WO2019165647A1 - Infrared night vision device - Google Patents

Abstract

Disclosed is an infrared night vision device, comprising a signal collecting part and a remote control display part. The signal collecting part is used for collecting infrared rays emitted by an object, and the remote control display part is used for remotely controlling a collecting direction of the signal collecting part; an optical lens is fixedly provided on a first housing; a beam splitter is provided at the inner side of the optical lens; the beam splitter is used for splitting a ray into two beams; the split rays respectively pass through a beam splitter and a micro-channel plate provided at one side of the beam splitter; the micro-channel plate is used for accelerating photons; an infrared image converter tube is provided at one side of the micro-channel plate; a fluorescent screen or a CCD chip is provided at one side of the infrared image converter tube; the fluorescent screen is used for displaying a distribution image of the accelerated photons. According to the present invention, an infrared night vision device can have multiple use modes, where the use of remote control is achieved by means of a remote control display apparatus, such that an image can be transmitted over a long distance, the labor costs can be reduced, and the efficiency is improved.

Description

Infrared night vision device Technical field

The invention relates to the technical field of infrared night vision devices, in particular to the technical field of infrared night vision devices.

Background technique

Ordinary people's eyes can't feel infrared rays, so people can't see things when there is no reflected light in the dark, and any object with a temperature higher than absolute zero radiates infrared rays, including your body. Therefore, the infrared ray-detecting device is used to detect the infrared ray, and then the analog signal is subjected to image processing methods such as background noise, amplification, filtering, etc., to restore the contour of the detected object. However, the color is difficult to restore, so the infrared night vision device sees The image is rarely colored. It is the basic principle of infrared night vision.

The infrared night vision device played a very important role in the war. In the summer of 1945, the US military landed on the island of Okinawa. The Japanese troops hidden in the cave tunnel used complex terrain and came out to attack the US military at night. So the US military urgently transported a batch of infrared night illuminators that had just been manufactured to Okinawa. The guns with infrared night vision devices were placed near the caves. When the Japanese army climbed out of the hole at night, they were immediately knocked down by an accurate gun. The Japanese troops in the cave did not know why, and they continued to rush out, and they gave their lives in a confused way. When the infrared night vision device first entered the battlefield, it played an important role in eliminating the Japanese army that was recalcitrant on Okinawa. In 1982, the Malvinas War broke out between Britain and Argentina. In the middle of the night of April 13, the British attacked the Stanley Port, the largest stronghold in the army. Thunderfields of 3,000 British troops suddenly appeared in front of the Afghan defense line. All guns and artillery in the United Kingdom are equipped with infrared night vision devices, which can clearly find the targets of the army in the dark. The Afghan army lacks night vision devices, and cannot find the British army. It only has a passive beating. Under the accurate attack of the British military firepower, the Afghan army could not support it, and the British army took the opportunity to launch a charge. By dawn, the British army had occupied several major commanding heights on the Afghan defense line. The Afghan army was completely under the control of the British military. At 9 pm on June 14, 14,000 Azerbaijans had to surrender to the British. The British military's leading infrared night vision equipment won a battle of disparity. In the Gulf War of 1991, on the battlefield filled with sand and smoke, the US military equipped with advanced infrared night vision equipment, able to find the other side of the Iraqi military tanks and fired a gun. The Iraqi army only learned that the enemy was in front of the muzzle fire when the US military tanks were fired. This shows the important role of infrared night vision equipment in modern warfare.

In addition to military applications, infrared night vision devices are also very demanding in civilian applications. They can be used for mining, hunting, etc. Traditional infrared night vision devices are used in a single way and must be operated by people and infrared night vision devices. It can't be controlled and observed remotely. For areas far from the house, the labor cost is high. The market needs an infrared night vision device. It needs to be able to make infrared night vision devices have multiple ways of use, which can be compared with traditional infrared night vision. The instrument can be used in the same way as the gimbal. It can be remotely controlled by remote control display device, and the image can be transmitted over long distances, which can reduce labor costs and improve efficiency.

Summary of the invention

The main object of the present invention is to provide an infrared night vision device, which can make the infrared night vision device have various usage modes, can be used in the same manner as the traditional infrared night vision device, or can cooperate with the cloud platform to remotely control the display device. For remote control, images can be transmitted over long distances, reducing labor costs and improving efficiency.

In order to achieve the above object, the present invention provides an infrared night vision device including a signal collecting portion for collecting infrared rays emitted by an object, and a remote remote display portion for remote signal collection. The collecting direction of the part simultaneously displays and stores the image information collected by the signal collecting unit, wherein the signal collecting part comprises a first housing, a rechargeable battery, a power switch, a relay, an infrared emitter, a wireless transceiver, and a humidity sensor. , temperature sensor, infrared emission switch, first processor, CCD chip, fluorescent screen, infrared image tube, micro channel plate, optical lens, beam splitter, power-on shutdown identification switch, indicator light, brightness sensor and pan/tilt, the optics The lens is fixed on the first housing, the inside of the optical lens is provided with a beam splitter, the beam splitter is used to split the light into two beams, and the separated light passes through the beam splitter and the micro channel disposed on the side of the beam splitter respectively. a plate, the second beam splitter side is provided with two microchannel plates for accelerating photons, the micro pass The side of the board is provided with an infrared image tube, and the side of the infrared tube is provided with a fluorescent screen or a CCD chip for displaying an image of the distribution of the accelerated photons, and the CCD chip passes through the wire and the first processor. Connected, the first processor is connected to the power-on shutdown identification switch, the indicator light, the brightness sensor, the relay, the infrared transmitter, the wireless transceiver, the humidity sensor, the temperature sensor, the infrared emission switch, and the pan/tilt via wires, respectively. The shutdown identification switch and indicator light are used to determine whether the device is in the power-on state. When the power-on shutdown identification switch is pressed, if the device is in the power-on state, the indicator light will be on. If the device is in the power-off state, the indicator light will not light up. The brightness sensor can be used to measure the brightness of the surrounding environment without setting the indicator light that is always on. When the surrounding environment suddenly has strong light, the processor will cut off the power of the part of the power device through the relay to reach the protection element. For the purpose of the device, the infrared emitter is used to emit infrared rays, infrared rays emitted by infrared emitters After the object is reflected back, the device can observe the object more clearly. The wireless transceiver is used to maintain information connection between the signal collecting portion and the remote remote display portion, and the humidity sensor is used for measuring the humidity of the environment. In the temperature of the measuring environment, the device measures the temperature and humidity of the environment as a basic parameter, and analyzes the color of the image through software, and can roughly determine the temperature range of the object, and the infrared emitting switch is used to control the working state of the infrared emitter. The pan/tilt is used to change a direction in which the signal collecting unit collects an infrared signal, and the rechargeable battery is connected to a power switch through a wire, and the power switch is connected to the relay through a wire, and the power switch is used to control the working state of the device. The relay is respectively connected to the first processor, the infrared emitter, the microchannel board, the infrared image tube and the pan/tilt via a wire; the remote control display part comprises a second casing, a second processor, a remote control button, a lens, a wireless transceiver, a display and a memory, the second housing is provided with a second And the second processor is respectively connected to a remote control button, a display and a memory through a wire, the display is for displaying an image transmitted by the CCD chip, the memory is for storing image information, and the lens is disposed on the display side The lens is used to magnify an image on the display, and the remote control button is used to control the working state of the gimbal.

Preferably, the first casing is provided with fixing ears on both sides thereof, and the fixing ear is fixedly provided with a fixing belt for fixing the signal collecting portion to the head.

Preferably, the upper portion of the first casing is provided with an eyepiece barrel, and the eyepiece barrel is provided with a rubber pad for transmitting an image into a human eye.

Preferably, the upper portion of the first casing is provided with a battery compartment, and the rechargeable battery is disposed in the battery compartment.

Preferably, a lower part of the pan/tilt is provided with a pan/tilt base, a charging battery and a control circuit board are disposed in the base of the pan/tilt, and a fixing nail is disposed at a lower portion of the base of the pan/tilt, and the fixing nail is used for fixing the pan/tilt on the ground.

Preferably, the optical lens is provided with an anti-reflection film, and the material of the anti-reflection film is calcium fluoride.

Preferably, the second housing is provided with a hinge seat which is hingedly mounted on the support plate by a pin shaft, and the support plate is rotatable about the pin shaft.

Preferably, the cover is mounted on the second casing by a leaflet, and the display is disposed inside the cover, and the display can be turned over to the upper portion of the second casing by flipping the cover.

Preferably, the cover body is provided with positioning teeth, and the positioning teeth are in contact with the support plate, and the support plate can be changed on the different positioning teeth to change the upward tilting angle of the cover body.

Features and advantages of the present invention will be described in detail by the embodiments in conjunction with the accompanying drawings.

DRAWINGS

Figure 1 is a schematic view of a signal collecting portion of the present invention;

2 is a schematic diagram of a remote control display portion of the present invention;

Figure 3 is a schematic view of a gimbal of the present invention;

4 is a schematic structural view of an infrared night vision device of the present invention.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

Detailed ways

It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

1 to 4, an infrared night vision device of the present invention includes a signal collecting unit 2 and a remote remote display unit 6, wherein the signal collecting unit 2 is configured to collect infrared rays emitted by an object, and the remote remote display unit 6 is used. The image information collected by the signal collecting unit 2 is simultaneously displayed and stored in the collecting direction of the remote control signal collecting unit 2, wherein the signal collecting unit 2 includes a first casing 21, a rechargeable battery 22, a power switch 23, and a relay 24. , infrared transmitter 25, wireless transceiver 26, humidity sensor 27, temperature sensor 28, infrared emission switch 29, first processor 30, CCD chip 31, fluorescent screen 32, infrared image tube 33, microchannel plate 34, optical lens 36. A beam splitter 35, a power-off shutdown recognition switch 40, an indicator light 41, a brightness sensor 42 and a pan/tilt head 43. The optical lens 36 is fixed on the first housing 21, and the optical lens 36 is provided with a beam splitter 35 inside. The beam splitter 35 is used to split the light into two beams, and the separated light passes through the beam splitter 35 and the microchannel plate 34 disposed at the side of the beam splitter 35, respectively, and the second beam splitter 35 is provided with two micros on the side. Channel plate 34, The microchannel plate 34 is used for accelerating photons, and the microchannel plate 34 is provided with an infrared image tube 33 on the side thereof, and a fluorescent screen 32 or a CCD chip 31 is disposed on the side of the infrared image tube 33. The CCD chip 31 is connected to the first processor 30 through a wire, and the first processor 30 is respectively connected to the power-on shutdown identification switch 40, the indicator light 41, the brightness sensor 42, and the The relay 24, the infrared emitter 25, the wireless transceiver 26, the humidity sensor 27, the temperature sensor 28, the infrared emission switch 29 and the pan/tilt head 43 are connected, and the power-on shutdown identification switch 40 and the indicator light 41 are used to determine whether the device is powered on. When the power-on shutdown identification switch 40 is pressed, if the device is in the power-on state, the indicator light 41 will be illuminated. If the device is in the power-off state, the indicator light 41 will not light up, and the normally-on indicator light 41 may not be set. Saving energy, the brightness sensor 42 is used to measure the brightness of the surrounding environment, when the surrounding environment suddenly has strong light, the processor will cut off the power of the part of the electrical device through the relay 24, For the purpose of protecting components, the infrared emitter 25 is used to emit infrared rays, and the infrared rays emitted from the infrared emitter 25 are reflected back from the object, so that the device can observe the object more clearly, and the wireless transceiver 26 is used for the signal collecting part. 2 maintaining an information connection with the remote control display portion 6, the humidity sensor 27 is for measuring the humidity of the environment, the temperature sensor 28 is for measuring the temperature of the environment, and the device passes the temperature and humidity of the measurement environment as a basic parameter. The software analyzes the color of the image to roughly determine the temperature range of the object. The infrared emission switch 29 is used to control the working state of the infrared emitter 25, and the pan/tilt head 43 is used to change the direction in which the signal collecting unit 2 collects the infrared signal. The rechargeable battery 22 is connected to the power switch 23 through a wire. The power switch 23 is connected to the relay 24 through a wire. The power switch 23 is used to control the working state of the device. The relay 24 is respectively connected to the first process by wires. The device 30, the infrared emitter 25, the microchannel plate 34, the infrared image tube 33 and the pan/tilt head 43 are connected; the remote remote display The display unit 6 includes a second housing 61, a second processor 62, a remote control button 63, a lens 65, a wireless transceiver 26, a display 66 and a memory 67. The second housing 61 is provided with a second processor 62. The second processor 62 is respectively connected to a remote control button 63, a display 66 and a memory 67 through a wire for displaying an image transmitted by the CCD chip 31, the memory 67 for storing image information, the lens 65 is disposed at the side of the display 66 for amplifying an image on the display 66 for controlling the operational state of the pan-tilt 43.

Specifically, a fixing ear 211 is disposed on both sides of the first housing 21, and the fixing ear 211 is fixedly disposed with a fixing strap 213 for fixing the signal collecting portion 2 to the head.

Specifically, an upper portion of the first housing 21 is provided with an eyepiece barrel 212, and the eyepiece barrel 212 is provided with a rubber pad for transmitting an image into a human eye.

Specifically, an upper portion of the first housing 21 is provided with a battery compartment 214, and the rechargeable battery 22 is disposed in the battery compartment 214.

Specifically, a pan/tilt base 7 is disposed at a lower portion of the pan/tilt head 43. The pan/tilt base 7 is provided with a rechargeable battery 22 and a control circuit board. The bottom portion of the pan/tilt base 7 is provided with a fixing nail 8 and the fixing nail 8 is used to fix the pan/tilt head 43 to the ground.

Specifically, the optical lens 36 is provided with an anti-reflection film, and the material of the anti-reflection film is calcium fluoride.

Specifically, the second housing 61 is provided with a hinge seat 611 which is hingedly mounted on the support plate 612 by a pin shaft, and the support plate 612 is rotatable about the pin shaft.

Specifically, a cover body 613 is mounted on the second casing 61 by a leaflet. The display 66 is disposed inside the cover body 613, and the display 66 can be turned over to the upper portion of the second casing 61 by flipping the cover body 613.

Specifically, the cover body 613 is provided with positioning teeth 614. The positioning teeth 614 are in contact with the support plate 612. The support plate 612 can be changed on the different positioning teeth 614 to change the upward tilting angle of the cover body 613.

The working process of the invention:

In an infrared night vision device of the present invention, the signal collecting portion 2 can be carried on the head by the fixing strap 213, and the image of the first housing 21 can be observed by the eye tube 212, and the infrared light enters through the optical lens 36. The beam splitter 35 is split into two beams by the beam splitter 35, and then the photons are accelerated by the infrared ray tube 33 and the microchannel plate 34, and the final image is displayed through the phosphor screen 32, and the image data collected by the CCD chip 31 can be displayed through the display 66. The first housing 21 can also be mounted on the pan/tilt head 43. The rotation direction of the pan/tilt head 43 can be controlled by the remote remote display unit 6, and the image collected by the signal collecting unit 2 can be transmitted to the remote control display through the wireless transceiver 26. In the portion 6, the first casing 21 and the pan/tilt head 43 can be fixed in the outdoor environment, and the person can monitor and control indoors through the remote control display portion 6.

The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the invention and the drawings are directly or indirectly applied to other related The technical field is equally included in the scope of patent protection of the present invention.

Claims (9)

An infrared night vision device, a signal collecting portion (2) and a remote remote display portion (6), the signal collecting portion (2) is for collecting infrared rays emitted by an object, and the remote remote display portion (6) is used for remote control The collecting direction of the signal collecting portion (2) simultaneously displays and stores the image information collected by the signal collecting portion (2), characterized in that the signal collecting portion (2) includes a first casing (21) and a rechargeable battery (22). ), power switch (23), relay (24), infrared transmitter (25), wireless transceiver (26), humidity sensor (27), temperature sensor (28), infrared emission switch (29), first processor (30), CCD chip (31), fluorescent screen (32), infrared image tube (33), micro channel plate (34), optical lens (36), beam splitter (35), power-off shutdown identification switch (40), An indicator light (41), a brightness sensor (42), and a pan/tilt head (43), the optical lens (36) is fixed on the first housing (21), and the optical lens (36) is provided with a beam splitter inside ( 35), the beam splitter (35) is used to split the light into two beams, and the separated light passes through a beam splitter (35) and a microchannel plate (34) disposed on the side of the beam splitter (35), respectively. Beam splitter (35) The portion is provided with two microchannel plates (34) for accelerating photons, and the side of the microchannel plate (34) is provided with an infrared image tube (33), the infrared change The side of the tube (33) is provided with a fluorescent screen (32) for displaying a distribution image of the accelerated photons, and a CCD chip (31) for passing the wire and the first processing. The device (30) is connected, and the first processor (30) is respectively connected to the power-on shutdown identification switch (40), the indicator light (41), the brightness sensor (42), the relay (24), and the infrared emitter (25) through the wires. The wireless transceiver (26), the humidity sensor (27), the temperature sensor (28), the infrared emission switch (29) and the pan/tilt (43) are connected, and the power-on shutdown identification switch (40) and the indicator light (41) are used. In order to determine whether the device is in a power-on state, the brightness sensor (42) is used to measure the brightness of the surrounding environment, the infrared emitter (25) is used to emit infrared rays, and the wireless transceiver (26) is used to make the signal collecting portion (2) maintaining an information connection with a remote control display portion (6) for measuring the humidity of the environment, the temperature sensor (28) In the temperature of the measurement environment, the infrared emission switch (29) is used to control the working state of the infrared emitter (25), and the pan/tilt (43) is used to change the direction in which the signal collecting portion (2) collects the infrared signal. The rechargeable battery (22) is connected to a power switch (23) through a wire, and the power switch (23) is connected to a relay (24) through a wire, and the power switch (23) is used to control an operating state of the device, the relay (24) being respectively connected to the first processor (30), the infrared emitter (25), the microchannel plate (34), the infrared image tube (33), and the pan/tilt (43) through wires; the remote remote display portion (6) comprising a second housing (61), a second processor (62), a remote control button (63), a lens (65), a wireless transceiver (26), a display (66), and a memory (67), a second processor (62) is disposed in the second housing (61), and the second processor (62) is respectively connected to the remote control button (63), the display (66) and the memory (67) by wires, A display (66) for displaying an image transmitted by a CCD chip (31) for storing image information, the lens (65) being disposed at a side of the display (66), the remote control The button (63) is used to control the working state of the pan/tilt (43). The infrared night vision device according to claim 1, wherein the first housing (21) is provided with fixed ears (211) on both sides thereof, and the fixing ears (211) are fixedly provided with fixing straps. (213), the fixing strap (213) is for fixing the signal collecting portion (2) to the head. The infrared night vision device according to claim 1, wherein an upper portion of the first casing (21) is provided with an eyepiece barrel (212), and the eyepiece barrel (212) is provided with a rubber pad. The eyepiece barrel (212) is used to transmit images to the human eye. The infrared night vision device according to claim 1, characterized in that: the upper part of the first casing (21) is provided with a battery compartment (214), and the rechargeable battery (22) is arranged in the battery compartment (214) in. The infrared night vision device according to claim 1, wherein a bottom portion of the pan/tilt (43) is provided with a pan/tilt base (7), and a charging battery (22) is disposed in the pan/tilt base (7). And a control circuit board, the lower part of the pan head base (7) is provided with fixing nails (8) for fixing the pan/tilt head (43) to the ground. The infrared night vision device according to claim 1, wherein the optical lens (36) is provided with an anti-reflection film, and the anti-reflection film is made of calcium fluoride. The infrared night vision device according to claim 1, wherein the second casing (61) is provided with a hinge seat (611), and the hinge seat (611) is hingedly mounted on the support by a pin shaft. On the plate (612), the support plate (612) is rotatable about the pin. The infrared night vision device according to claim 1, wherein the second casing (61) is mounted with a cover body (613) through a leaflet, and the display (66) is disposed on the cover body (613). On the inside, the display (66) can be turned over to the upper portion of the second casing (61) by flipping the cover (613). The infrared night vision device according to any one of claims 1-8, characterized in that: the cover body (613) is provided with positioning teeth (614), the positioning teeth (614) and the support plate ( 612) Contact, the support plate (612) can be changed by the different positioning teeth (614) to change the flip angle of the cover (613).

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