阅读说明：本技术 一种便于压缩收纳的装甲车用电子迷彩伪装布 (Fake dress cloth of electronic camouflage for armoured vehicle convenient to compression is accomodate ) 是由 陈晓侨 于 2021-08-04 设计创作，主要内容包括：本发明公开了一种便于压缩收纳的装甲车用电子迷彩伪装布,属于电子迷彩伪装布领域,本方案在待命阶段时,利用三维螺旋纤维形成的三维空间结构对发光光纤进行保护,使得发光光纤不易被外物撞击损坏或者被污物污染,不易影响后续正常使用,在使用阶段时,则通过静电将保护纤维簇变成竖直状态,将发光的发光光纤漏出,通过保护纤维簇和发光光纤的配合实现伪装效果,同时可以通过对迷彩涂料色彩的合理选择,大幅增加本方案的伪装效果,最后,在被敌方锁定时,可以通过静电中和,使得三维螺旋纤维恢复三维螺旋状,重新对发光光纤进行遮挡,隔断敌方的热源锁定,及时进行避险,可以进行自适应调节,不易影响其隐蔽效果。(The invention discloses an armored vehicle electronic camouflage pseudo-cloth convenient for compression and storage, which belongs to the field of electronic camouflage pseudo-cloth, the scheme utilizes a three-dimensional space structure formed by three-dimensional spiral fibers to protect luminescent fibers during standby stage, so that the luminescent fibers are not easy to be damaged by foreign objects or polluted by dirt, the subsequent normal use is not easy to be influenced, during use stage, a protective fiber cluster is changed into a vertical state through static electricity, the luminescent fibers are leaked out, the camouflage effect is realized through the cooperation of the protective fiber cluster and the luminescent fibers, meanwhile, the color of camouflage paint can be reasonably selected, the effect of the scheme is greatly increased, finally, when being locked by an enemy, the three-dimensional spiral fibers can restore to a three-dimensional spiral shape through static neutralization, the luminescent fibers are shielded again, and the heat source locking of the enemy is blocked, the danger is avoided in time, self-adaptive adjustment can be carried out, and the hidden effect is not easily influenced.)

1. The utility model provides a pseudo-dress cloth of electronic camouflage for armoured car convenient to compression is accomodate, includes a plurality of stereoplasm offset plates (1), its characterized in that: adjacent fixedly connected with flexonics offset plate (2) between stereoplasm offset plate (1), the equal fixedly connected with electron fabric (3) in upper end of stereoplasm offset plate (1) and flexonics offset plate (2), electron fabric (3) are including camouflage net (301) and static net (302) two, camouflage net (301) is the network structure of staggered distribution, and static net (302) is then parallel horizontal line, fixedly connected with electronic camouflage fake decoration portion (4) on electron fabric (3), electronic camouflage fake decoration portion (4) is including protection fibre cluster (41) and luminous optic fibre (42) two, luminous optic fibre (42) fixed connection is on the nodical of camouflage net (301), protection fibre cluster (41) fixed connection is on electron fabric (3), protection fibre cluster (41) is including three-dimensional spiral fibre (411), three-dimensional spiral fibre (411) are three-dimensional heliciform, the adjacent three-dimensional spiral fibers (411) are staggered to form a three-dimensional space structure, and the light-emitting optical fiber (42) is wrapped inside the protection fiber cluster (41).

2. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 1, wherein: flexible connection offset plate (2) are including elastic rubber (201), it has filling chamber (202) to open the chisel in elastic rubber (201), increases the elasticity of flexible connection offset plate (2), conveniently compresses the pseudo-dress cloth of electron camouflage and accomodates.

3. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 2, wherein: the packing cavity (202) is filled with a plurality of packing balls (204), and the packing balls (204) account for two thirds of the volume of the packing cavity (202), so that the overall deformation capacity of the flexible connection rubber plate (2) is reduced, and the flexible connection rubber plate (2) is not easy to excessively deform and break.

4. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 3, wherein: the outer side of the filling ball (204) is fixedly connected with a plurality of entangled fiber clusters (205), the entangled fiber clusters (205) are adjacent to each other, the capability of keeping the entangled fiber clusters (205) at relative positions is increased, and the phenomenon that the flexible connection rubber plate (2) is bent due to the fact that the entangled fiber clusters (205) are locally concentrated is not easy to occur.

5. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 4, wherein: fixedly connected with strengthens net (203) on the inner wall of packing chamber (202), the one end and the strengthening net (203) fixed connection of entangling fibre cluster (205) increase the intensity of flexonics offset plate (2) for flexonics offset plate (2) are difficult for tearing.

6. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 1, wherein: an elastic cavity (412) is drilled in the three-dimensional spiral fiber (411), the diameter of the elastic cavity (412) is smaller than one third of the diameter of the three-dimensional spiral fiber (411), and the elasticity of the three-dimensional spiral fiber (411) is improved on the premise that the overall strength of the three-dimensional spiral fiber (411) is not affected.

7. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 1, wherein: the outer side of the three-dimensional spiral fiber (411) is coated with camouflage paint (414), and the color depth of the camouflage paint (414) is uniformly changed, so that an auxiliary camouflage effect is provided.

8. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 7, wherein: the camouflage paint (414) is made of hydrophobic materials, so that subsequent cleaning is facilitated.

9. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 1, wherein: the one end fixed connection of three-dimensional helical fiber (411) is on static electric wire netting (302), the balancing weight (413) is installed to the one end that three-dimensional helical fiber (411) kept away from static electric wire netting (302) is inlayed, and is a plurality of the weight of balancing weight (413) is not identical, realizes different supplementary camouflage effect through the cooperation with static electric wire netting (302).

10. The electronic camouflage clothing for armored vehicles for convenient compression storage according to claim 1, wherein: both positive and negative static electricity can be accumulated on the static electricity network (302).

Technical Field

The invention relates to the field of electronic camouflage fake cloth, in particular to electronic camouflage fake cloth convenient to compress and store for an armored vehicle.

Background

The camouflage painting is a camouflage method for changing the color of a target, a barrier or a background by using paint, dye and other materials according to certain requirements, at present, the most important camouflage painting is digital camouflage painting, which is also called digital camouflage painting or digital camouflage painting and is a novel camouflage clothing consisting of pixels. The new pattern can adapt to the concealing requirements under various environmental backgrounds by utilizing the visual psychology principle, and is mainly designed for jungles, deserts, urban areas and anti-interference night vision equipment. Different from the smooth edge of the traditional camouflage, the digital camouflage is disordered and has better concealment performance than the traditional camouflage. Under the infrared detection and night vision goggles, the digital camouflage has greater concealment advantages than the traditional camouflage.

In the Chinese invention with the application number of ' CN202110071716.0 ', an electronic fabric with a display function and a preparation method thereof are disclosed, which comprises ' warp direction electrogenerated display fibers and weft direction transparent conductive fibers; the warp-direction electroluminescent display fiber sequentially comprises a flexible conductive fiber, an electroluminescent display active layer and a resin protective layer from inside to outside; the preparation method comprises the following steps: loading a display active material on the surface of the flexible conductive fiber to obtain an electric display fiber; dip-coating a transparent insulating packaging layer outside the electroluminescent display fiber; weaving a plurality of insulated electro-display fibers as warps and transparent conductive fibers as wefts in a plain weaving manner to obtain the electronic fabric with the display function; through the design of the control circuit, the matrix display of the fabric under a specific mode is realized. The brightness of the pixel point can reach 200-; the fabric has excellent flexibility and air permeability and remains stable after 1000 bends.

Present camouflage is mostly prefabricated digital camouflage of accomplishing, according to the difference of operation environment, choose for use the camouflage of different shape systems can, but need carry out the pre-configuration supply, and after the operation environment changes, the hidden effect variation of original digital camouflage is very easily influenced normal operation when the logistics transportation supply is not timely enough.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide the electronic camouflage fake cloth for the armored vehicle, which is convenient to compress and store.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

An electronic camouflage fake cloth for armored vehicles convenient to compress and store is additionally provided with an electronic fabric technology on the basis of the existing camouflage technology, and comprises a plurality of hard rubber plates, flexible connecting rubber plates are fixedly connected between adjacent hard rubber plates, electronic fabrics are fixedly connected to the upper ends of the hard rubber plates and the flexible connecting rubber plates, each electronic fabric comprises a camouflage net and a static net, the camouflage net is of a staggered net-shaped structure, the static nets are parallel transverse lines, the electronic camouflage fake parts are fixedly connected to the electronic fabrics, each electronic camouflage fake part comprises a protective fiber cluster and a luminous fiber, the luminous fibers are fixedly connected to the intersection points of the camouflage net, the protective fiber cluster is fixedly connected to the electronic fabrics, each protective fiber cluster comprises three-dimensional spiral fibers, the three-dimensional spiral fibers are in a three-dimensional spiral shape, and the adjacent three-dimensional spiral fibers are staggered to form a three-dimensional space structure, the protection fiber cluster is used for coating the light-emitting optical fiber inside the protection fiber cluster, and when the fighting environment is changed, the self-adaptive adjustment can be carried out, so that the hiding effect is not easily influenced.

Furthermore, the flexible connection rubber plate comprises elastic rubber, a filling cavity is formed in the elastic rubber in a chiseled mode, the elasticity of the flexible connection rubber plate is increased, the electronic camouflage fake cloth can be conveniently compressed and stored, a plurality of filling balls are filled in the filling cavity, the filling balls account for two thirds of the volume of the filling cavity, the overall deformation capacity of the flexible connection rubber plate is reduced, make the flexible connection offset plate be difficult for taking place excessive deformation and fracture, a plurality of entanglement fiber cluster of outside fixedly connected with of packing ball, adjacent entanglement between the fiber cluster entangle each other, increase entanglement fiber cluster and keep the ability of relative position, be difficult for taking place entanglement fiber cluster local concentrated and influence the crooked phenomenon of flexible connection offset plate, fixedly connected with strengthens the net on the inner wall of filling the chamber, entanglement fiber cluster's one end and strengthening net fixed connection, increase the intensity of flexible connection offset plate, make the flexible connection offset plate be difficult for tearing.

Furthermore, the outer side of the three-dimensional spiral fiber is coated with the camouflage paint, the color depth of the camouflage paint is uniformly changed, an auxiliary camouflage effect is provided, and the camouflage paint is made of hydrophobic materials, so that subsequent cleaning is facilitated.

Further, three-dimensional spiral fiber's one end fixed connection is on the static net, and the balancing weight is installed to the one end that three-dimensional spiral fiber kept away from the static net is inlayed, and the weight of a plurality of balancing weights is not completely unanimous, through the supplementary camouflage effect of difference of cooperation realization with the static net.

Further, both positive and negative static electricity can be accumulated on the electrostatic net.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

according to the scheme, the light-emitting optical fiber is protected by the three-dimensional space structure formed by the three-dimensional spiral fiber in the standby stage, so that the light-emitting optical fiber is not easily damaged by impact of foreign objects or polluted by dirt, and the subsequent normal use is not easily influenced.

When the camouflage painting is used, the protection fiber cluster is changed into a vertical state through static electricity, the luminous optical fibers are leaked, the camouflage effect is achieved through the cooperation of the protection fiber cluster and the luminous optical fibers, and meanwhile the camouflage effect of the scheme is greatly improved through reasonable selection of colors of camouflage painting.

Finally, when being locked by the enemy, can be through static neutralization for three-dimensional heliciform is resumeed to three-dimensional spiral fiber, shelters from luminous optic fibre again, cuts off enemy's heat source locking, in time keeps away the danger, compares present traditional camouflage color this design and can adapt to different combat environment more, when combat environment changes, can carry out self-adaptation regulation, is difficult for influencing its hidden effect.

Drawings

FIG. 1 is a schematic view of a compressed storage structure of the electronic camouflage fake clothing of the present invention;

FIG. 2 is a schematic view of the electronic camouflage clothing according to the present invention in an expanded configuration;

FIG. 3 is a schematic view of the electronic camouflage cloth according to the present invention when compressed and stored;

FIG. 4 is a schematic view of a partial cross-sectional structure of the flexible connecting rubber sheet of the present invention;

FIG. 5 is a schematic view of the structure at A in FIG. 4;

FIG. 6 is a schematic structural view of the change of the working state of the electronic camouflage fake cloth according to the present invention;

FIG. 7 is a partial schematic view of the electronic camouflage in accordance with the present invention during standby;

FIG. 8 is a partial schematic view of the electronic camouflage masking of the present invention being camouflaged;

FIG. 9 is a schematic view of a partial structure of an attachment base web of the present invention;

FIG. 10 is a schematic structural view of a protective fiber of the present invention;

fig. 11 is a schematic cross-sectional view of a protective fiber of the present invention.

The reference numbers in the figures illustrate:

1 hard rubber plate, 2 flexible connecting rubber plate, 201 elastic rubber, 202 filling cavity, 203 reinforcing mesh, 204 filling ball, 205 entangled fiber cluster, 3 electronic fabric, 301 camouflage mesh, 302 static mesh, 4 electronic camouflage part, 41 protective fiber cluster, 411 three-dimensional spiral fiber, 412 elastic cavity, 413 counterweight block, 414 camouflage paint and 42 luminous optical fiber.

Detailed Description

In this embodiment 1, the technical solution will be clearly and completely described in conjunction with the disclosed drawings, so that the purpose, technical solution and beneficial effects of the embodiments of the present disclosure will be more clear. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" and similar words are intended to mean that the elements or items listed before the word cover the elements or items listed after the word and their equivalents, without excluding other elements or items. "upper", "lower", "inside", "outside", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Example (b):

referring to fig. 1-5, when the electronic camouflage fake cloth needs to be compressed and stored, only the electronic camouflage fake cloth needs to be folded along the direction of the flexible connection rubber plate 2, and one surface of the hard rubber plate 1 away from the flexible connection rubber plate 2 faces outward, so that the light-emitting optical fiber 42 is not easily damaged under the protection of the hard rubber plate 1 and the protection fiber cluster 41 after the compression and storage are completed.

The camouflage net 301 comprises a net structure formed by weaving a plurality of insulated electro-display fibers as warps and transparent conductive fibers as wefts.

Referring to fig. 6-11, a working principle of the electronic camouflage fake cloth mainly includes:

in the standby stage, the three-dimensional spiral fibers 411 are kept in a three-dimensional spiral state, and the adjacent three-dimensional spiral fibers 411 are erected to form a three-dimensional space structure to protect the light-emitting optical fiber 42, so that the light-emitting optical fiber 42 is not easily damaged by impact of foreign objects or polluted by dirt, and the subsequent normal use is not easily influenced;

in the use stage, the static grid 302 is electrified, so that negative ions are distributed on the static grid 302, meanwhile, the negative ions are conducted onto the protective fiber cluster 41, the protective fiber cluster 41 is changed into a vertical state under the action of static electricity, the light-emitting optical fiber 42 appears in the gap of the protective fiber cluster 41, the color displayed on the camouflage net 301 can be guided out, the emission point of the color is moved to one end, far away from the electronic fabric 3, of the light-emitting optical fiber 42, the position of the light-emitting point is close to one end, far away from the electronic fabric 3, of the protective fiber cluster 41, the light-emitting point is not easily shielded by the electronic camouflage fake part 4, and the camouflage effect is easily achieved;

specifically, the specific selection of the color of the camouflage paint 414 outside the protective fiber cluster 41 is performed by those skilled in the art to cope with different use environments, and the amount of the static electricity accumulated on the light-emitting optical fiber 42 can be controlled by controlling the magnitude of the current on the static electricity grid 302, so that the electrostatic force generated by the static electricity is different, and the protective fiber cluster 41 can be erected in batches to achieve different camouflage effects under the action of the weight 413, and the current control is a known technique of those skilled in the art, and therefore is not disclosed in detail in the present application, and those skilled in the art can select a suitable control method according to actual needs.

In addition, the electronic camouflage color fake clothing of the scheme is placed on the outer side of the armored vehicle, the colors of the surrounding environment and the electronic camouflage color fake clothing can be compared by carrying a video recording system on the armored vehicle, the current of the static grid 302 is regulated and controlled, and the camouflage effect is improved.

When the armored car is locked by an enemy and the locking target is a heat source formed by the light emission of the light-emitting optical fiber 42, the electrostatic net 302 can be electrified reversely, so that the static electricity on the protection fiber cluster 41 is neutralized, the protection fiber cluster 41 recovers a three-dimensional spiral shape, the light-emitting optical fiber 42 is covered, the heat source generated by the light emission of the light-emitting optical fiber 42 is cut off, the enemy is locked to lose the target, and the danger can be avoided in time.

In the scheme, the three-dimensional space structure formed by the three-dimensional spiral fiber 411 is utilized to protect the luminous fiber 42 in the standby stage, so that the luminous fiber 42 is not easy to be damaged by impact of foreign objects or polluted by dirt, the subsequent normal use is not easy to be influenced, in the use stage, the protective fiber cluster 41 is changed into a vertical state through static electricity, the luminous fiber 42 leaks out, the camouflage effect is realized through the matching of the protective fiber cluster 41 and the luminous fiber 42, meanwhile, the camouflage effect is greatly increased through reasonable color selection of the camouflage paint 414, finally, when being locked by an enemy, the three-dimensional spiral fiber 411 can recover a three-dimensional spiral shape through static neutralization, the luminous fiber 42 is shielded again, the heat source locking of the enemy is cut off, and danger is avoided in time, compared with the traditional camouflage design, the scheme can be more suitable for different combat environments, when the combat environment is changed, self-adaptive adjustment can be carried out, and the hiding effect is not easily influenced.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.