CN114152149A

CN114152149A - Infrared concealment method for shelter

Info

Publication number: CN114152149A
Application number: CN202111319807.8A
Authority: CN
Inventors: 詹庆峰; 王瑞; 汪建; 陈兵; 陆学山; 方闯
Original assignee: Nanjing Yujie Environmental System Technology Co ltd
Current assignee: Nanjing Tengya Equipment Co ltd
Priority date: 2021-11-09
Filing date: 2021-11-09
Publication date: 2022-03-08
Anticipated expiration: 2041-11-09
Also published as: CN114152149B

Abstract

The invention relates to the technical field of infrared concealment, in particular to an infrared concealment method for a shelter; after the shelter removed to the assigned position, it is a plurality of simultaneously start first infrared detection unit surveys all around of shelter to detect the infrared radiation energy of shelter surrounding environment transmission, utilize the treater will detect the surrounding environment infrared radiation energy transmission of surrounding environment to a plurality of first infrared execution unit utilizes a plurality of first infrared execution unit changes the infrared radiation energy all around of shelter for shelter surrounding infrared radiation energy is unanimous with surrounding environment radiation energy, realizes infrared concealment, adopts above-mentioned method, effectively avoids in the traditional mode, adopts infrared stealthy coating right when the shelter is concealed, can not be according to the mounted position of shelter adapts to the problem of different environment infrared radiation energy.

Description

Infrared concealment method for shelter

Technical Field

The invention relates to the technical field of infrared concealment, in particular to an infrared concealment method for a shelter.

Background

The shelter has excellent protection performance and transportation flexibility, is widely applied to weapon systems, command centers, electronic countermeasures, field service and medical support systems in recent years, and provides guarantee for the shelter to successfully complete tasks. The infrared stealth technology is an effective technical means for battlefield infrared reconnaissance, and aims to reduce the detectable characteristic difference between a target and a background as much as possible and enable the target to be fused into the background environment as much as possible to a certain extent.

Therefore, the infrared hiding method of the shelter is a key means for protecting the shelter from being detected by infrared, but most of the existing shelter infrared hiding methods adopt infrared hiding paint to hide the shelter, cannot adapt to different environment infrared radiation energies according to the installation position of the shelter, and has poor adaptability to the environment.

Disclosure of Invention

The invention aims to provide an infrared hiding method for a shelter, and solves the problems that the existing shelter infrared hiding method in the prior art mostly adopts infrared hiding paint to hide the shelter, cannot adapt to different environment infrared radiation energy according to the installation position of the shelter, and is poor in environment adaptability.

In order to achieve the purpose, the invention provides an infrared concealing method of a shelter, which comprises the following steps:

a first infrared detection unit and a first infrared execution unit are arranged on the periphery of the shelter, and a processor is arranged in the shelter;

after the shelter moves to the designated position, simultaneously starting a plurality of first infrared detection units to detect the periphery of the shelter, thereby detecting the infrared radiation energy emitted by the surrounding environment of the shelter;

the processor is used for transmitting the detected infrared radiation energy of the surrounding environment to the plurality of first infrared execution units, and the plurality of first infrared execution units are used for changing the infrared radiation energy of the surrounding of the shelter, so that the infrared radiation energy of the surrounding of the shelter is consistent with the radiation energy of the surrounding environment, and infrared concealment is realized.

After the shelter removed to the assigned position, it is a plurality of simultaneously start first infrared detection unit surveys all around of shelter to detect the infrared radiation energy of shelter surrounding environment transmission, utilize the treater will detect the surrounding environment infrared radiation energy transmission of surrounding environment to a plurality of first infrared execution unit utilizes a plurality of first infrared execution unit changes the infrared radiation energy all around of shelter for shelter surrounding infrared radiation energy is unanimous with surrounding environment radiation energy, realizes infrared concealment, adopts above-mentioned method, effectively avoids in the traditional mode, adopts infrared stealthy coating right when the shelter is concealed, can not be according to the mounted position of shelter adapts to the problem of different environment infrared radiation energy.

The infrared concealing method of the shelter further comprises the steps that a second infrared detection unit and a second infrared execution unit are further arranged at the top of the shelter, the second infrared detection unit is started to detect the ground ring of the shelter, so that the infrared radiation energy of the ground environment of the shelter is detected, the processor is utilized to transmit the detected ground environment infrared radiation energy to the second infrared execution unit, and therefore the top infrared radiation energy of the shelter is consistent with the ground environment radiation energy.

The top of shelter sets up second infrared detection unit and the infrared execution unit of second, through the ground annular of shelter is surveyed to the infrared detection unit of second to detect the infrared radiation energy of the ground environment of shelter, utilize the treater will detect ground environment infrared radiation energy transmission extremely the infrared execution unit of second, thereby make the top infrared radiation energy of shelter unanimous with ground environment radiation energy, avoid aerial infrared detection device to detect the infrared radiation energy of the top transmission of shelter is inconsistent with environment radiation energy.

All be provided with around the shelter and firstly place the chamber, every first intracavity of placing all is provided with first infrared detection unit, every first infrared detection unit all includes jacking subassembly, mounting panel, support, first infrared detector and first apron, first bottom of placing the chamber is provided with the jacking subassembly, the output of jacking subassembly with the mounting panel is corresponding, the one end of support with the mounting panel is dismantled and is connected, the other end of support is provided with first infrared detector, first infrared detector is used for implementing the detection the infrared radiation energy of shelter surrounding environment emission, every the first tip of placing the chamber all is provided with first spout, first apron with first spout sliding connection.

The jacking assembly is started to drive the mounting plate to rise in the first placing cavity, so that the first infrared detector is separated from the first placing cavity, the infrared radiation energy emitted by the surrounding environment of the shelter is detected through the first infrared detector, and after the detection is finished, the jacking assembly is started to enable the support to be retracted after the first placing cavity is covered with the first cover plate.

Wherein, every the first inside of placing the chamber all is provided with the sliding tray, the mounting panel with sliding tray sliding connection, every the jacking subassembly all includes driving motor, eccentric bent axle and connecting rod, driving motor with the inside wall dismantlement of shelter is connected, driving motor's output is provided with eccentric bent axle, eccentric bent axle runs through the first chamber of placing, eccentric bent axle's eccentric department is provided with the connecting rod, the connecting rod is kept away from eccentric bent axle's one end with the mounting panel is corresponding.

The mounting panel with sliding tray sliding connection starts driving motor drives eccentric crankshaft rotates, through the connecting rod drives the mounting panel is in first place the intracavity and slides.

The square cabin is provided with a second placing cavity at the top, the second placing cavity is arranged inside the second infrared detection unit, the second infrared detection unit comprises a multistage electric push rod, an annular frame, a second infrared detector and a second cover plate, the mounting end of the multistage electric push rod is located inside the second placing cavity, the output end of the multistage electric push rod is provided with the annular frame, the second infrared detector is arranged on the annular frame, the end portion of the second placing cavity is provided with a second sliding groove, and the second cover plate is connected with the second sliding groove in a sliding mode.

And starting the multistage electric push rod to drive the annular frame to ascend, so that the infrared radiation energy of the ground environment around the shelter is detected through the second infrared detector, and after the detection is finished, starting the multistage electric push rod to drive the annular frame to descend, so that the second infrared detector is retracted into the second placing cavity and then covered with the second cover plate.

Wherein, every first infrared execution unit with the infrared execution unit of second all includes a plurality of first infrared curtain boards and the infrared curtain board of second, the shelter all be provided with a plurality ofly all around with the top first infrared curtain board, every first apron with all be provided with on the second apron the infrared curtain board of second, every first infrared curtain board and every the infrared curtain board of second all with treater electric connection.

When the first infrared detectors and the second infrared detectors are used for monitoring the surrounding environment of the shelter, the first infrared detection units are retracted into the first placing cavity, the second infrared detection units are retracted into the second placing cavity, the first cover plate and the second cover plate are respectively covered, the processor controls the infrared radiation energy emitted by the first infrared curtain plates and the second infrared curtain plates to be consistent with the infrared radiation energy of the detected surrounding environment, and therefore concealment is completed.

According to the infrared concealment method for the shelter, after the shelter moves to the designated position, the first infrared detection units are started to detect the periphery of the shelter at the same time, so that the infrared radiation energy emitted by the surrounding environment of the shelter is detected, the processor is used for transmitting the detected infrared radiation energy of the surrounding environment to the first infrared execution units, the first infrared execution units are used for changing the infrared radiation energy of the periphery of the shelter, the infrared radiation energy of the periphery of the shelter is consistent with the radiation energy of the surrounding environment, and infrared concealment is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of the steps of a method for infrared concealment of a shelter according to the present invention.

Fig. 2 is a schematic view of a part of the structure of the shelter provided by the invention.

Fig. 3 is an enlarged view of a portion of the structure of fig. 2 a according to the present invention.

Fig. 4 is a schematic view of a connection structure of the first infrared detection unit and the first placement chamber provided by the present invention.

Fig. 5 is a schematic structural diagram of a first infrared detection unit provided by the present invention.

Fig. 6 is an enlarged view of a portion of the structure of fig. 5 a according to the present invention.

Fig. 7 is a schematic structural diagram of a second infrared detection unit provided by the present invention.

1-square cabin, 11-first placing cavity, 12-second placing cavity, 2-first infrared detection unit, 21-jacking assembly, 211-driving motor, 212-eccentric crankshaft, 213-connecting rod, 22-mounting plate, 23-bracket, 231-frame body, 232-fixing plate, 233-turning frame, 234-turning assembly, 2341-servo motor, 2342-gear reduction box, 2343-clamping block, 2344-clamping groove, 235-mounting piece, 2351-rotating shaft, 2352-connecting rod, 2353-mounting seat, 24-first infrared detector, 25-first cover plate, 26-first sliding groove, 27-sliding groove, 3-first infrared execution unit, 31-first infrared curtain plate, 32-second infrared curtain plate, 4-processor, 5-second infrared detection unit, 51-multistage electric push rod, 52-annular frame, 53-second infrared detector, 54-second cover plate, 55-second chute and 6-second infrared execution unit.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 7, the present invention provides an infrared concealing method for a shelter 1, which comprises the following steps:

s1: a first infrared detection unit 2 and a first infrared execution unit 3 are arranged on the periphery of the shelter 1, and a processor 4 is arranged in the shelter 1;

s2: after the shelter 1 moves to a designated position, simultaneously starting a plurality of first infrared detection units 2 to detect the periphery of the shelter 1, thereby detecting the infrared radiation energy emitted by the environment around the shelter 1;

s3: the processor 4 is used for transmitting the detected infrared radiation energy of the surrounding environment to the plurality of first infrared execution units 3, and the plurality of first infrared execution units are used for changing the infrared radiation energy of the surrounding of the shelter 1, so that the infrared radiation energy of the surrounding of the shelter 1 is consistent with the radiation energy of the surrounding environment, and infrared concealment is realized.

In this embodiment, after shelter 1 removed to the assigned position, start a plurality ofly simultaneously first infrared detection unit 2 surveys shelter 1 all around to detect the infrared radiation energy of 1 surrounding environment emission of shelter, utilize processor 4 will detect the surrounding environment infrared radiation energy transmission of surrounding environment to a plurality of first infrared execution unit 3 utilizes a plurality of first infrared execution unit 3 changes the infrared radiation energy of shelter 1 all around for shelter 1 all around infrared radiation energy is unanimous with surrounding environment radiation energy, realizes infrared concealment, adopts above-mentioned method, effectively avoids in the traditional mode, adopts infrared stealthy coating to right when shelter 1 hides, can not according to the problem of the different environment infrared radiation energy of mounted position adaptation of shelter 1.

Further, the infrared concealment method for the shelter 1 further comprises the steps of arranging a second infrared detection unit 5 and a second infrared execution unit 6 at the top of the shelter 1, starting the second infrared detection unit 5 to detect the ground ring of the shelter 1, so as to detect the infrared radiation energy of the ground environment of the shelter 1, and transmitting the detected ground environment infrared radiation energy to the second infrared execution unit 6 by using the processor 4, so as to enable the top infrared radiation energy of the shelter 1 to be consistent with the ground environment radiation energy.

In this embodiment, the second infrared detection unit 5 and the second infrared execution unit 6 are arranged at the top of the shelter 1, and the second infrared detection unit 5 detects the ground ring of the shelter 1 to detect the infrared radiation energy of the ground environment of the shelter 1, and the processor 4 is utilized to transmit the detected infrared radiation energy of the ground environment to the second infrared execution unit 6, so that the infrared radiation energy at the top of the shelter 1 is consistent with the infrared radiation energy at the ground environment, and the infrared detection device in the air is prevented from detecting that the infrared radiation energy emitted from the top of the shelter 1 is inconsistent with the infrared radiation energy at the environment.

Further, first placing cavities 11 are arranged around the shelter 1, the first infrared detection units 2 are arranged in each first placing cavity 11, each first infrared detection unit 2 comprises a jacking assembly 21, a mounting plate 22, a support 23, a first infrared detector 24 and a first cover plate 25, the bottom of the first placing cavity 11 is provided with the jacking assembly 21, the output end of the jacking assembly 21 corresponds to the mounting plate 22, one end of the bracket 23 is detachably connected with the mounting plate 22, the other end of the bracket 23 is provided with the first infrared detector 24, the first infrared detector 24 is configured to detect infrared radiation energy emitted by an environment around the shelter 1, a first sliding groove 26 is formed in an end of each first placing cavity 11, and the first cover plate 25 is slidably connected to the first sliding groove 26.

In this embodiment, start jacking subassembly 21, drive mounting panel 22 is in first place the intracavity 11 and rise, thereby make first infrared detector 24 breaks away from first place the chamber 11, thereby pass through first infrared detector 24 is right the infrared radiant energy of shelter 1's surrounding environment transmission surveys, after surveying, starts jacking subassembly 21, makes support 23 withdraws first place behind the chamber 11, cover first apron 25.

Further, every the first inside of placing chamber 11 all is provided with sliding tray 27, mounting panel 22 with sliding tray 27 sliding connection, every jacking subassembly 21 all includes driving motor 211, eccentric crankshaft 212 and connecting rod 213, driving motor 211 with the inside wall of shelter 1 is dismantled and is connected, driving motor 211's output is provided with eccentric crankshaft 212, eccentric crankshaft 212 runs through first chamber 11 of placing, eccentric crankshaft 212's eccentric department is provided with connecting rod 213, connecting rod 213 keeps away from eccentric crankshaft 212's one end with mounting panel 22 is corresponding.

In this embodiment, the mounting plate 22 is slidably connected to the sliding groove 27, and the driving motor 211 is started to drive the eccentric crankshaft 212 to rotate, so as to drive the mounting plate 22 to slide in the first placing cavity 11 through the connecting rod 213.

Further, the top of shelter 1 is provided with the second and places chamber 12, the second is placed the inside in chamber 12 and is provided with the infrared detection unit 5 of second, the infrared detection unit 5 of second includes multistage electric putter 51, annular frame 52, second infrared detector 53 and second apron 54, the installation end of multistage electric putter 51 is located the inside in chamber 12 is placed to the second, the output of multistage electric putter 51 is provided with annular frame 52, be provided with on the annular frame 52 second infrared detector 53, the tip that chamber 12 was placed to the second is provided with second spout 55, second apron 54 with second spout 55 sliding connection.

In this embodiment, the multistage electric push rod 51 is started to drive the annular frame 52 to ascend, so that the second infrared detector 53 detects the infrared radiation energy of the ground environment around the shelter 1, and after the detection is finished, the multistage electric push rod 51 is started to drive the annular frame 52 to descend, so that the second infrared detector 53 is retracted to the inside of the second placing cavity 12 and then covered with the second cover plate 54.

Further, every first infrared execution unit 3 with the infrared execution unit 6 of second all includes a plurality of first infrared curtain boards 31 and the infrared curtain board 32 of second, shelter 1 all is provided with a plurality ofly all around with the top first infrared curtain board 31, every first apron 25 with all be provided with on the second apron 54 the infrared curtain board 32 of second, every first infrared curtain board 31 and every the infrared curtain board 32 of second all with treater 4 electric connection.

In this embodiment, after the plurality of first infrared detectors 24 and second infrared detectors 53 are used to monitor the surrounding environment of the shelter 1, the first infrared detection unit 2 is retracted into the first placing cavity 11, the second infrared detection unit 5 is retracted into the second placing cavity 12, the first cover plate 25 and the second cover plate 54 are respectively covered, and the processor 4 controls the infrared radiation energy emitted by the plurality of first infrared curtain plates 31 and the plurality of second infrared curtain plates 32 to be consistent with the detected infrared radiation energy of the surrounding environment, so as to complete concealment.

Further, the support 23 includes support body 231, fixed plate 232, upset frame 233, upset subassembly 234 and installed part 235, the one end of support body 231 with the mounting panel 22 is dismantled and is connected, the other end of support body 231 is provided with fixed plate 232, be provided with on the fixed plate 232 upset frame 233 with upset subassembly 234, the one end of installed part 235 with upset frame 233 swing joint, the other end of installed part 235 is provided with first infrared detector 24, the output of upset subassembly 234 with the installed part 235 is corresponding.

In this embodiment, the jacking assembly 21 is started, and after the fixing plate 232 is separated from the first placing cavity 11, the overturning assembly 234 is started to drive the mounting member 235 to rotate on the overturning frame 233, so as to adjust the detection angle of the first infrared detector 24, further enlarge the detection range of the first infrared detector 24, make the detection result more accurate, and improve the infrared hiding effect of the shelter 1.

Further, the mounting member 235 includes a rotating shaft 2351, a connecting rod 2352 and a mounting seat 2353, wherein one end of the connecting rod 2352 is fixedly connected with the rotating shaft 2351, the other end of the connecting rod 2352 is fixedly connected with the mounting seat 2353, the rotating shaft 2351 is movably connected with the turning frame 233, the mounting seat 2353 is provided with the first infrared detector 24, and the output end of the turning assembly 234 corresponds to the rotating shaft 2351.

In this embodiment, the turning assembly 234 is started to drive the rotating shaft 2351 to rotate, so that the inclination angle of the mounting seat 2353 is adjusted through the connecting rod 2352, the detection range of the first infrared detector 24 is further expanded, the rotating shaft 2351 and the mounting seat 2353 are fixedly connected with the connecting rod 2352, and are manufactured by adopting an integral forming technology, so that the structure is firmer.

Further, upset subassembly 234 includes servo motor 2341, gear reduction box 2342 and fixture block 2343, servo motor 2341 with fixed plate 232 dismantles and is connected, servo motor 2341's output is provided with gear reduction box 2342, gear reduction box 2342's output is provided with fixture block 2343, be provided with draw-in groove 2344 on the axis of rotation 2351, fixture block 2343 with draw-in groove 2344 looks adaptation.

In this embodiment, the servo motor 2341 is started, the gear reduction box 2342 is utilized to slow down the output rotating speed of the servo motor 2341, and then the rotating shaft 2351 is driven to rotate through the fixture block 2343, so that the inclination angle of the installation seat 2353 is adjusted.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. An infrared concealing method of a shelter is characterized by comprising the following steps:

2. The method of infrared concealment of a shelter as claimed in claim 1,

the infrared concealing method of the shelter further comprises the step of arranging a second infrared detection unit and a second infrared execution unit at the top of the shelter, starting the second infrared detection unit to detect the ground ring of the shelter, so as to detect the infrared radiation energy of the ground environment of the shelter, and transmitting the detected ground environment infrared radiation energy to the second infrared execution unit by utilizing the processor, so as to enable the top infrared radiation energy of the shelter to be consistent with the ground environment radiation energy.

3. The method of infrared concealment of a shelter as claimed in claim 2,

all be provided with around the shelter and firstly place the chamber, every first intracavity of placing all is provided with first infrared detection unit, every first infrared detection unit all includes jacking subassembly, mounting panel, support, first infrared detector and first apron, first bottom of placing the chamber is provided with the jacking subassembly, the output of jacking subassembly with the mounting panel is corresponding, the one end of support with the mounting panel is dismantled and is connected, the other end of support is provided with first infrared detector, first infrared detector is used for implementing the detection the infrared radiation energy of shelter environmental emission all around, every the first tip of placing the chamber all is provided with first spout, first apron with first spout sliding connection.

4. The method of infrared concealment of a shelter as claimed in claim 3,

every the first inside of placing the chamber all is provided with the sliding tray, the mounting panel with sliding tray sliding connection, every the jacking subassembly all includes driving motor, eccentric bent axle and connecting rod, driving motor with the inside wall dismantlement of shelter is connected, driving motor's output is provided with eccentric bent axle, eccentric bent axle runs through first placing the chamber, eccentric bent axle's eccentric department is provided with the connecting rod, the connecting rod is kept away from eccentric bent axle's one end with the mounting panel is corresponding.

5. The method of infrared concealment of a shelter as claimed in claim 4,

the top of shelter is provided with the second and places the chamber, the second is placed the inside in chamber and is provided with the infrared detection unit of second, the infrared detection unit of second includes multistage electric putter, annular frame, second infrared detector and second apron, multistage electric putter's installation end is located the inside in chamber is placed to the second, multistage electric putter's output is provided with the annular frame, be provided with on the annular frame second infrared detector, the tip that the chamber was placed to the second is provided with the second spout, the second apron with second spout sliding connection.

6. The method of infrared concealment of a shelter as claimed in claim 5,

every first infrared execution unit with the infrared execution unit of second all includes a plurality of first infrared curtain boards and the infrared curtain board of second, the shelter all be provided with a plurality ofly all around with the top first infrared curtain board, every first apron with all be provided with on the second apron the infrared curtain board of second, every first infrared curtain board and every the infrared curtain board of second all with treater electric connection.