KR101678378B1 - Camouflage Lens Surveillance Camera - Google Patents

Abstract

The present invention relates to a monitoring camera having a camouflage lens capable of automatically separating a camouflage lens when a photographing function of a camera is disappeared because of hiding the lens; and preventing paralysis of a crime prevention function of the monitoring camera by normally photographing a video through the lens. The monitoring camera having the camouflage lens minimizes the paralysis of crime prevention and method functions of the monitoring camera by including a heat line in a front end of a main body; spraying heat fusion glue to the front end of the main body; attaching a camouflage body, which includes the camouflage lens, to the front end of the main body with the heat fusion glue; dissolving the heat fusion glue by enabling a control unit to operate the heat line in a case of hiding the camouflage lens caused by external force; and continuously photographing the video by separating the camouflage body and exposing the lens to the outside.

Description

Camouflage Lens Surveillance Camera with Camouflage Lens [

The present invention relates to a surveillance camera, and when a lens is hid and a photographing function of the camera is lost, the surveillance camera automatically determines the camouflage lens to be photographed through the lens so that the security function of the surveillance camera is paralyzed And is provided with a camouflage lens which can determine whether the lens is occluded by the image processing by artificial or natural and blinks an alarm light if it is artificial to inform the intruder of intrusion and controls the opening and closing of the door to block the escape of the intruder To a surveillance camera.

In general, surveillance cameras are installed inside and outside the building for security and crime prevention purposes. Due to the increasing number of intelligent crimes in recent years, the installation of surveillance cameras is increasing.

In addition, a surveillance camera of an infrared system is known so that the surveillance function of the surveillance camera is advanced to control the shooting direction of the camera or to facilitate shooting at night.

However, there is a problem that when the intruder is covered with the object of the surveillance camera by intentionally covering it, or spraying the spray, etc., the lens can not collect the light, the surveillance function of the surveillance camera is paralyzed and the intruder can not be continuously monitored .

KR 20-0235838 Y1 KR 20-2015-0000030 U

SUMMARY OF THE INVENTION It is an object of the present invention to provide a surveillance camera security and security function that can automatically detect a camouflaged lens temporarily fixed to a main body, And a surveillance camera provided with a camouflage lens capable of minimizing blank space.

It is another object of the present invention to automatically determine whether the camera lens is artificially or naturally occluded and to separate the camouflage lens temporarily fixed to the main body only in an artificial case so that the camera lens can be continuously exposed And to provide a surveillance camera equipped with a camouflage lens that can prevent separation of camouflage lenses due to malfunctions.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a surveillance camera including a camouflage lens that prevents an intruder from recognizing that a surveillance camera performs its function by allowing a separated camouflage lens to be held on a camera body.

The present invention relates to an image pickup apparatus having a lens 110 for collecting light, a main body 120 for receiving the lens 110 therein, And a control unit 140 for acquiring an electric signal of the image pickup device 130. The image pickup device 130 includes an image pickup device 130 for detecting light received through the image pickup device 110 and converting an image of the subject into an electric signal, A heating wire 200 built around the front end of the main body 120; A thermal fusion bond 300 applied around the front end of the body 120; And a camouflage body (400) attached to the periphery of the body (120) with the heat fusion bond (300) and having a camouflage lens (410) disposed at the front end thereof so as to be spaced apart forward of the lens (110); Wherein the lens 110 collects the light passing through the camouflage lens 410 and the controller 140 controls the heating element 200 according to the decrease in the light sensed by the imaging element 130. [ The thermally welded bond 300 is melted by the heat of the heat ray 200 and the camouflage body 400 is separated from the main body 120. [

The elastic body 600 is disposed between the distal end of the main body 120 and the rear end of the gastrostomy body 400 to push the main body 120 forward.

And a connection part 500 connecting the front end of the main body 120 and the rear end of the camouflage body 400 according to the present invention.

In addition, the connection part 500 of the present invention is formed of a wire or a ring, and is located on the lower side of the front end of the main body 120.

In addition, a receiving groove 122 for receiving and fixing the elastic body 600 is formed at the tip of the main body 120 of the present invention.

In the body 120 of the present invention, the main body 120 is connected to the controller 140 to receive an electric signal obtained from the image sensing element 130, 130 for determining whether the decrease in light sensed by the light source 130 is artificially reduced or naturally reduced.

The present invention is characterized in that a heat ray 200 is embedded in a front end of a main body 120 and a thermally fusible bond 300 is applied to a front end of the main body 120 and a camouflage lens 410 is provided When the camouflage body 400 is attached to the front end of the main body 120 and the camouflage lens 410 is covered by external force, the control unit 140 operates the heat ray 200 to melt the heat- And the camouflage body 400 are separated from each other, so that the lens 110 can be exposed to the outside so that the shooting can be continuously performed, thereby minimizing the security and security of the surveillance camera.

The artificial intelligence unit 150 connected to the controller 140 automatically determines whether the camouflage lens 410 is artificial or natural and operates the heat ray 200 only when the artificial intelligence unit 150 is artificial, The camouflage body 400 temporarily fixed by the bond 300 is separated from the main body 120 so that the photographing can be continued by exposing the lens 110 to prevent separation of the camouflage body 400 due to malfunction There is an effect that can be done.

The main body fixing member 160 is formed at a lower portion of the main body 120 and the main body fixing member 420 is formed at a lower portion of the main body body 400, The body fastener 160 and the body fastener 420 are overlapped with each other while the body fastener 160 and the body fastener 420 are connected to each other by the heat fusion bond 300. As a result, 400 is suspended from the main body 120 by the connecting part 500 even when the main body 400 is separated from the main body 120. This prevents the intruder from recognizing whether or not the camouflage body 400 is detached.

In addition, the present invention is characterized in that the elastic body 600 is provided at the tip of the main body 120 so that the gastrostring body 400 is pushed forward by the elasticity of the elastic body 600, When the force attached to the front end of the main body 120 is weakened, the gastric body 400 protrudes forward by the elastic body 600 so that the gastric body 400 is reliably separated from the distal end of the main body 120 .

1 is a view showing a conventional surveillance camera 100;
2 is a view showing a state in which a lens 110 is covered by a conventional surveillance camera 100;
3 is a perspective view of a surveillance camera having a camouflage lens according to an embodiment of the present invention.
4 is an exploded perspective view of a surveillance camera provided with a camouflage lens according to an embodiment of the present invention.
5 is a front view of a surveillance camera having a camouflage lens according to an embodiment of the present invention.
6 is a cross-sectional view of a surveillance camera having a camouflage lens according to an embodiment of the present invention.
7 is a cross-sectional view illustrating a blinded state of the camouflage lens 410 in the surveillance camera provided with the camouflage lens according to the embodiment of the present invention.
8 is a perspective view showing a state in which the camouflage body 400 is separated from the surveillance camera provided with the camouflage lens according to the embodiment of the present invention.
9 is a detailed circuit diagram of the control unit 140 and the artificial intelligence unit 142 in the surveillance camera provided with the camouflage lens according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

FIG. 3 is a perspective view of a surveillance camera having a camouflage lens according to an embodiment of the present invention, FIG. 4 is an exploded perspective view of a surveillance camera having a camouflage lens according to an embodiment of the present invention, and FIG. FIG. 6 is a cross-sectional view of a surveillance camera having a camouflage lens according to an embodiment of the present invention.

3 to 6, a surveillance camera having a camouflage lens according to an embodiment of the present invention includes a lens 110 for collecting light, a main body 120 for accommodating the lens 110 therein, An imaging device 130 positioned behind the lens 110 in the main body 120 to sense light received through the lens 110 and convert the image of the subject into an electrical signal, And a control unit 140 for obtaining an electric signal of the main body 120. The main body 120 includes a surveillance camera 100 including a main body 120, And a camouflage body 400 attached to the periphery of the main body 120 with a heat fusion bond 300 and having a camouflage lens 410 disposed at the front end thereof so as to be spaced apart from the lens 110 in front.

And a connection part 500 connecting the front end of the main body 120 and the rear end of the gastrointestinal body 400 to each other.

And an elastic body 600 positioned between the distal end of the main body 120 and the rear end of the gastrointestinal body 400 to push the main body 120 forward.

1 is a view showing a conventional surveillance camera 100. As shown in FIG.

In the conventional surveillance camera 100, the lens 110 and the image pickup element 130 are located at the inner tip of the main body 120. The lens 110 collects the external light 10 and the image pickup element 130 forms an image of the object with the light 10 collected by the lens 110. The control unit 140 is connected to the image pickup device 130 to amplify the signal of the image pickup device 130 or to transmit the signal by radio.

2 is a view showing a state in which the lens 110 is covered by the conventional surveillance camera 100. FIG.

When the lens 110 is coated with a paint such as a spray to block light, the lens 110 can not collect outside light, so that the image of the subject can not be properly formed on the image pickup element 130. Therefore, the function of the camera is lost.

In this case, security and security functions of the surveillance camera 100 may be nullified.

3 is a perspective view of a surveillance camera having a camouflage lens according to an embodiment of the present invention.

The camouflage body 400 has a shape corresponding to the front end of the surveillance camera 100 and is fixed to the front end of the surveillance camera 100. A camouflage lens 410 is provided at the tip of the camouflage body 400. The camouflage lens 410 is made of a transparent material so that light passes through the camouflage lens 410 as it is.

4 is an exploded perspective view of a surveillance camera provided with a camouflage lens according to an embodiment of the present invention.

The surveillance camera 100 is provided with a lens 110 for collecting light at the tip of the main body 120. At the tip of the main body 120, the heat fusion bond 300 is applied at least two or more along the periphery. At this time, the heat fusion bond 300 is uniformly positioned around the front end of the main body 120.

The heat fusion bond 300 is a plastic that dissolves heat and has a property of melting when heated to a temperature of 200 degrees or more. The molten bond 300 is uniformly applied on the periphery of the main body 120 of the molten bond 300 and the gastrointestinal body 400 is attached to the tip of the main body 120.

At the front end of the main body 120, a receiving groove 122 for receiving the elastic body 600 is formed. The receiving groove 122 holds the rear end of the elastic body 600 and serves to accommodate the entire elastic frame 600 when the elastic body 600 contracts.

The receiving groove 122 is located on the periphery of the main body 120 so as not to overlap with the position to which the thermal fusion bond 300 is applied. The diameter of the receiving groove 122 corresponds to the diameter of the elastic body 600.

A main fixture 150 is provided at a lower end of the main body 120 to allow the connection portion 500 to be installed. The main body fixture 150 overlaps with the body fixture 420 when the gastrostomy body 400 is attached to the front end of the main body 120 and the connection portion 500 is inserted into the body fixture 150 and the body fixture 420 Loses.

The camouflage body 400 has a shape corresponding to the tip of the main body 120, and a camouflage lens 410 made of a transparent material is provided in front of the camouflage body 400. After the light passes through the camouflage lens 410 as it is, the lens 110 of the surveillance camera 100 collects the light.

The gastrostomy body 400 has a body fastener 420 protruded downward at a lower portion thereof. The body fastener 420 overlaps the body fastener 150 when the gastrostomy body 400 is fixed to the front end of the body 120. In this state, the connection part 500 is inserted into the body fastener 150 and the body fastener 420. The connecting part 500 may be fixed by various connecting means such as a wire or a ring if the lower part of the gastrostomy body 400 and the lower part of the main body 120 can be fixed to each other.

The elastic body 600 is installed in the receiving groove 122 by a compression spring. The rear end of the elastic body 600 is fixed to the bottom of the receiving groove 122. The distal end of the elastic body 600 applies an elastic force to push the gastrostomy body 400 forward. That is, when the gastrointestinal body 400 is attached to the distal end of the main body 120, the elastic body 600 continuously pushes the gastrointestinal body 400 forward.

Even when the gastrostomy body 400 is attached by the heat-welding bond 300, even if the elastic body 600 pushes the gastrostomy body 400 forward, the gastrostomy body 400 remains attached. However, When the bond 300 is melted by heat, the gastrointestinal body 400 is easily pushed forward by the elastic body 600. Accordingly, the elastic body 600 promotes the separation of the gastrostomy body 400.

FIG. 5 is a front view of a surveillance camera 100 according to an embodiment of the present invention, FIG. 6 is a cross-sectional view of a surveillance camera provided with a camouflage lens according to an embodiment of the present invention, Sectional view showing a state in which the camouflage lens 410 is covered by a surveillance camera equipped with a lens. Here, in FIG. 5, the illustration of the gastrointestinal body 400 is omitted. 6 and 7, the heat ray 200 and the heat fusion bond 300 are omitted.

A heat ray (200) is embedded along the periphery of the main body (120). The heat fusion bond 300 is melted by the heat of the heat ray 200. The heating line 200 is electrically connected to the control unit 140, and is operated by the control unit 140.

The light 10 passes through the camouflage lens 410 of the camouflage body 400 and the light 10 is gathered through the lens 110 of the surveillance camera 100. The image is formed on the image pickup element 130 located behind the lens 110 in the main body 120 by the light 10. [ That is, the image sensing element 130 senses the light 10 received through the lens 110 and converts the image of the subject into an electric signal. The control unit 140 is electrically connected to the image sensing device 130 to acquire an electrical signal from the image sensing device 130. In this manner, the subject is photographed. The control unit 140 transmits the electric signal obtained from the image pickup device 130 to a central control station monitoring the surveillance camera 100 by radio.

The control unit 140 is connected to the central control center through the signal line 142. Power is supplied to the signal line 142, or the signal of the image pickup element 130 is transmitted. The control unit 140 may also serve to supply power to the image pickup device 130.

On the other hand, when the camouflage lens 410 is blocked by an external force such as spraying, the controller 140 determines the camouflage lens 410 and operates the heat ray 200. That is, when the camouflage lens 410 is blown off by the intruder, the control unit 140 operates the heat ray 200.

When the camouflage lens 410 is covered, the light 10 can not pass through the camouflage lens 410 and the light 10 reaching the lens 110 is significantly weakened. Accordingly, the amount of light 10 sensed by the image sensing element 130 is significantly reduced. In this case, the control unit 140 operates the heat line 200.

Meanwhile, an artificial intelligence unit 150 connected to the control unit 140 is installed in the main body 120. The artificial intelligence unit 150 acquires an electric signal of the image sensing element 130 from the control unit 140 and learns and analyzes it. It is determined whether the decrease in the light 10 sensed by the image sensing element 130 is artificially reduced or naturally reduced.

For example, when the camouflage lens 410 is gradually blocked due to fire, the artificial intelligence unit 150 determines that the reduction of the light 10 sensed by the image sensing element 130 is naturally reduced. In addition, when the human body approaches the human body or the human body is moving suddenly while the camouflage lens 410 is hidden from the image sensing element 130, the artificial intelligence unit 150 detects that the light 10 sensed by the image sensing element 130 is reduced It is judged to be artificially reduced. The artificial intelligence unit 150 applies a known technique such as human body detection.

The artificial intelligence unit 150 transmits a control signal according to the analysis result of the above-described example to the control unit 140. [ The control unit 140 receives the signal of the artificial intelligence unit 150 and operates the heat ray 200.

8 is a perspective view showing a state in which the camouflage body 400 is separated from the surveillance camera equipped with the camouflage lens according to the embodiment of the present invention.

If the artificial intelligence unit 150 determines that the camouflage lens 410 is obstructed, the artificial intelligence unit 150 transmits a control signal to the control unit 140 to activate the heat ray 200.

The control unit 140 operates the heating wire 200. [ As the hot wire 200 is heated, heat is applied to the hot melt bond 300 adjacent to the hot wire 200. When the melting point of the heat-fusible bond 300 reaches the melting point, the heat-fusible bond 300 is melted.

The elastic body 600 continuously pushes the gastrostomy body 400 toward the front side so that the camouflage body 400 is separated from the front end of the body 120 when the adhesive strength of the heat-sealing bond 300 is weakened.

Then, since the lens 110 of the surveillance camera 100 is exposed at the front, shooting can be continuously performed. Accordingly, even if the intruder shields the camouflage lens 410 or obstructs the camouflage lens 410 by spraying or the like for the purpose of obstructing the shooting of the surveillance camera 100, the photographing can be continued by the lens 110 continuously. The attacker's surveillance can be continued to the end. Thereby minimizing the security and security of method functions by the surveillance camera 100.

On the other hand, when the gastrointestinal body 400 is separated from the distal end of the main body 120, it falls down to the ground by its own weight. When the camouflage body 400 falls on the ground, a noise is generated, and the intruder can know that the surveillance camera 100 is continuously being photographed.

To cope with such a problem, the main body fixture 160 is protruded downward at the tip of the main body 120, and the body fixture 420 is also protruded downward at a position corresponding to the main fixture 160 in the camouflage body 400 .

The main fixture 160 and the body fixture 420 are connected to each other through the connection part 500 of the wire or the ring. The connection part 500 connects the body fixing part 160 and the body fixing part 420 with a ring-shaped wire.

When the gastrointestinal body 400 melts and is detached from the front end of the main body 120 through the connection part 500, the gastrointestinal body 400 is continuously suspended from the main body 120 without falling to the ground. So that the intruder can not notice that the gastrointestinal body 400 is separated from the main body 120.

9 is a detailed circuit diagram of the control unit 140 and the artificial intelligence unit 150 in the surveillance camera equipped with the camouflage lens according to the embodiment of the present invention.

The surveillance camera 100 is connected to the monitor 20 and the video recording device 30 of the central control center through a signal line 142. The surveillance camera 100 can be monitored in real time through the monitor 20 and the surveillance camera 100 can store the captured image through the video recording device 30. [

The artificial intelligence unit 150 is connected to the control unit 140 and the control unit 140 is connected to the switching device 144 and the alarm light 50 and the external output control device 60.

The hot wire 200 is connected to the positive terminal of the battery 40 through the connection terminal 210 and the negative terminal of the battery 40 is connected to the switching element 144 through the connection terminal 210 in series do. When the switching element 144 is energized, electric power is supplied to the heating wire 200.

When the image signal is "0" or "0" when the image signal is not "0" or "0" because the camouflage lens 410 (see FIG. The element 144 is turned on to heat the heat ray 200. As the heating wire 200 is heated, the camouflage body 400 is separated from the main body 100.

The artificial intelligence unit 150 allows the surveillance camera 100 to learn the image data photographed by the surveillance camera 100 and stores the various image big data in the image recording device 30 so as to not only block the camouflage lens 410, Before the camouflage lens 410 is covered, the motion pattern of the intruder and the video signal of the surrounding situation are analyzed and judged.

At this time, the artificial intelligence unit 150 judges whether or not a fire is generated, whether it is a natural phenomenon, an obstacle or a smoke cutoff, and determines the timing of separating the gastrostomy body 400 from the main body 120, Thereby determining whether or not the gastrointestinal body 400 is to be separated from the gastrointestinal body 400.

When the camouflage lens 410 is covered by the intruder, the artificial intelligence unit 150 blinks the warning light 50 so that the intruder can easily recognize the intruder through the monitor 20. It is also determined through the external output control device 60 whether or not the door is open or closed to prevent the intruder from escaping.

The surveillance camera 100 is provided with a camouflage body 400 removable from the front end of the main body 120 and the camouflage lens 410 is detached from the main body 120 through the artificial intelligence unit 150, Even if the camouflage lens 410 of the camera 100 is covered, the camera function is restored again through the lens 110 provided in the main body 120, and continuous image monitoring can be ensured in response to various situations , And significantly enhances the security function.

10: light 20: monitor 30: video recording device 40: battery
50: Alarm lamp 60: External output control device
100: Surveillance camera
110: lens 120: body 122: receiving groove
130:
140:
142: signal line 144: switching element
150: artificial intelligence unit 160: body fixture
200: Heat line
210: connection terminal
300: Heat fusion bond
400: camouflage body
410: camouflage lens 420: body fastener
500: Connection
600: elastomer

Claims (6)

The lens 110 is disposed in the rear of the lens 110 in the main body 120 so that the lens 110 can be moved to the inside of the main body 120. [ And a control unit (140) for acquiring an electric signal of the image pickup element (130), the surveillance camera (100) comprising: an image pickup element (130)

A heating wire 200 built around the front end of the main body 120;
A thermal fusion bond 300 applied around the front end of the body 120; And
A camouflage body 400 attached to the periphery of the main body 120 by the heat fusion bond 300 and having a camouflage lens 410 disposed at the front end thereof so as to be spaced apart forward of the lens 110; Further comprising:

The lens 110 collects light passing through the camouflage lens 410,
The control unit 140 may include a camouflage lens that operates the heating wire 200 in response to a decrease in light sensed by the imaging device 130 and melts the thermal welding bond 300 by the heat of the heating wire 200 Surveillance camera.
The method according to claim 1,
The surveillance camera according to claim 1, further comprising an elastic body (600) positioned between a front end of the main body (120) and a rear end of the camouflage body (400) and pushing the main body (120) forward.
3. The method of claim 2,
And a connection part (500) for connecting the front end of the main body (120) and the rear end of the camouflage body (400) to each other.
The method of claim 3,
The connection part 500 is formed of a wire or a ring,
And a camouflage lens located at a lower portion on the periphery of the front end of the main body (120).
3. The method of claim 2,
And a cam groove formed in the front end of the main body to define a receiving groove for receiving and fixing the elastic body.
3. The method of claim 2,
Inside the main body 120,
And is connected to the controller 140,
An artificial intelligence unit 150 that receives an electric signal acquired by the imaging device 130 and determines whether the decrease in light sensed by the imaging device 130 is artificially reduced or naturally reduced And further comprising a camouflage lens.

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