KR101179972B1 - IR Camera combined with IR Illuminator - Google Patents

Abstract

PURPOSE: An infrared ray projector integrated infrared camera is provided to manufacture a camera module and an infrared projector to be integrated, thereby obtaining a compact infrared camera. CONSTITUTION: An infrared ray projector integrated infrared camera comprises an infrared projector(100), a camera module(200), a lower case(300), and an upper case(400). The infrared projector adjusts am optic angle of the infrared rays being projected by the movement of a lens being joined to a reflector. The camera module photographs images in an infrared ray domain by using the infrared rays being projected from the infrared projector. The lower case accommodates the infrared projector and the camera module in a partitioned internal space. The upper case covers the lower case.

Description

IR camera combined with IR Illuminator

The present invention relates to an infrared camera integrated infrared camera, and more particularly, to improve the adjustment of the wide angle of the infrared light emitter by moving the conventional LED lamp, the distance between the LED light source and the lens by moving the reflector in the infrared light emitter. The present invention relates to an infrared projector integrated infrared camera equipped with a camera module for controlling the wide angle of the infrared light output by adjusting the, and allowing the camera module to shoot in the infrared region using the infrared light output from the infrared light emitter.

An infrared light emitter is a kind of lighting device that irradiates light in an infrared region toward a subject to acquire an image through an infrared camera even at night (no light) without a light source. An infrared camera is a device for performing infrared photography using a CCD lens having sufficient sensitivity even in the infrared region, and is particularly used for night shots and CCTV shots.

Conventional infrared light emitters have a wide angle in a general form, and Korean Patent Laid-Open Publication No. 2011-0055234 discloses a description of changing a wide angle by fixing a lens and moving a light source in an infrared illumination device.

The light source of the infrared floodlight is a heating element that generates a lot of heat. Therefore, the heat generated by the light source is a factor that hinders the performance of the infrared emitter, and the heat generated must be effectively emitted outside the infrared emitter. For this purpose, a heat sink is connected to the light source to release heat.

However, according to the related art of moving a light source to adjust the wide angle, a problem arises in that the heat sink to which the light source is connected also moves simultaneously with the movement of the light source when the wide angle is adjusted. In order for the heat sink to move, a large space for the heat sink to be moved inside the infrared emitter must be formed. Therefore, the volume of the infrared light emitter must not only be increased but also the heat dissipation path must be continuously moved. have.

On the other hand, conventionally, rather than manufacturing the infrared light emitter and the infrared camera, it was common to manufacture each individually. However, in this case, there is a problem in that it is not easy to adjust the focus and zoom of the infrared camera according to the wide angle change and the illuminance change of the infrared light emitter.

The present invention is to improve the above-mentioned problems of the prior art, an object of the present invention is to provide an infrared camera that is manufactured integrally with the camera module and the infrared light emitter.

In addition, the present invention aims to reduce the size of the infrared camera and improve heat dissipation efficiency by improving the method of adjusting the wide angle of the infrared light emitter.

In addition, an object of the present invention is to improve the heat sink structure to improve heat dissipation efficiency and to reduce the weight of the infrared camera.

Infrared camera integrated infrared camera of the present invention for solving the above problems is an infrared light emitter 100, the infrared light emitter 100 to adjust the wide angle of the infrared light output by the movement of the lens 130 coupled with the reflector 120 Camera module 200 capable of shooting in the infrared region by using the infrared light output from the), the lower case 300 of the container type for storing the infrared light emitter 100 and the camera module 200 in a partitioned internal space and And an upper case 400 covering the lower case 300.

The infrared floodlight 100 is disposed on the LED chip 110, the rear surface of the LED chip 110 for generating light in the infrared region, the inner surface is parabolic and the outer surface is connected to the wide angle control means 140 The distance to the LED chip 110 is adjusted by the wide-angle adjusting means 140 and is disposed in front of the reflector 120, the LED chip 110 reflects the light generated in the LED chip 110 in the output direction. And coupled to the reflector 120 and connected to the lens 130 and the reflector 120 to form a wide angle of infrared light generated by the LED chip 110, and to adjust the position of the reflector 120. The wide angle adjusting unit 140 and the LED chip 110 are attached to a board on which the LED chip 110 is mounted to change the relative positions of the lens 130 and the infrared light outputting the outside of the infrared light emitter 100. Heat emitted from the LED chip 110 to the outside And a sink (150).

An embodiment of the infrared camera integrated infrared camera of the present invention includes the wide angle control means 140 is coupled to the side of the reflector 120 in the form of a gear, is fixed to the outer peripheral surface of the LED chip 110 The LED reflector 110 may further include a second reflector reflecting light generated in the output direction.

In addition, the outer side of the reflector 120 has a bellows shape and includes adjusting the reflection angle of the reflector 120 by the folding of the bellows when the wide-angle adjusting means 140 is operated, the side of the camera module 200 In addition, the focus adjusting means 210 and the zoom adjusting means 220, the camera lens 240 on the camera module 200 is coupled to the C-ring 230 and the gear on the outer peripheral surface, the focus adjusting means 210 and the zoom adjusting means 220 is engaged with the gear in the form of a gear.

Another embodiment of the infrared emitter integrated infrared camera of the present invention includes a space in which the lower case 300 accommodates the infrared emitter 100 and the camera module 200 is partitioned by the partition wall 310, The upper case 400 is formed integrally with the heat sink 150 and is made of a heat dissipating material, and includes an upper side formed in a corrugated shape, and includes a lower case 300 formed of a lightweight material.

According to the present invention, since the camera module 200 and the infrared light emitter 100 are manufactured in one piece, the infrared camera can be manufactured compactly, and the infrared light emitter 100 can adjust the wide angle of the infrared light emitter. 100) can be adjusted to suit various situations.

In addition, since the wide angle of the infrared light emitter 100 is adjusted by the movement of the reflector 120 and the lens 130, the size of the integrated infrared camera can be reduced and the heat generated from the LED chip 110 can be efficiently discharged. Can be.

In addition, by improving the structure of the heat sink 150 and forming the upper case 400 in the form of pleats, the heat dissipation efficiency can be increased, and the lower case 300 can be made of a lightweight material, thereby reducing the infrared camera.

1 is a perspective view showing the appearance of an embodiment of an infrared ray projector integrated infrared camera of the present invention.
Figure 2 is a perspective view showing the inside by removing the upper case of the infrared ray projector integrated infrared camera of the present invention.
3 is a perspective view showing an embodiment of an infrared light emitter included in an infrared light emitter integrated infrared camera of the present invention.
4 is a rear view showing an embodiment of an infrared light projector included in the infrared light projector integrated infrared camera of the present invention.
5 is a perspective view showing an embodiment of a camera module included in an infrared light emitter integrated infrared camera of the present invention.
6 is a plan view showing an embodiment in which the partition wall is included in the infrared light projector integrated infrared camera of the present invention.
7 is a perspective view showing an embodiment of an upper case of an infrared ray projector integrated infrared camera of the present invention.

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

1 is a perspective view showing the appearance of an embodiment of an infrared ray projector integrated infrared camera of the present invention.

Infrared camera integrated infrared camera of the present invention is capable of shooting in the infrared region using the infrared light emitter 100, the infrared light output from the infrared light emitter 100 to adjust the wide angle of the infrared light output by the movement of the reflector 120. The camera module 200 includes a lower case 300 in the form of a container for storing the infrared light emitter 100 and the camera module 200 in a partitioned inner space, and an upper case 400 covering the lower case 300. do.

1 illustrates an upper case 400 and a lower case 300, and an infrared floodlight 320, which is a path through which light emitted from the infrared emitter 100 is output, is provided on a front portion of the lower case 300. (300) the right circular window on the front) and the camera lens window 330, the left circular window on the front of the lower case 300 for shooting the subject through the camera module 200) is included. On the side of the lower case 300 having the infrared floodlight 320, a wide-angle adjusting means 140 for adjusting the wide angle of the infrared light emitter 100 is formed through the lower case 300 so as to be operated by a user. The wide angle may be adjusted by the zoom control means 220 and the focus control, which may adjust the zoom and the focus of the camera module 200 on the side of the lower case 300 where the camera lens window 330 is located. Means 210 are provided.

Figure 2 is a perspective view showing the inside of the upper case 400 of the infrared emitter integrated infrared camera of the present invention. Infrared light emitter 100 and camera module 200 are respectively accommodated in a partitioned space in lower case 300. In this embodiment, infrared light emitter 100 is on the right side and camera module 200 is on the left side. However, the stored position can be changed. The power supply unit 340 for supplying power to the infrared camera of the present invention is provided above the camera module 200 and the infrared light emitter 100.

3 is a perspective view showing an embodiment of an infrared light emitter 100 included in an infrared light emitter integrated infrared camera of the present invention, and FIG. 4 is an embodiment of an infrared light emitter 100 included in an infrared light emitter integrated infrared camera of the present invention. The back view which showed the example.

The infrared light emitter 100 is disposed on the LED chip 110 for generating light in the infrared region, the rear surface of the LED chip 110, the inner surface is parabolic and the outer surface is connected to the wide angle adjusting means 140 The distance from the LED chip 110 is adjusted by the wide-angle adjusting means 140 and is disposed in front of the reflector 120, the LED chip 110 reflects the light generated in the LED chip 110 in the output direction. The lens 130 is coupled to the reflector 120 and forms a wide angle of infrared light generated by the LED chip 110, and is connected to the reflector 120 and adjusts the position of the reflector 120 to adjust the position of the LED chip 110. ) And a wide angle control unit 140 for adjusting the wide angle of the infrared ray outputted to the outside of the infrared light emitter 100 by changing the relative position of the lens 130 and the LED chip 110 attached to the board mounted thereon. Heat dissipating heat generated from the chip 110 to the outside It is configured, including 150. 3 and 4, the heat sink 150 is not shown.

Between the substrate on which the LED chip 110 is mounted and the heat sink 150 are connected, that is, between the rear surface of the LED chip 110 and the front surface of the heat sink 150, a reflector 120 having a parabolic shape is formed. Is mounted. The inner surface of the reflector 120 is formed of a material having high light reflection efficiency, and has a parabolic shape so that the light generated from the LED chip 110 can be reflected as much as possible in the output direction. As a result, when the reflector 120 does not exist or the shape of the reflector 120 is not parabolic as in the related art, the present invention increases the amount of light reaching the subject even when using the same light source. Compared to the light efficiency is higher.

The present invention adjusts the distance between the light source and the lens 130 to adjust the angle (wide angle) of light emitted from the light source to the outside of the infrared emitter 100. In particular, in the case of the present invention, unlike the prior art in which the wide angle is adjusted by the movement of the light source, the wide angle is adjusted by the movement of the reflector 120. The wide angle control unit 140 is connected to the reflector 120 to move the reflector 120 to change the relative position of the lens 130 coupled to the front portion of the reflector 120 and the LED chip 110 as a light source. . The wide angle becomes wider when the relative position of the LED chip 110 and the lens 130 is close, and the wide angle becomes narrower when the relative position of the LED chip 110 and the lens 130 is far. The wide angle control unit 140 may move the position of the reflector 120 by various methods, and in one embodiment, the wide angle control unit 140 is coupled to the side of the reflector 120 in the form of a gear to adjust the wide angle. It is also possible to adjust the position of the reflector 120 by the rotation of the means 140.

When the wide angle is adjusted by the movement of the reflector 120 and the lens 130, the LED chip 110, which is a light source, is fixed without moving. Therefore, the heat sink 150 attached to the substrate on which the LED chip 110 is mounted may also be fixedly installed without moving, in order to emit heat generated from the LED chip 110 to the outside. Therefore, it is not necessary to form an extra space for the movement of the heat sink 150 in the infrared camera integrated infrared camera, and since the heat sink 150 is fixedly installed, it has an advantageous surface for heat dissipation as compared to the case where it is moved. .

In addition, since the heat sink 150 is fixed, the heat sink 150 may be integrally formed with the upper case 400. When the upper case 400 is manufactured, the heat sink 150 is formed by a method such as die casting. When the case 400 is formed in one structure, heat generated by the LED chip 110 may be discharged through a path leading to the heat sink 150 and the upper case 400.

Conventionally, the heat sink 150 for heat dissipation is connected only to the LED chip 110 in the infrared light emitter 100 so that the heat stored in the heat sink 150 may be directed in all directions of the upper case 400 and the lower case 300. Was released through. Since heat generated in the LED chip 110 is emitted along a path leading to the heat sink 150-the inner space-the upper / lower case, both the upper case 400 and the lower case 300 are made of aluminum, such as heat dissipation. It needed to be made of material.

However, when the heat sink 150 is integrally formed with the upper case 400 as shown in FIG. 7 (as shown in FIG. 7), the heat sink 150 is disposed rather than the lower case 300 which is separated from the heat sink 150. Since heat dissipation is concentrated toward the upper case 400 formed of a single structure, even if the upper case 400 is formed of a material having favorable heat dissipation properties, heat generated in the infrared light emitter 100 may be sufficiently dissipated. By forming a kind of path through which heat generated from the inside can escape, the heat dissipation effect is enhanced.

In the present invention according to the embodiment described above, since the lower case 300 does not need to be made of a material having favorable heat dissipation characteristics, the lower case 300 may be formed of a lightweight material such as plastic. Since the lightweight material is much lighter than a heat dissipating material such as aluminum, it is possible to reduce the weight of the lower case 300 and the entire infrared emitter integrated infrared camera. Since the infrared camera of the present invention is used as a surveillance camera or the like, it is generally installed in the form of hanging on the upper part of the indoor and outdoor spaces. Therefore, the lighter the weight, the easier the installation and maintenance, the present invention can be produced by the lower case 300 made of a lightweight material by the characteristics induced by the arrangement of the heat sink 150 and the connection with the upper case 400. Therefore, it is advantageous as compared with the conventional infrared floodlight 100 in terms of utilization.

On the other hand, an embodiment of the infrared camera integrated infrared camera of the present invention further includes a second reflector fixed to the outer circumferential surface of the LED chip 110 to reflect the light generated in the LED chip 110 in the output direction. When the reflector 120 coupled with the lens 130 is moved to adjust the wide angle, the relative distance between the LED chip 110 and the reflector 120 is changed, so that the reflector 120 of the light generated by the LED chip 110 is changed. The degree of reflection is also changed. In order to compensate for this, when the second reflector is further fixed to the outer circumferential surface of the LED chip 110, the relative distance between the LED chip 110 and the second reflector is fixed, so the amount of reflected light according to the movement of the reflector 120 It can compensate for the fluctuation of.

According to another embodiment of the infrared ray projector-integrated infrared camera of the present invention, the outside of the reflector 120 has a bellows shape and the reflection angle of the reflector 120 is adjusted by the folding of the bellows when the wide-angle adjusting means 140 is operated. It includes being. When the outer side of the reflector 120 has a bellows shape, even if one end of the reflector 120 and the LED chip 110 (the opposite of the side where the lens 130 and the reflector 120 are coupled) is fixed, the bellows is fixed. By the folding of the distance between the lens 130 and the LED chip 110 is adjusted, it is possible to adjust the wide angle. In addition, even when the outside of the reflector 120 is folded in a bellows shape, the inner surface of the reflector 120 still maintains a parabolic shape, and only the curvature of the parabolic is changed. However, since the amount of light reflected by the front part is the same regardless of the curvature of the parabolic shape, the function of the reflector 120 is still maintained.

5 is a perspective view showing an embodiment of a camera module 200 included in an infrared light emitter integrated infrared camera of the present invention.

The camera module 200 may photograph an infrared region and may adjust a zoom and a focus. The zoom is adjusted by the zoom adjusting means 220 attached to the side of the camera module 200, and the focus is adjusted by the focus adjusting means 210 added to the side of the camera module 200.

The C-ring 230 and the gear are coupled to the outer circumferential surface of the camera lens 240, and the focus adjusting unit 210 and the zoom adjusting unit 220 are coupled to the engaged gear, respectively, by the rotation of the focus adjusting unit 210. The focus may be adjusted by rotating the zoom adjusting unit 220. Camera lens 240 is characterized in that the C-ring 230 is coupled on the outer peripheral surface as follows. The camera lens 240 has a different focal length zoom magnification or the like depending on the purpose of use. When the focal length, zoom magnification, etc. are different, each camera lens 240 has a diameter of the outer circumferential surface, and it is not efficient in terms of manufacturing process and cost to replace the gears in accordance with the diameter of the outer circumferential surface. Therefore, by inserting a C-ring 230 corresponding to the size of the outer circumferential surface of each camera lens 240 and the size of the inner circumferential surface of the gear between the lens 130 and the gear, various kinds of camera lens 240 by the easy process Can be used.

Figure 6 is a plan view showing an embodiment in which the partition wall 310 is included in the infrared light emitter integrated infrared camera of the present invention.

When the space for accommodating the infrared light emitter 100 and the camera module 200 is divided by the partition 310 on the lower case 300, heat generated from the infrared light emitter 100 is transmitted to the camera module 200. This can be prevented in advance, and it becomes easy to fix and install the infrared light emitter 100 and the camera module 200.

100 Infrared Floodlight 110 LED Chip
120 Reflector 130 Lens
140 Wide Angle Adjustment Unit 150 Heat Sink
200 Camera module 210 Focus adjustment means
220 Zoom control 230 C-ring
240 Camera Lens 300 Lower Case
310 bulkhead 320 infrared floodlight
330 Camera Lens Window 340 Power Supply
400 upper case

Claims (11)

An infrared light emitter 100 for adjusting the wide angle of the infrared light output by the movement of the lens 130 coupled with the reflector 120;
A camera module 200 capable of photographing in an infrared region by using infrared rays output from the infrared light emitter 100;
A lower case 300 in the form of a container for storing the infrared light emitter 100 and the camera module 200 in a partitioned inner space; And
An upper case 400 covering the lower case 300;
Including,
The infrared floodlight 100 is
LED chip 110 for generating light in the infrared region;
The rear surface of the LED chip 110 and the inner surface is parabolic and the outer surface is connected to the wide angle control means 140, the distance with the LED chip 110 is controlled by the wide angle control means 140 A reflector 120 reflecting light generated from the LED chip 110 in an output direction;
A lens 130 disposed on the front surface of the LED chip 110 and coupled to the reflector 120 to form a wide angle of infrared light generated by the LED chip 110;
It is connected to the reflector 120, by adjusting the position of the reflector 120 to change the relative position of the LED chip 110 and the lens 130 to the wide angle of the infrared output to the outside of the infrared light emitter 100 Wide-angle adjusting means for adjusting 140; And
A heat sink 150 to which a substrate on which the LED chip 110 is mounted is attached to discharge heat generated from the LED chip 110 to the outside;
Infrared emitter integrated infrared camera comprising a
delete The infrared camera integrated infrared camera of claim 1, wherein the wide angle adjusting unit 140 is coupled to a side surface of the reflector 120 in a gear shape.
The infrared camera of claim 1, further comprising a second reflector fixed to an outer circumferential surface of the LED chip 110 to reflect light generated by the LED chip 110 in an output direction.
The infrared camera integrated infrared camera of claim 1, wherein an outer side of the reflector 120 is bellows-shaped and adjusts a reflection angle of the reflector 120 by folding the bellows when the wide-angle adjusting unit 140 operates.
The infrared camera integrated infrared camera of claim 1, further comprising a focus adjusting unit 210 and a zoom adjusting unit 220 on the side of the camera module 200.
The method of claim 6, wherein the camera lens 240 on the camera module 200 is coupled to the C-ring 230 and the gear on the outer peripheral surface, the focus control means 210 and the zoom control means 220 is the gear Infrared emitter integrated infrared camera, characterized in that coupled to the gear form
The infrared camera integrated infrared camera of claim 1, wherein the lower case 300 is partitioned by a partition 310 to accommodate the infrared light emitter 100 and the camera module 200.
The infrared camera integrated infrared camera of claim 1, wherein the upper case 400 is integrally formed with the heat sink 150.
The infrared camera integrated infrared camera according to claim 1 or 9, wherein the upper case 400 is made of a heat dissipating material and has an upper side formed in a pleated shape.
The infrared emitter integrated infrared camera of claim 10, wherein the lower case 300 is formed of a lightweight material.

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