KR101062954B1 - Near-infrared illuminator using multi-lined infrared light source - Google Patents

Abstract

The present invention relates to a near-infrared illumination device, and more particularly, a near-infrared illumination device that enables the user to clearly photograph a subject even in a dark or bad weather at night or by using a LD or LED light source arranged in a row for the illumination of a surveillance camera. It is about.

The near-infrared illumination device using a multi-row infrared light source according to the present invention, the camera unit for photographing the subject while adjusting the zoom lens according to the distance to the subject, and an optical sensor for measuring the illuminance of the light received by the camera unit When the illuminance received from the light sensor is less than or equal to the preset photographing illuminance, the infrared light source unit is provided to output near infrared rays, and the infrared light source unit has an infrared light source arranged in a plurality of rows, and the near infrared light source provided at one side of the infrared light source unit is output from the infrared light source. The condenser lens unit includes a condenser lens including a plurality of condenser lenses arranged in a row in correspondence with an infrared light source, and a field lens for controlling the divergence angle of near-infrared light passing through the condenser lens. A lens for adjusting the position of the illumination unit and the field lens of the illumination unit And a control unit controlling the driving unit, the camera unit, the optical sensor unit, and the lighting unit, controlling the output of the infrared light source according to the illumination received by the optical sensor unit, and controlling the lens driving unit according to the zoom lens position of the camera unit.

Surveillance camera, lighting device, light sensor, infrared light source, condenser lens, lighting

Description

Near-infrared illuminator using multi-lined infrared light source {IR ILLUMINATOR USING MULTI-ARRAY INFRARED RAY ILLUMINANT}

The present invention relates to a near-infrared illumination device, and more particularly, to a near-infrared illumination device that enables a user to clearly photograph a subject in a dark or bad weather at night or by using a multi-row LD or LED light source for illumination of a surveillance camera. It is about.

Recently, the installation of security surveillance cameras (CCTV) has been increasing from banks, department stores, public facilities to general houses.

Such surveillance cameras must maintain a constant brightness to capture the subject clearly. During the daytime, the camera can clearly capture the subject without a separate lighting device by sunlight, but the view is dark at night or in bad weather. Requires a separate lighting device.

Therefore, the surveillance camera for the purpose of night photography is used a surveillance camera with a built-in infrared lighting device having an LD or LED light source.

However, in the case of the conventional surveillance cameras, the surveillance distance is short due to the limitation of the light source brightness at night, and the infrared divergence angle is fixed, so that the camera having the zoom function can actively cope with the difference of field of view between the near and far shooting modes. There is no problem.

The present invention is to solve the above problems, in a surveillance camera for night surveillance, the lighting effect by arranging the light source for outputting near infrared light in multiple rows, and by collecting the near-infrared light output from each light source using a condensing lens It is to provide a near-infrared lighting device using an infrared light source arranged in a multi-row to increase the.

It is another object of the present invention to link the angle of view of the electric zoom lens for adjusting the angle of view of the surveillance camera and the infrared lens for emitting infrared light to adjust the angle of view of the infrared lens in accordance with the angle of view of the zoom lens automatically arranged in a row It is to provide a near-infrared illumination device using a light source.

Another object of the present invention is to use a spherical and aspherical lens or a Fresnel lens according to the shooting purpose to not only clearly photograph the subject, but also to use a liquid lens to actively respond to various shooting distances. It is to provide a near-infrared illumination device using an infrared light source arranged in a row.

The above object of the present invention, the camera unit for photographing the subject while adjusting the zoom lens according to the distance to the subject; An optical sensor unit for measuring illuminance of light received by the camera unit; An illumination unit including an infrared light source including a plurality of infrared light sources for outputting near infrared light when the illuminance received from the optical sensor is less than or equal to a predetermined photographing illuminance, and a field lens for collecting the near infrared light output from the infrared light source to adjust the divergence angle; A lens driver for adjusting the position of the field lens of the lighting unit; And a controller for controlling the camera unit, the optical sensor unit, and the illumination unit, controlling the output of the infrared light source according to the illuminance received by the optical sensor unit, and controlling the lens driver based on the zoom lens position of the camera unit. It is achieved by providing a near-infrared illumination device using a multi-row arranged infrared light source characterized in that.

According to a preferred feature of the invention, the constant illumination unit is provided with a condensing lens between the infrared light source and the field lens, the condensing lens may be used aspherical glass lens, aspherical plastic lens or Fresnel lens. In addition, the condenser lens may be arranged in a multi-row array or a single array lens.

According to a further preferred feature of the invention, the field lens comprises an aspherical lens, a Fresnel lens or a liquid lens.

According to a more preferred feature of the invention, the lens driving unit comprises a step motor, voice coil motor or ultrasonic motor.

According to the near-infrared illumination apparatus using a multi-row infrared light source according to the present invention, it is possible to implement a high-efficiency lighting effect by using a low-power LD or LED light source to increase the monitoring area when shooting at night, changes in the angle of view and shooting There is an effect that can actively respond to changes in distance.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. This is intended to be described in detail so that those skilled in the art can easily carry out the invention, which does not mean that the technical spirit and scope of the present invention is limited.

1 is a block diagram showing a near-infrared lighting apparatus using an infrared light source arranged in a row in accordance with the present invention, Figure 2 is a diagram showing a schematic configuration of the lighting unit shown in FIG.

Referring to FIG. 1, a near-infrared illumination device using an infrared light source arranged in a row according to the present invention includes a camera unit 200 photographing a subject and an optical sensor unit measuring illuminance of light received by the camera unit 200 ( 300, the lens unit 500 for controlling the divergence angle of the near infrared light by adjusting the position of the illumination unit 400 for outputting near infrared to the subject during night photographing, the field lens 460 of the illumination unit 400 and the respective functional units It is configured to include a control unit 100.

The camera unit 200 detects a subject in the surveillance area, and photographs the subject while automatically adjusting the focus according to the distance between the subject and the camera unit 200.

The optical sensor unit 300 measures illuminance of light received by the camera unit 200, and transmits a signal to the control unit 100 when the amount of light received by the camera unit 200 is equal to or less than a preset photographing illuminance. By doing so, the lighting unit 400 is activated.

Illumination unit 400 is an infrared light source 420 for outputting near-infrared light required for night photography, the light converging lens unit 440 and the light divergence angle collected from the light collecting lens unit 440 to collect the light output from the infrared light source 420 It is configured to include a field lens 460 to adjust.

The infrared light source unit 420 is composed of a plurality of infrared light sources 425 for emitting infrared light, and outputs near infrared rays in accordance with a control signal applied from the controller 100. As the infrared light source 425, a laser diode (LD) or a light emitting diode (LED) may be used.

As such, when a plurality of LDs or LEDs are used as the infrared light source 425, a high efficiency lighting effect may be realized by using low output LDs or LEDs. The near infrared rays output from the infrared light source unit 420 are transmitted to the condensing lens unit 440 positioned in front of the infrared light source unit 420.

The condenser lens unit 440 is a means for collecting near infrared rays output from the infrared light source unit 420, and an aspherical glass lens, an aspherical plastic lens, or a Fresnel lens may be used.

The condensing lens unit 440 is an optional component in the implementation of the present invention. Although the condensing lens 440 is omitted, the condensing lens unit 440 generates a certain condensing effect by the field lens 460 which will be described later. In the case of having the light source 440, the light collecting effect is further improved, and the light loss is small even when the field lens 460 is far from the light source.

A single lens may be used for the condenser lens unit 440, and, if necessary, may be composed of a plurality of condenser lenses corresponding to an infrared light source.

The near-infrared rays collected by the condenser lens 445 are transmitted to the field lens 460 provided on the condenser lens unit 440.

The field lens 460 adjusts the divergence angle of the near-infrared rays collected through the condensing lens unit 440, and uses a concave lens that emits light or a convex lens that converges light according to the purpose of the surveillance camera. Aspherical lenses or Fresnel lenses may be used to reduce chromatic aberration.

In addition, when the photographing area is wide, a liquid lens capable of both diverging and converging light by deforming the shape of the lens may be used.

The liquid lens is a technology in which the water and oil contained in the transparent container are changed like a human lens by the surface tension control technology of the liquid, and change in the form of convex or concave according to the voltage applied from the liquid lens control unit 600. To act as a lens.

The lens driver 500 adjusts the divergence angle of the infrared light by adjusting the position of the field lens 460. For example, in the case of using the convex field lens 460, in order to increase the divergence angle of the infrared light, the lens driver 500 moves the field lens 460 closer to the light source and reduces the divergence angle of the illumination. In order to move the field lens 460 away from the light source. As the lens driver 500, a step motor, a voice coil motor, or an ultrasonic motor may be used.

The controller 100 controls the respective functional units, and analyzes a signal received from the optical sensor unit 300 to turn on the infrared light source unit 420 when the received illuminance is less than or equal to a preset photographing illuminance. When the illuminance received from the sensor unit 300 is greater than or equal to the photographing illuminance, the infrared light source unit 420 is turned off.

In addition, by controlling the lens driver 500 according to the distance between the subject and the camera unit 200 to adjust the position of the field lens 460 to adjust the divergence angle of the infrared light.

In this case, the angle of view of the zoom lens and the divergence angle of the illumination unit 400 may be automatically adjusted by linking the positions of the field lenses 460 according to the amount of change in the zoom state.

In addition, when the field lens 460 is a liquid lens, the liquid lens is transformed into a concave or convex lens as necessary by applying or disconnecting a voltage through the liquid lens adjusting unit 600.

3A is a view illustrating a state in which near infrared rays are output from a multi-row array infrared light source according to an embodiment of the present invention, and FIG. 3B is a view illustrating a state after the near infrared rays output according to FIG. 3A pass through a condensing lens, 3C is a diagram illustrating a state after the near infrared ray passing through the condenser lens passes through the field lens.

Referring to Figure 3a, the near-infrared illumination device using an infrared light source arranged in a row in accordance with an embodiment of the present invention is that the LED light source is arranged at regular intervals, the near infrared light output from each LED light source is due to the light emission It can be seen that the near-infrared of the periphery is not transmitted far, but only the near-infrared of the center is transmitted far.

3B is a view showing a state after the near-infrared light output from the LED light source passes through the condensing lens provided in front of the LED light source, and the near-infrared light emitted from the LED light source converges as it passes through the condensing lens, so that more near-infrared rays are farther away. Delivered.

3C is a view showing a state in which near-infrared rays passing through the field lens provided in front of the condenser lens are projected onto a screen located about 25 m away from the field lens, and the near-infrared rays converged from the condenser lens pass through the field lens and stably to a distance. The near-infrared rays transmitted from each light source were superimposed to improve the lighting effect.

1 is a block diagram showing a near-infrared illumination device using an infrared light source arranged in a row in accordance with the present invention.

2 is a view showing a schematic configuration of the lighting unit shown in FIG.

3A is a view illustrating a state in which near infrared rays are output from a multi-row array infrared light source according to an exemplary embodiment of the present invention.

3B is a view showing a state after the near infrared ray output according to FIG. 3A passes through the condensing lens;

3C is a diagram illustrating a state after the near infrared ray passing through the condenser lens passes through the field lens;

<Description of main parts of drawing>

100: control unit 200: camera unit

300: light sensor unit 400: lighting unit

420: infrared light source unit 440: condensing lens unit

460: field lens 500: lens driver

Claims (7)

A camera unit for photographing a subject while adjusting a zoom lens according to a distance from the subject; An optical sensor unit for measuring illuminance of light received by the camera unit; When the illuminance received from the optical sensor is less than a predetermined photographing illuminance is provided to output near infrared rays, the infrared light source unit having an infrared light source is arranged in a plurality of rows, and the near infrared light output from the infrared light source provided on one side of the infrared light source unit Field for adjusting the divergence angle of the near-infrared light passing through the condensing lens and the condensing lens unit having a plurality of condensing lens arranged in a plurality of rows corresponding to the infrared light source, and to move the position on one side of the condensing lens An illumination unit including a lens; A lens driver for adjusting the position of the field lens of the lighting unit; And And a controller for controlling the camera unit, the optical sensor unit, and the illumination unit, controlling the output of the infrared light source according to the illuminance received by the optical sensor unit, and controlling the lens driver based on the position of the zoom lens of the camera unit. Near-infrared illuminator using arranged infrared light source. delete The method of claim 1, The condenser lens is a near-infrared illumination device using an infrared light source arranged in a row, characterized in that any one of aspherical glass lens, aspherical plastic lens or Fresnel lens. delete The method of claim 1, The infrared light source is a near-infrared illumination device using an infrared light source arranged in a row, characterized in that it comprises an LD or LED. A camera unit for photographing a subject while adjusting a zoom lens according to a distance from the subject; An optical sensor unit for measuring illuminance of light received by the camera unit; An illumination unit including an infrared light source unit comprising a plurality of infrared light sources for outputting near infrared rays when the illuminance received from the optical sensor is equal to or less than a predetermined photographing illuminance, and a field lens for collecting a near infrared ray output from the infrared light source unit to adjust a divergence angle; A lens driver for adjusting the position of the field lens of the lighting unit; And And a controller for controlling the camera unit, the optical sensor unit, and the illumination unit, controlling the output of the infrared light source according to the illuminance received by the optical sensor unit, and controlling the lens driving unit according to the zoom lens position of the camera unit. And said field lens is an aspherical lens, a fresnel lens, or a liquid lens. A camera unit for photographing a subject while adjusting a zoom lens according to a distance from the subject; An optical sensor unit for measuring illuminance of light received by the camera unit; An illumination unit including an infrared light source unit comprising a plurality of infrared light sources for outputting near infrared rays when the illuminance received from the optical sensor is equal to or less than a predetermined photographing illuminance, and a field lens for collecting a near infrared ray output from the infrared light source unit to adjust a divergence angle; A lens driver for adjusting the position of the field lens of the lighting unit; And And a controller for controlling the camera unit, the optical sensor unit, and the illumination unit, controlling the output of the infrared light source according to the illuminance received by the optical sensor unit, and controlling the lens driving unit according to the zoom lens position of the camera unit. The lens driving unit is a near-infrared illumination device using a multi-row arranged infrared light source, characterized in that it comprises a step motor, voice coil motor or ultrasonic motor.

Images