft 310; It is configured to include, The light source plate 500 is coupled to the moving plate 400 through two or more fixed rods 520, and slide bushes 220 are installed to penetrate the slide rod 210 along an outer circumference. It is possible to move back and forth in conjunction with the movement of the moving plate 400, The lens plate 600 is fixed to the end of the slide rod 210 on the front of the light source plate 500, the infrared illumination device capable of adjusting the zoom-linked light divergence angle, characterized in that the installation. In the infrared lighting device that can shoot a subject even in low light, A CCD camera 110 for detecting a subject and automatically outputting a digital image by focusing the zoom lens; A signal detector 120 which detects an auto iris signal for controlling exposure of the CCD camera 110 and / or a focus control signal for adjusting a focus of a zoom lens according to a perspective of a subject and outputs an electrical signal corresponding to each of the focusing signals; Analyze an AutoIris signal and / or a focus control signal output from the signal detector 120 to adjust the light output of the infrared light according to the illuminance around the subject and adjust the zoom lens of the CCD camera 110. A controller 130 outputting a control signal for adjusting a light diffuse angle in association with the angle of view; In accordance with a control signal applied from the controller 130, the output of the infrared light source 510, which is arranged at least two on the one or more concentric circles on the light source plate 500, by adjusting the output of the subject can be photographed even in low light conditions. A light source driver 140 to be provided; According to a control signal applied from the controller 130, the distance between the lens plate 600 and the light source plate 500 provided with each of the condensing lenses 610 sharing the optical axis with the respective infrared light sources 510. Divergence angle adjusting means for adjusting the divergence angle of the infrared ray by adjusting; Characterized in that comprises a, The divergence angle adjusting means 300, A motor installed on the front surface of the base plate 200 and rotating the ball screw shaft 310 according to a control signal applied from the controller 130; Wow, The ball screw 320 coupled to the ball screw shaft 310 is installed in the center, the slide bush is installed to pass through the slide rod 210 installed at three or more places along the outer circumference of the base plate 200 ( 220 are respectively installed moving plate 400 which can be moved back and forth in accordance with the rotation of the ball screw shaft 310; It is configured to include, The light source plate 500 is fixed to the end of the slide rod 210 is installed at three or more places along the outer periphery of the base plate 200, The lens plate 600 is located on the front surface of the light source plate 500, coupled to the moving plate 400 through two or more fixing rods 520, and moves back and forth in conjunction with the movement of the moving plate 400. Infrared illumination device 100 is adjustable zoom interlocking light divergence angle, characterized in that movable. The method of claim 3, The light source driving unit 140 further includes a function of changing the number of lighting of each of the infrared light sources 510 according to a control signal applied from the control unit 130. Illumination device 100. The method according to claim 4, An end stopper 330 mounted at the end of the moving plate 400 side of the ball screw shaft 310 to limit a front moving range of the moving plate 400; A cooling fan 511 installed at a rear surface of the light source plate 500; An outer case 700 in which the base plate 200 is fixed to an inner rear side and whose front side is open; A transparent cover 710 fixed to the front of the outer case 700 by using a cover fixing frame 720; Infrared illumination device capable of adjusting the zoom-linked light divergence angle, characterized in that it further comprises a.

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