GR1009256B - Defensive security camera - Google Patents

Abstract

An innovative security camera specially designed to remain uninfluenced by a laser beam (red, green, orange, blue beam) is disclosed. Said camera has effect on the lens and sensor and not on the system (analog, 720P,960P,1080P,TVI,CVI,CVBS,HD-SDI,AHD,IP) or on the camera analysis. Filters and a specific prismatic arrangement divert to a large extent the above radiations so that lens and sensor are not affected by them; the precise noxious radiations are conducted to special detectors which actuate the alarm and warn, in a wired or wireless mode, the control centre about interference while a clear image of the compromised region is simultaneously offered by the invented camera.

Description

DESCRIPTION

DEFENSIVE SECURITY CAMERA

THE TECHNICAL FIELD OF THE INVENTION IS SECURITY SYSTEMS (PROTECTION OF LIFE AND PROPERTY).

There is 1 level of technology so far:

There are of course various image transmission technologies: Analog, 720P, 960P, 1080P, TVI, CVI, CVBS, HD-SDI, AHD, IP and in various resolutions from 250 lines to 4K and higher. Also in a wide range of prices from 20 euros to several thousand euros. But one feature common to ALL CAMERAS ON THE PLANET TODAY is the image sensor and lens. These 2 features have the purpose of converting the image they see into electrical signals, amplifying them through an electronic stage and via cable or wirelessly, depending on the type of camera, they are sent to recording units and project the image they "see" on some screens. at the control center, to be checked by security personnel.

The disadvantages of the above technology are as follows:

If someone shines a strong light on the camera (and thus the lens and sensor) then most cameras are temporarily "blinded" even if they have an auto-iris lens. But with some electronic devices, some of the expensive cameras manage to reduce the problem, so that the sensor is not damaged and they see even a faint image. But where they ALL fail is when a laser beam hits the lens from a distance. Depending on the power of the laser if it is above 50 watts for example (which is available for purchase in many electronics stores at a cost of $50), then the sensor will be damaged by overheating. Also powerful laser beams are present in all the diopters of the war weapons and therefore they are at the disposal of all terrorists!

MY INNOVATIVE SOLUTION OVERCOME THE ABOVE DISADVANTAGES OF EXISTING TECHNOLOGY BECAUSE:

It is a security camera specially designed not to be affected by a laser beam (red, green, orange, blue).

It is a total solution because it is a solid design from the ground up. This avoids additional costs.

My innovative design does not affect the system (Analog, 720P, 960P, 1080P, TVI, CVI, CVBS, HD-SDI, AHD, IP) or camera resolution at all. It affects the lens and the sensor. By supplying only the electronic board from any security camera (Analog, 720P, 960P, 1080P, TVI, CVI, CVBS, HD-SDI, AHD, IP), it will be able to acquire the property of protection against radiation or interference from laser beams. With a prism arrangement and mechanical filters, and heat absorption filters from the strong radiation, the specific radiations are essentially blocked, deflected to the greatest extent and are not allowed to hit the lens and the optical sensor. They also lead the specific harmful radiation to special detectors which give an alarm and alert the control center by wire or wirelessly about the interference and at the same time we have an image of the violated area with a fairly clear visual field.

FEATURED PART . The prismatic protection devices must be placed in a camera box which is not much bigger than the existing ones but because it also includes the prismatic devices it cannot be adapted to the already existing commercial cameras, which have to be replaced.

BRIEF DESCRIPTION OF THE INVENTION AS DEFINED BY THE CLAIMS:

According to claim 1 There is no other security camera constructed in any way in the prior art that is not important to describe here, which can be unaffected by a laser beam (red, green, orange, blue). And not only to stop working temporarily or permanently depending on the strength of the laser beam but also to continue working giving an image of the area it supervises. It has the following essential differences compared to the competition:

As stated in the characteristic part of claim 1: After the camera is purchased or manufactured with the system (Analog , 720P , 960P , 1080P , TVI , CVI , CVBS , HD-SDI , AHD , IP ) and with the ordered resolution from 250 lines up 4K and more, for the intended segment of the market, is placed inside its special sealed or explosion-proof enclosure, the interior indicatively No(9): (figure 1} which can be made of plastic, metal or aluminum depending on the grade The faceplate (2) is made of 2mm mirror glass and has 6 holes (4 holes for infrared or non-infrared (1), one hole for the lens (3) which can be from 2.7-50mm and one hole for the light detection photocell(4) which is used to activate the infrared or non-infrared light bulbs.(1),(4) are equipment of each camera and are optional.The infrared or non-infrared light bulbs (1) for the night vision of the camera.Inside the facade there is a cryst another 2mm thick which detects the presence of laser or strong light (5). At one point of the profile of this crystal (5) there is a photoresistor that detects the sudden change of light and thus the presence of laser or strong light and activates an alarm relay. At an angle of 45 degrees, a 2mm crystal (6) is placed on which is placed a multi-layer polyester film with an internal metal coating type SRS220 EXSR of the MADICO company or the equivalent, on one side it looks like a mirror and on the other you see normally. So the laser radiations are reflected when they enter from the front of the camera while the camera sees normally from the inside out. Finally, behind this crystal, the camera is placed (7) and finally there is a 5mm aluminum sheet that serves for cooling and fixing the camera (8) finally, the operation tests and checks are made for the effectiveness of the camera against laser radiation and it is checked through of the (6) electronic laser beam detector, the circuit that gives an alarm in the presence of a laser. If the camera is military type in case of being hit by a laser beam the alarm relay can return a laser beam to the target from 50-500 watts capable of piercing metal up to 10 cm or can hit the target with a missile through precision aiming and any diameter selected by the military body! But this requires that civilians and civilians are not walking around in the camera's field of view.

From all the above it is deduced how advantageous my invention is in relation to the already existing technology and all the disadvantages of the methods of the technique that have been applied to date. In other words:

It is a complete solution because it is a compact design. This way additional costs are avoided.

If I would like to describe the implementation of a method of implementing the invention, productively, I would mention the following:

· . After the camera is purchased or manufactured, without the shell but only the electronic parts, i.e. with the system (Analog, 720P, 960P, 1080P, TVI, CVI, CVBS, HD-SDI, AHD, IP) and with the ordered resolution of 250 lines up to 4K, for the intended market segment, is placed inside the special enclosure-indicative shell of the watertight or explosion-proof type, or indoor (9) figure 1 which can be made of plastic, metal or aluminum depending on the degree of protection. The faceplate (2) is made of 2mm mirror glass and has 6 holes (4 holes for infrared or non-infrared (1), one hole for the lens (3) which can be from 2.7-50mm and one hole for the light detection photocell(4) which is used to activate the infrared or non-infrared light bulbs.(1),(4) are equipment of each camera and are optional.The infrared or non-infrared light bulbs (1) for night vision of the camera. Inside the front there is a 2mm thick crystal which detects the presence of laser or strong light (5). At a point of the profile of this crystal (5) there is a photoresistor which detects the sudden change of light and thus the presence of laser or strong light and activates an alarm relay. At an angle of 45 degrees, a 2mm crystal (6) is placed on which is placed a multi-layer polyester film with an internal metal coating type SRS220 EXSR of MADICO company or the corresponding one, on one side it looks like a mirror and on the other side you see normally. So the laser radiations are reflected when they enter from the front of the camera while the camera sees normally from the inside out. Finally, behind this crystal, the camera is placed (7) and finally there is a 5mm aluminum sheet that serves for cooling and fixing the camera (8) finally, the operation tests and checks are made for the effectiveness of the camera against laser radiation and it is checked through of the (6) electronic laser beam detector, the circuit that gives an alarm in the presence of a laser. If the camera is of a military type in the event of an alarm it can return a de capable of piercing metal up to 10 cm through precision targeting and diameter op But this requires that no cameras are circulating.

If the laser beam is hit by a laser beam, the laser relay on the target from 50-500 watts can hit the target with a missile selected by the military operator! citizens and civilians in her field of vision

Claims (1)

1) AMYNTIKH SECURITY CAMERA . There is no other security camera constructed in any way in the prior art that does not matter to describe here that can be unaffected by a laser beam (red, green, orange, blue). And not only to stop working temporarily or permanently depending on the strength of the laser beam but also to continue working giving an image of the area it supervises. FEATURED PART . After the camera is purchased or manufactured with the system (Analog, 720P, 960P, 1080P, TVI, CVI, CVBS, HD-SDI, AHD, IP) and with the ordered resolution from 250 lines up to 4K and more, for the market segment which is intended, is placed inside its special waterproof or explosion-proof enclosure, the interior indicatively No(9): (figure 1) which can be made of plastic, metal or aluminum depending on the degree of protection. The faceplate (2) is made of 2mm mirror glass and has 6 holes (4 holes for infrared or non-infrared (1), one hole for the lens (3) which can be from 2.7-50mm and one hole for the light detection photocell(4) which is used to activate the infrared or non-infrared light bulbs.(1),(4) are equipment of each camera and are optional.The infrared or non-infrared light bulbs (1) for night vision of the camera. Inside the front there is a 2mm thick crystal which detects the presence of laser or strong light (5). At a point of the profile of this crystal (5) there is a photoresistor which detects the sudden change of light and thus the presence of laser or strong light and activates an alarm relay. At an angle of 45 degrees, a 2mm crystal (6) is placed on which is placed a multi-layer polyester film with an internal metal coating type SRS220 EXSR of MADICO company or the corresponding one, on one side it looks like a mirror and on the other side you see normally. So the laser radiations are reflected when they enter from the front of the camera while the camera sees normally from the inside out. Finally, behind this crystal, the camera is placed (7) and finally there is a 5mm aluminum sheet that serves for cooling and fixing the camera (8) finally, the operation tests and checks are made for the effectiveness of the camera against laser radiation and it is checked through of the (6) electronic laser beam detector, the circuit that gives an alarm in the presence of a laser. If the camera is military type in case of being hit by a laser beam the alarm relay can return a laser beam to the target from 50-500 watts capable of piercing metal up to 10 cm or can hit the target with a missile through precision aiming and any diameter selected by the military body! But this requires that civilians and civilians are not walking around in the camera's field of view.