KR20100104309A - Supervisory camera with a nir laser illuminator - Google Patents

Abstract

PURPOSE: A monitoring camera with an infrared ray laser projector is provided to use a semiconductor laser diode as an assistant light source of a night monitoring camera, thereby executing remote night monitoring photographing without light loss. CONSTITUTION: An infrared ray laser projecting module(100) includes good directivity to enable remote night photographing. A monitoring camera(200) photographs a subject by output light of the infrared ray laser projecting module. A monitoring camera image output unit transmits an image signal photographed by the monitoring camera to an external device. An infrared ray laser projector includes a power input unit to operate the infrared ray laser projecting module and the monitoring camera.

Description

Supervisory camera with a NIR Laser Illuminator

The present invention relates to a night surveillance camera, and more specifically, by using a laser as a light source even at night when there is no light, it is possible to clearly monitor and photograph the subject in the distance, and in particular to prevent the exposure to the other party to take a surveillance picture A surveillance camera using an infrared laser projector.

In general, a camera is a device in which light reflected from a subject is controlled through a lens to form a photo by using a photosensitive material (film, scratch element) to take a picture. A dark box is required between the lens and the photosensitive material, and thus a dark box. It has a structure that can be equipped with a lens and load a film on the pretense body, and consists of an aperture to adjust the amount of light and a shutter that passes light only for a while.

In addition, a CCD camera is a digital camera, and is a device that converts an image into an electrical signal using a charge coupled device (CCD) to store digital data in a storage medium such as a flash memory.

Such a camera needs light when photographing a subject. Especially in the case of a night surveillance camera used for surveillance at night, a subject is detected using an incandescent lamp, a fluorescent lamp, a strobe, a visible light emitter, and an infrared emitter as an auxiliary light source. I'm trying to.

Meanwhile, as an auxiliary light source of a night surveillance camera that is widely used for night surveillance, an infrared emitter is installed in a camera to photograph a subject at night. Such an infrared emitter includes an LED type and a halogen type.

LED type infrared emitters have a short distance, which makes it difficult to shoot a long distance object. Halogen type infrared emitters have a longer distance than LED type infrared emitters, but the disadvantage is that the light source is visible to the other party. It is not suitable for monitoring, and power consumption for driving has many disadvantages.

In order to solve the above problems, the present invention has a very good straightness as an auxiliary light source of the night surveillance camera, so that the long-distance night surveillance photography at low power is possible using a semiconductor laser diode as a light source that is not observed at the other party with little loss of light. It is an object of the present invention to provide a surveillance camera using an infrared laser projector.

The present invention for achieving the above object is an infrared laser floodlight module having a good straightness to enable the long-distance photographing at night; A monitoring camera for photographing a subject by the output light of the infrared laser light emitting module; Surveillance camera image output unit for transmitting the video signal captured by the surveillance camera to an external device and a power input unit for supplying power for the operation of the infrared laser light emitting module and the surveillance camera.

In the present invention, the infrared laser light emitting module comprises a barrel; A semiconductor laser diode fixedly installed at a predetermined position by a semiconductor laser diode holder having a heat dissipation structure on an inner rear side of the barrel; It is characterized by consisting of an optical lens member for controlling the output light by the semiconductor laser diode.

In the present invention, the optical lens member is fixed to the inside of the barrel by a cylindrical lens holder, the cylindrical lens for diffusing the output light of the semiconductor laser diode in the longitudinal direction of the active region to correct in a specific direction Wow; It is installed in front of the cylindrical lens to match the angle of illumination of the camera and the illumination angle of the light emitted by the output of the semiconductor laser diode to combine a plurality of projection lenses to adjust the radiation angle of the laser to be used as a light source of the subject Characterized in that configured.

In the present invention, the optical lens member and the cylindrical lens is fixed to the inside of the barrel by a cylindrical lens holder; It is installed in front of the cylindrical lens to match the angle of view of the camera and the illumination angle of the illumination by the output light of the semiconductor laser diode, and the inside of the barrel by the primary light-transmitting lens holder and the secondary light-transmitting lens holder, respectively. Characterized in that it consists of a primary flood lens and a secondary flood lens sequentially installed in the.

In the present invention, the cylindrical lens is characterized in that the curved portion of the lens and the longitudinal direction of the active portion of the semiconductor laser diode.

In the present invention, the surveillance camera has a focusing lens and a zoom lens to determine the angle of view of the focus and the image, the inside has excellent visibility characteristics in the same region as the characteristic frequency of the semiconductor laser diode used in the infrared laser light emitting module It is characterized by the application of Ex-View CCD.

As such, the present invention uses a semiconductor laser diode as an auxiliary light source of the night surveillance camera, so the straightness, which is a characteristic of the laser, is very excellent, and there is almost no light loss, so that the remote night surveillance can be photographed and not observed by the other party. It has a very good effect on surveillance photography.

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

1 is a perspective view showing the configuration of an embodiment of the present invention, Figure 2 is a side view of Figure 1 as an infrared laser light emitting module 100, surveillance camera 200, surveillance camera image output unit 300 and power input unit 400 It is composed.

Figure 3 is a cross-sectional view showing the internal configuration of the infrared laser light emitting module of the embodiment of the present invention, Figure 4 is an exploded perspective view of the infrared laser light emitting module of the present invention, Figure 5 is an active portion of the semiconductor laser diode applied to the embodiment of the present invention 6 is a functional explanatory view of the optical portion of the infrared laser light emitting module according to the embodiment of the present invention, wherein a) shows a combination of optical lenses in the longitudinal direction of the active portion of the semiconductor laser diode, so that the diffusion of the laser is good, and thus B) is a combination of optical lenses in a direction parallel to the longitudinal direction of the active portion of the semiconductor laser diode. Since laser diffusion is almost absent, the lens is refracted / diffused by a cylindrical lens. The orientation of the cylindrical lens is arranged.

The infrared laser light emitting module 100 includes a barrel 110; A semiconductor laser diode 120 fixedly installed at a predetermined position by a semiconductor laser diode holder 121 having a heat dissipation structure at an inner rear side of the barrel 110; It consists of an optical lens member 130 for adjusting the output light by the semiconductor laser diode (120).

The optical lens member 130 is configured by combining a cylindrical lens 131 and a plurality of light transmitting lenses.

The cylindrical lens 131 is fixed to the inside of the barrel 110 by a cylindrical lens holder 132, and diffuses the output light of the semiconductor laser diode 120 in the longitudinal direction of the active region in a specific direction. To compensate.

The transmissive lens is installed in front of the cylindrical lens 131 to match the angle of view of the camera and the irradiation angle of illumination by the output light of the semiconductor laser diode 120 to emit the laser to be used as a light source of the subject It is preferable to be configured by combining a plurality of light transmitting lenses to adjust the angle.

The optical lens member 130 according to the embodiment of the present invention includes a cylindrical lens 131 fixed to the inside of the barrel 110 by a cylindrical lens holder 132; It is installed in front of the cylindrical lens 131 so that the angle of view of the camera and the irradiation angle of the illumination by the output light of the semiconductor laser diode 120 to match, respectively, the first transmission lens holder 134 and the secondary The light transmitting lens holder 136 is composed of a primary light transmitting lens 133 and a secondary light transmitting lens 135 sequentially installed in the interior of the barrel 110.

The cylindrical lens 131 should have the same length as that of the active part of the semiconductor laser diode 120 and the curved part of the lens.

The surveillance camera 200 includes a focus lens 210 and a zoom lens 220 to determine the angle of view of the focus and image by photographing a subject by the output light of the infrared laser light emitting module 100, and therein. It is configured by applying an Ex-View CCD having excellent visibility characteristics in the same region as the characteristic frequency of the semiconductor laser diode 120 used in the infrared laser light emitting module 100.

The surveillance camera image output unit 300 is an apparatus for transmitting the image signal photographed by the surveillance camera 200 to an external device and transmits the image signal to a monitor or a data storage device.

In addition, the power input unit 400 is a part for supplying power for the operation of the infrared laser light emitting module 100 and the monitoring camera 200.

The embodiment of the present invention configured as described above has a structure that irradiates infrared or near infrared rays to a long-distance subject by using a semiconductor laser having strong straightness, and photographs the image through the zoom lens 220. In order to complement the characteristics of the semiconductor laser, the cylindrical lens 131 is disposed close to the active portion of the semiconductor laser diode 120, and the irradiation angle is adjusted through the primary light emitting lens 133 and the secondary light emitting lens 135. do.

The focal lens 210 and the zoom lens 220 of the surveillance camera 200 determine an angle of view and focus of an image, and may use an existing lens.

Since the infrared laser does not diffuse light in the longitudinal direction of the active region, the infrared floodlight module 100 diffuses the output of the semiconductor laser in the longitudinal direction of the active region by the cylindrical lens 131 and then the primary flood lens. 133 and the secondary light transmitting lens 135 are preferably applied.

As shown in FIG. 5, the active portion of the semiconductor laser diode 120 has a shape of a gap formed in the transverse direction of the semiconductor laser diode 120. As a result, the laser is hardly diffused in the longitudinal direction of the active portion. Spread in a fan shape in the width direction will be released.

Therefore, as shown in b) of FIG. 6, when the longitudinal direction of the active portion of the laser diode coincides with the cylindrical lens 131, the emitted laser broadens the radiation angle by the cylindrical lens 131. While passing through the light transmitting lens 133 and the secondary light transmitting lens 135 is adjusted to an appropriate angle to irradiate the subject.

At this time, the radiation angle of the laser finally radiated through the primary primary lens 133 and the secondary secondary lens 135 is about 200 to 8.5 degrees for a subject of about 3 m and about 5.7 degrees for 300 m. Since it is appropriate to have a blind spot, it is preferable to limit it to within 10 degrees.

However, it is also possible to monitor large areas with wider angles of radiation when sufficient power and high power lasers are applied.

In addition, the infrared laser light emitting module 100 preferably applies a laser diode holder 121 having a heat dissipation structure for cooling the semiconductor laser diode 120.

Surveillance camera used in the present invention is a camera using an EX-View CCD having a good visibility characteristics in the near infrared (Near Infra Red) region without using a camera using a general CCD to take a subject using a light source of an infrared laser emitter. I use it.

The visibility characteristics of the CCD have a maximum value in the visible light region and show a decrease in sensitivity as it moves out of the ultraviolet and infrared regions.

However, some of the EX-View CCDs have relatively high sensitivity, unlike other CCDs, which rapidly decrease in the near infrared region.

Therefore, the frequency of the semiconductor laser diode used in the infrared laser projector of the present invention uses the same frequency band as the EX-View CCD having good sensitivity in the near infrared region.

This is because a better image can be obtained when the frequency of the laser diode and the frequency band of the EX-View CCD are the same.

The present invention has a strong linearity and infrared light by using a semiconductor laser diode and an optical lens to photograph the subject in the near-infrared region, which is an invisible region using the characteristics of a laser that can reach a long distance with little light loss due to no diffusion of light. It is a surveillance camera equipped with a laser floodlight module that can be monitored by visible light during the day. It is a very efficient device for crime prevention and other surveillance cameras, and it is a technology that is highly applicable to the industry.

1 is a perspective view showing the configuration of an embodiment of the present invention.

2 is a side view of FIG. 1;

Figure 3 is a cross-sectional view showing the internal configuration of the infrared laser floodlight module of the embodiment of the present invention.

Figure 4 is an exploded perspective view of the infrared laser floodlight module of the embodiment of the present invention.

5 illustrates an active part of a semiconductor laser diode applied to an embodiment of the present invention.

6 is an explanatory diagram of an optical part of an infrared laser light emitting module according to an embodiment of the present invention;

a) shows the combination of the optical lenses in the longitudinal direction of the active portion of the semiconductor laser diode and is arranged so that the diffusion of the laser is good so that there is no refraction by the cylindrical lens.

b) shows the combination of the optical lens in the direction parallel to the longitudinal direction of the active portion of the semiconductor laser diode. Since the laser is hardly diffused, the direction of the cylindrical lens is arranged to be refracted / diffused by the cylindrical lens.

* Explanation of symbols for main parts

100: infrared laser light emitting module 110: barrel

120: semiconductor laser diode 121: semiconductor laser diode holder

130: optical lens member 131: cylindrical lens

132: cylindrical lens holder 133: primary flood lens

134: primary flood lens holder 135: secondary flood lens

136: secondary flood lens holder 200: surveillance camera

210: focusing lens 220: zoom lens

300: surveillance camera image output unit 400: power input unit

Claims (6)

Infrared laser floodlight module 100 having a good straightness to enable long-distance photographing at night; A monitoring camera 200 photographing a subject by the output light of the infrared laser light emitting module 100; Surveillance camera image output unit 300 for transmitting the video signal photographed by the surveillance camera 200 to an external device and Surveillance camera using an infrared laser floodlight transmitter comprising a power input unit 400 to supply power for the operation of the infrared laser floodlight module 100 and the monitoring camera 200. The method of claim 1, The infrared laser light emitting module 100 Barrel 110; A semiconductor laser diode 120 fixedly installed at a predetermined position by a semiconductor laser diode holder 121 having a heat dissipation structure at an inner rear side of the barrel 110; Surveillance camera using an infrared laser projector, characterized in that consisting of an optical lens member 130 for controlling the output light by the semiconductor laser diode (120). 3. The method of claim 2, The optical lens member 130 The cylindrical lens lens 131 is fixed to the inside of the barrel 110 by a cylindrical lens holder 132 and diffuses the output light of the semiconductor laser diode 120 in the longitudinal direction of the active region to correct it in a specific direction. )Wow; Installed in front of the cylindrical lens 131 to match the angle of view of the camera and the illumination angle of the illumination by the output light of the semiconductor laser diode 120 to adjust the radiation angle of the laser to be used as a light source of the subject Surveillance camera using an infrared laser floodlight, characterized in that a combination of a plurality of floodlights. 3. The method of claim 2, The optical lens member 130 A cylindrical lens 131 fixed to the inside of the barrel 110 by a cylindrical lens holder 132; It is installed in front of the cylindrical lens 131 so that the angle of view of the camera and the irradiation angle of the illumination by the output light of the semiconductor laser diode 120 to match, respectively, the first transmission lens holder 134 and the secondary Surveillance camera using an infrared laser light emitter, characterized in that consisting of a primary light transmitting lens 133 and a secondary light transmitting lens (135) sequentially installed in the barrel 110 by a light transmitting lens holder (136). The method of claim 3, wherein The cylindrical lens 131 is Surveillance camera using an infrared laser projector, characterized in that the curved portion of the lens and the longitudinal direction of the active portion of the semiconductor laser diode (120) to match. The method of claim 1, The surveillance camera 200 It is provided with a focus lens 210 and a zoom lens 220 to determine the angle of view of the focus and image, Surveillance camera using an infrared laser emitter, characterized in that for applying the Ex-View CCD having excellent visibility characteristics in the same region as the characteristic frequency of the semiconductor laser diode 120 used in the infrared laser floodlight module 100.

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