CN110428928B - Cable device convenient for video monitoring line wiring and use method thereof - Google Patents

Abstract

The invention discloses a cable device convenient for video monitoring circuit wiring and a using method thereof, belonging to the field of weak current wiring engineering, the cable device convenient for video monitoring circuit wiring comprises an outer heat-conducting layer, four shunt video monitoring circuits are arranged in the outer heat-conducting layer, the outer ends of the shunt video monitoring circuits are sleeved with insulating heat-insulating layers which are attached to the inner wall of the outer heat-conducting layer, the shunt video monitoring circuits are connected with the inner wall of the outer heat-conducting layer in a sliding way through the insulating heat-insulating layers, the outer layer of the outer heat-conducting layer is sleeved with a self-heating deformation layer, so that when the video monitoring cable is installed, the inner side-by-side circuits can deform according to the shape of a wall surface, and can be randomly shaped after deformation, the attaching effect with the wall surface is enhanced, the fixing mode is changed, and the damage of the video monitoring circuits to the wall surface, and the wiring mode and the fixing position can be adjusted at will according to the needs of users.

Description

Cable device convenient for video monitoring line wiring and use method thereof

Technical Field

The invention relates to the field of weak current wiring engineering, in particular to a cable device convenient for wiring of a video monitoring circuit and a using method thereof.

Background

The video monitoring line belongs to a part of a weak current line, and the weak current line mainly aims at buildings including buildings, communities, airports, docks, railways, highways and the like in the weak current intelligent process. Common weak electrical system operating voltages include: 24VAC, 16.5VAC, 12VDC, and sometimes 220VAC, are also weak electric systems, intelligent systems, classified as six systems according to the national design Specification "building Intelligent design Standard" (GB 50314-2015): the intelligent integrated system, the information facility system, the informatization application system, the building equipment management system, the public safety system and the machine room project. In recent years, with the continuous temperature rise of the real estate market and the surge of science and technology, the weak current intellectualization is generally known and greatly developed, the market scale is continuously strong, the number of workers is continuously increased, the product types are greatly updated, the performance index is continuously increased, and a professional market with a very large scale is formed.

The existing weak electric line wiring generally has two modes, one mode is to dig a wiring groove in the wall, firstly the weak electric line penetrates into the PVC pipe and is embedded into the wiring groove, then the wall is repaired, and the weak electric line is wired by penetrating the wiring groove, although the mode can not leave marks on the outer side of the wall after installation, and the line is not easily influenced by the outside after installation, the installation process is more complicated, the wall needs to be damaged, and when the weak electric line is replaced or repaired, the construction content is more, the operation of workers is not convenient, one mode is to fix the network cable on the outer side of the wall by an external fixing device, the mode has less damage to the wall, but because the fixing device is more, the fixing device has certain requirements on the fixed wall surface, and the fixing effect is not high, and simultaneously, if the line needs to be repaired or replaced, the original fixing device needs to be completely removed, the construction process is also complex, and is not conducive to adjustment by a user as required.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a cable device convenient for video monitoring circuit wiring and a using method thereof, which can realize that when a video monitoring cable is installed, the internal parallel circuits deform according to the shape of a wall surface, and can be randomly shaped after deformation, so that the attaching effect with the wall surface is enhanced, the fixing mode is changed, the damage of the video monitoring circuit wiring to the wall body in the installation process of the video monitoring circuit is reduced, and the wiring mode and the fixing position can be randomly adjusted according to the needs of a user.

2. Technical scheme

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

A cable device convenient for video monitoring line wiring and a use method thereof comprise an outer heat conduction layer, wherein four shunt video monitoring lines are arranged in the outer heat conduction layer, an insulating heat insulation layer is sleeved at the outer end of each shunt video monitoring line, the insulating heat insulation layer is attached to the inner wall of the outer heat conduction layer, the shunt video monitoring lines are in sliding connection with the inner wall of the outer heat conduction layer through the insulating heat insulation layer, a self-heating deformation layer is sleeved at the outer layer of the outer heat conduction layer, an outer fixing fiber wool layer is sleeved at the outer layer of the self-heating deformation layer, the inner side of the outer fixing fiber wool layer is fixedly connected with the outer end of the self-heating deformation layer, a plurality of polymerization setting framework pipes are arranged between the outer heat conduction layer and the self-heating deformation layer, the video monitoring cables can be intensively arranged when being installed, the inner side-by-side lines, and can finalize the design wantonly after the deformation, strengthen the laminating effect with the wall, and change fixed mode, reduce the video monitoring circuit installation in-process, the video monitoring circuit walks the destruction of line to the wall body, and can adjust line mode and fixed position wantonly according to user's needs.

Furthermore, from hot particle layer and memory alloy strip including heating, both ends respectively about the memory alloy strip with both ends fixed connection about the memory alloy strip, the memory alloy strip is the bending form, and the memory alloy strip material is the phase change alloy material, and convenient to use person adjusts the video monitoring circuit as required wantonly and fixes.

Further, from the thermal-base particle layer including flexible deformation adventitia, the positive granule of sodium acetate and aluminium metal negative pole granule all are located the flexible deformation adventitia inboard, the positive granule intussuseption of sodium acetate is filled with roast diatomaceous earth and iron powder, the aluminium metal negative pole granule intussuseption is filled with coke powder and micro-diameter salt granule, the positive granule of sodium acetate and aluminium metal negative pole granule arrange at the flexible deformation adventitia is intensive, and positive granule of sodium acetate and aluminium metal negative pole granule are vertical stage nature distribution in the flexible deformation adventitia, the vertical fixedly connected with segmentation gelatinization baffle of going up in the flexible deformation adventitia, convenient to use person adjusts the video monitoring line as required wantonly and fixes.

Further, outer fixed cilium layer outer end fixedly connected with a plurality of heat conduction poles of dredging, it arranges on outer fixed fine hair layer closely to dredge heat conduction pole, dredge many rigid heat conduction seta of fixedly connected with on the heat conduction pole, rigid heat conduction seta is kept away from and is dredged many curved fine hair silks of heat conduction pole one end fixedly connected with, curved fine hair silk is arranged on rigid heat conduction seta closely, and the outer fixed fine hair layer outer end of being convenient for is fixed with the absorption of wall body, and then promotes the fixed effect of installation of cable.

Furthermore, a plurality of differential filament branches are additionally arranged on the curved fiber wool, so that the outer end of the external fixed fiber wool layer is conveniently adsorbed and fixed on a wall body, and the installation and fixation effects of the cable are further improved.

Further, it has micro molecule aerogel to cover the heat conduction intralamellar facies intussuseption outward, micro molecule aerogel main component is viscose and micro molecule polymer, micro molecule aerogel forms through micro molecule polymer and viscose liquid chemical combination, reduces the influence of external impact to branch road video monitoring circuit and insulating temperature insulating layer, and micro molecule aerogel deformable under slow pressure, and the reinforcing covers the laminating effect of heat conduction layer and outer wall irregularity department outward.

Furthermore, elastic nanofluid is filled between the outer heat conduction layer and the self-heating deformation layer, the elastic nanofluid is tightly attached to the polymer shaping framework pipe between the outer heat conduction layer and the self-heating deformation layer, the polymer shaping framework pipe is wrapped by the elastic nanofluid on the outer side, and the elastic nanofluid forms a protective layer on the outer side of the self-heating deformation layer, so that the influence of impact on the polymer shaping framework pipe is reduced.

Further, outer smooth layer of exerting pressure is equipped with from the thermal deformation layer outer end, outer smooth layer of exerting pressure inner is fixed with laminating from the thermal deformation layer outer end, both ends are fixed connection about outer smooth layer of exerting pressure about both ends respectively with outer fixed cilium layer, are convenient for change the intraformational structural configuration that exerts pressure smoothly outward, accomplish the structural change of wiring repacking in-process.

Furthermore, the main component of the outer smooth pressing layer is butyrolactone polymer material, the outer layer of the outer smooth pressing layer is of a smooth structure, a gel felt plate is filled in the outer smooth pressing layer and is uniformly mixed with the butyrolactone polymer material, glass fiber cotton is mixed in the gel felt plate, the butyrolactone polymer material is convenient for degradation and recovery of the outer smooth pressing layer, and the gel felt plate is convenient for the outer smooth pressing layer to have a temperature insulation effect.

A cable device convenient for wiring of a video monitoring line is provided, and the using method comprises the following steps:

the method comprises the following steps: the user attaches the external fixing fiber batt layer to the wall surface, presses the external smooth pressing layer by using the flat plate, and slowly moves from one end of the video monitoring cable to the other end;

step two: in the process of pressing the flat plate, the heat-dispersing conducting rods, the hard heat-conducting bristles and the curved fiber wool filaments at the outer ends of the outer fixing fiber wool layers are in contact with the wall body and are tightly adsorbed, meanwhile, the four shunt video monitoring circuits inside are deformed under pressure, the deformed state is fit with the wall body and is attached to the outer side of the wall body, and the installation of the video monitoring cables is completed;

step three: when wiring adjustment is needed, a user uses a flat plate to press on an external smooth pressing layer and slowly and repeatedly moves, so that a heat-dispersing conducting rod and hard heat-conducting bristles on an external fixed cilium layer fall off from a wall body, a shunt video monitoring circuit in the external heat-conducting layer is restored to a normal state, the cable is taken down from the outer side of the wall body, then the video monitoring cable is installed at a new position again according to the step one and the step two, the video monitoring cable can be installed, the internal side-by-side circuit deforms according to the shape of the wall surface, and can be randomly shaped after deforming, the laminating effect of the video monitoring cable and the wall surface is enhanced, the fixing mode is changed, the damage of the video monitoring circuit to the wall body is reduced, and the wiring mode and the fixing position can be randomly adjusted according to the needs of the user.

3. Advantageous effects

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

(1) the scheme can realize that when the video monitoring cable is installed, the internal side-by-side circuit deforms according to the shape of the wall surface, and can be shaped at will after deformation, the laminating effect with the wall surface is enhanced, the fixing mode is changed, the damage of the video monitoring circuit to the wall body in the installation process is reduced, the wiring mode and the fixing position can be adjusted at will according to the needs of a user, the self-heating base particle layer comprises a flexible deformation outer film, sodium acetate positive electrode particles and aluminum metal negative electrode particles, the sodium acetate positive electrode particles and the aluminum metal negative electrode particles are positioned on the inner side of the flexible deformation outer film, baked diatomite and iron powder are filled in the sodium acetate positive electrode particles, coke powder and micro-diameter salt particles are filled in the aluminum metal negative electrode particles, the sodium acetate positive electrode particles and the aluminum metal negative electrode particles are densely distributed in the flexible deformation outer film, and are longitudinally distributed in a staged manner in the flexible deformation outer film, the segmented gel partition plates are fixedly connected in the flexible deformation outer membrane in the longitudinal direction, so that a user can conveniently and randomly adjust and fix the video monitoring circuit according to needs.

(2) The self-heating deformation layer comprises a self-heating base particle layer and a memory alloy strip, the left end and the right end of the memory alloy strip are fixedly connected with the left end and the right end of the memory alloy strip respectively, the memory alloy strip is bent, the memory alloy strip is made of a phase change alloy material, and a user can conveniently adjust and fix the video monitoring circuit randomly according to needs.

(3) Outer fixed cilium layer outer end fixedly connected with has a plurality of heat conduction poles of dredging, dredge heat conduction pole arrange on outer fixed fine hair layer is intensive, dredge many rigid heat conduction seta of fixedly connected with on the heat conduction pole, rigid heat conduction seta is kept away from and is dredged many curved fine hairwires of heat conduction pole one end fixedly connected with, curved fine hairwire arranges on rigid heat conduction seta is intensive, the outer fixed fine hair layer outer end of being convenient for is fixed with the absorption of wall body, and then promotes the fixed effect of installation of cable.

(4) The curved fiber wool is added with a plurality of branches of differential fine filaments, so that the outer end of the external fixed fiber wool layer is conveniently fixed with the wall body in an adsorption manner, and the installation and fixation effects of the cable are further improved.

(5) The heat conduction in situ that covers outward is filled with micro molecule aerogel, and micro molecule aerogel main component is viscose liquid and micro molecule polymer, and micro molecule aerogel passes through micro molecule polymer and viscose liquid chemical combination and forms, reduces the influence of external impact to branch road video monitoring circuit and insulating heat insulation layer, and micro molecule aerogel deformable under slow pressure, strengthens the laminating effect of the irregular department of heat conduction layer and outer wall of covering.

(6) Elastic nanometer fluid is filled between the outer heat conduction layer and the self-heating deformation layer, the elastic nanometer fluid is tightly attached to the polymerization shaping framework pipe between the outer heat conduction layer and the self-heating deformation layer, the elastic nanometer fluid wraps the polymerization shaping framework pipe on the outer side, and the elastic nanometer fluid forms a protective layer on the outer side of the self-heating deformation layer, so that the influence of impact on the polymerization shaping framework pipe is reduced.

(7) The self-heating deformation layer outer end is equipped with outer smooth layer of exerting pressure, and outer smooth layer of exerting pressure inner is fixed with the laminating of self-heating deformation layer outer end, and both ends are fixed connection about outer smooth layer of exerting pressure about both ends respectively with outer fixed cilium layer, are convenient for change the intraformational structural configuration that exerts pressure in the outer smooth layer of exerting pressure, accomplish the structural change of wiring repacking in-process.

(8) The outer smooth pressure layer is mainly composed of butyrolactone polymer materials, the outer layer of the outer smooth pressure layer is of a smooth structure, a gel felt plate is filled in the outer smooth pressure layer and is uniformly mixed with the butyrolactone polymer materials, glass fiber cotton is mixed in the gel felt plate, the butyrolactone polymer materials are convenient for degradation and recovery of the outer smooth pressure layer, and the gel felt plate is convenient for enabling the outer smooth pressure layer to have a temperature insulation effect.

Drawings

FIG. 1 is a cross-sectional view of the present invention in a normal state;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a cross-sectional view of the present invention in a deformed state;

figure 4 is a schematic view of the structure of the fitted cilia portion of the present invention;

FIG. 5 is a schematic view of the structure of the self-heating layer part according to the present invention.

The reference numbers in the figures illustrate:

the device comprises an outer heat conduction layer 1, a shunt video monitoring circuit 2, an insulating and heat insulation layer 3, a self-heating deformation layer 4, a polymer shaping framework tube 5, elastic nanofluid 6, an outer fixed fiber layer 7, an outer smooth pressing layer 8, a heat-dispersing conduction rod 9, hard heat conduction bristles 10, curved fiber wool filaments 11, a flexible deformation outer membrane 12, sodium acetate positive electrode particles 13, aluminum metal negative electrode particles 14, a self-heating matrix particle layer 15 and memory alloy strips 16.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise specifically stated or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are used in a broad sense, and for example, "connected" may be a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements.

Example 1:

referring to fig. 1-5, a cable device for facilitating the wiring of video monitoring lines and a method for using the same, comprising an outer heat conducting layer 1, four shunt video monitoring lines 2 arranged in the outer heat conducting layer 1, an insulating thermal insulation layer 3 covering the outer ends of the shunt video monitoring lines 2, the insulating thermal insulation layer 3 being attached to the inner wall of the outer heat conducting layer 1, the shunt video monitoring lines 2 being slidably connected to the inner wall of the outer heat conducting layer 1 through the insulating thermal insulation layer 3, a self-heating deformation layer 4 covering the outer layer of the outer heat conducting layer 1, an outer fixing fiber layer 7 covering the outer layer of the self-heating deformation layer 4, the inner side of the outer fixing fiber layer 7 being fixedly connected to the outer end of the self-heating deformation layer 4, a plurality of polymer-shaped skeleton tubes 5 being arranged between the outer heat conducting layer 1 and the self-heating deformation layer 4, the polymer-shaped skeleton tubes 5 being densely arranged between the, the inside line side by side warp according to the wall shape, and can stereotype wantonly after warping, strengthens the laminating effect with the wall, and changes fixed mode, reduces the video monitoring circuit installation in-process, and the video monitoring circuit walks the destruction to the wall body, and can adjust wantonly according to user's needs and walk line mode and fixed position.

Referring to fig. 2, the self-heating deformation layer 4 includes a self-heating base grain layer 15 and a memory alloy strip 16, the left and right ends of the memory alloy strip 16 are respectively and fixedly connected to the left and right ends of the memory alloy strip 16, the memory alloy strip 16 is curved, the memory alloy strip 16 is made of a phase change alloy material, after the self-heating base grain layer 15 is pressed and deformed, the internal particles react to generate heat, the memory alloy strip 16 is fixedly connected to the self-heating base grain layer 15, and after the heat is conducted to the memory alloy strip 16, the memory alloy strip 16 is deformed, so that the external fixing fiber layer 7 fixedly connected to the memory alloy strip 16 on the outer layer is deformed to be curved, and the close fit state of the external fixing fiber layer 7 to the wall surface is changed, so that the video monitoring circuit is separated from the wall body, and a user can conveniently and arbitrarily adjust and fix the video monitoring circuit according to needs.

Referring to fig. 5, the self-heating substrate particle layer 15 includes a flexible deformable outer film 12, sodium acetate positive electrode particles 13 and aluminum metal negative electrode particles 14, the sodium acetate positive electrode particles 13 and the aluminum metal negative electrode particles 14 are located inside the flexible deformable outer film 12, the sodium acetate positive electrode particles 13 are filled with baked diatomite and iron powder, the aluminum metal negative electrode particles 14 are filled with coke powder and micro-diameter salt particles, the sodium acetate positive electrode particles 13 and the aluminum metal negative electrode particles 14 are densely arranged in the flexible deformable outer film 12, the sodium acetate positive electrode particles 13 and the aluminum metal negative electrode particles 14 are longitudinally and periodically distributed in the flexible deformable outer film 12, a segmented gel partition plate is fixedly connected in the flexible deformable outer film 12 longitudinally, the aluminum metal negative electrode particles 14 and the sodium acetate positive electrode particles 13 in the self-heating substrate particle layer 15 react to generate heat, so that the memory alloy strip 16 in contact therewith is deformed, and the close fit state of the external fixing fiber layer 7 to the wall surface is changed, therefore, the video monitoring circuit is separated from the wall body, and a user can conveniently and randomly adjust and fix the video monitoring circuit according to the requirement.

Referring to fig. 4, a plurality of heat conduction bars 9 are fixedly connected to the outer end of the outer fixed fiber layer 7, the heat conduction bars 9 are densely arranged on the outer fixed fiber layer 7, a plurality of rigid heat conduction bristles 10 are fixedly connected to the heat conduction bars 9, a plurality of curved fiber filaments 11 are fixedly connected to one ends of the rigid heat conduction bristles 10 far away from the heat conduction bars 9, the curved fiber filaments 11 are densely arranged on the rigid heat conduction bristles 10, the curved fiber filaments 11 and the rigid heat conduction bristles 10 form a plurality of branches on the heat conduction bars 9, the contact area between the outer surface of the outer fixed fiber layer 7 and the outer wall of the outer fixed fiber layer 9 is greatly increased, van der waals force is used for adsorption with the wall, the fixing effect is strong, the outer fixed fiber layer 7 is not easy to fall off, and the outer end of the outer fixed fiber layer 7 and the wall are convenient to be adsorbed and fixed, so.

Referring to fig. 4, the plurality of branches of the micro-filament are added on the curved fiber yarn 11, so as to greatly increase the contact area between the heat conduction bars 9 on the outer surface of the external fixing fiber layer 7 and the outer wall, thereby facilitating the adsorption and fixation of the outer end of the external fixing fiber layer 7 and the wall, and further improving the installation and fixation effect of the cable.

Please refer to fig. 1, the inner of the outer heat conduction layer 1 is filled with micro-molecular aerogel, the main components of the micro-molecular aerogel are viscose and micro-molecular polymer, the micro-molecular aerogel is formed by combining the micro-molecular polymer and the viscose, the micro-molecular aerogel is convenient to form a protective layer in the outer heat conduction layer 1, the characteristics of the micro-molecular aerogel are utilized, a protective layer is formed outside the shunt video monitoring circuit 2 and the insulation heat insulation layer 3, the influence of external impact on the shunt video monitoring circuit 2 and the insulation heat insulation layer 3 is reduced, and the micro-molecular aerogel can deform under slow pressure, so that the attaching effect of the outer heat conduction layer 1 and the irregular part of the outer wall surface.

Referring to fig. 1, an elastic nanofluid 6 is filled between the outer heat conduction layer 1 and the self-heating deformation layer 4, the elastic nanofluid 6 is tightly attached to the polymer shaping skeleton tube 5 between the outer heat conduction layer 1 and the self-heating deformation layer 4, the elastic nanofluid 6 covers the polymer shaping skeleton tube 5 on the outer side, and the elastic nanofluid 6 forms a protective layer on the outer side of the self-heating deformation layer 4, so that the influence of impact on the polymer shaping skeleton tube 5 is reduced.

Referring to fig. 1, an outer smooth pressing layer 8 is disposed at an outer end of the self-heating deformation layer 4, an inner end of the outer smooth pressing layer 8 is attached to and fixed to an outer end of the self-heating deformation layer 4, left and right ends of the outer smooth pressing layer 8 are fixedly connected to left and right ends of the outer fixing fiber batt layer 7, respectively, the outer smooth pressing layer 8 is disposed at a side of the self-heating deformation layer 4 away from the outer fixing fiber batt layer 7, and a user applies pressure to the outer smooth pressing layer 8 to change a structural form in the outer smooth pressing layer 8, thereby completing structural change in a wiring modification process.

Referring to fig. 2, the outer smooth pressure-applying layer 8 mainly comprises a butyrolactone polymer material, the outer layer of the outer smooth pressure-applying layer 8 has a smooth structure, the gel felt plate is filled in the outer smooth pressure-applying layer 8, the gel felt plate and the butyrolactone polymer material are uniformly mixed, the glass fiber cotton is mixed in the gel felt plate, the butyrolactone polymer material is convenient for degradation and recovery of the outer smooth pressure-applying layer 8, and the gel felt plate is convenient for the outer smooth pressure-applying layer 8 to have a thermal insulation effect.

A cable device convenient for wiring of a video monitoring line is provided, and the using method comprises the following steps:

the method comprises the following steps: the user attaches the external fixing fiber batt layer 7 to the wall surface, presses the external smooth pressing layer 8 by using a flat plate, and slowly moves from one end of the video monitoring cable to the other end;

step two: in the process of pressing the flat plate, the heat-dispersing and conducting rod 9, the hard heat-conducting seta 10 and the curved fiber bristle 11 at the outer end of the outer fixed fiber bristle layer 7 are in contact with the wall body and are closely adsorbed, meanwhile, the four shunt video monitoring circuits 2 inside are deformed under pressure, the deformed state is fit with the wall body and is attached to the outer side of the wall body, and the installation of the video monitoring cable is completed;

step three: when wiring adjustment is needed, a user uses a flat plate to press on the external smooth pressing layer 8 and slowly and repeatedly moves the flat plate, so that the heat dispersing and conducting rod 9 and the hard heat conducting bristle 10 on the external fixing fiber bristle layer 7 fall off from the wall body, the shunt video monitoring circuit 2 in the external heat conducting layer 1 is restored to a normal state, the cable is taken down from the outer side of the wall body, then the video monitoring cable is installed at a new position again according to the step one and the step two, the video monitoring cable can be installed, the internal side-by-side circuit deforms according to the shape of the wall surface and can be randomly shaped after being deformed, the fitting effect with the wall surface is enhanced, the fixing mode is changed, the damage of the video monitoring circuit to the wall body in the installation process is reduced, and the wiring mode and the fixing position can be randomly adjusted according to the needs of the.

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.

Claims (7)

1. The utility model provides a cable device convenient to video monitoring circuit wiring which characterized in that: the heat-conducting layer comprises an outer heat-conducting layer (1), four shunt video monitoring circuits (2) are arranged in the outer heat-conducting layer (1), an insulating heat-insulating layer (3) is sleeved at the outer end of each shunt video monitoring circuit (2), the insulating heat-insulating layer (3) is attached to the inner wall of the outer heat-conducting layer (1), the shunt video monitoring circuits (2) are in sliding connection with the inner wall of the outer heat-conducting layer (1) through the insulating heat-insulating layer (3), a self-heating deformation layer (4) is sleeved at the outer layer of the outer heat-conducting layer (1), an outer fixing fiber wool layer (7) is sleeved at the outer layer of the self-heating deformation layer (4), the inner side of the outer fixing fiber wool layer (7) is fixedly connected with the outer end of the self-heating deformation layer (4), a plurality of polymer-forming framework pipes (5) are arranged between the self-heating deformation layer (1) and the outer heat-heating deformation layer (1), the self-heating deformation layer is characterized in that an outer smooth pressing layer (8) is arranged at the outer end of the self-heating deformation layer (4), the inner end of the outer smooth pressing layer (8) is fixedly attached to the outer end of the self-heating deformation layer (4), the left end and the right end of the outer smooth pressing layer (8) are fixedly connected with the left end and the right end of an outer fixing fiber layer (7) respectively, the self-heating deformation layer (4) comprises a self-heating base particle layer (15) and a memory alloy strip (16), the left end and the right end of the memory alloy strip (16) are fixedly connected with the left end and the right end of the memory alloy strip (16), the memory alloy strip (16) is in a bent shape, the material of the memory alloy strip (16) is a phase change alloy material, a plurality of heat-dredging bristle conduction rods (9) are fixedly connected to the outer end of the outer fixing fiber layer (7), the heat-dredging conduction rods (9) are densely arranged on the outer fixing fiber layer (7), and a plurality of heat, one end, far away from the heat-dredging conduction rod (9), of the hard heat-conducting bristles (10) is fixedly connected with a plurality of curved fiber hairlines (11), and the curved fiber hairlines (11) are densely distributed on the hard heat-conducting bristles (10).

2. A cable assembly for facilitating routing of video surveillance lines as claimed in claim 1, wherein: from hot basic particle layer (15) including flexible deformation adventitia (12), sodium acetate positive pole granule (13) and aluminium metal negative pole granule (14) all are located flexible deformation adventitia (12) inboard, sodium acetate positive pole granule (13) intussuseption is filled with roast diatomaceous earth and iron powder, aluminium metal negative pole granule (14) intussuseption is filled with coke breeze powder and micro-diameter salt grain, sodium acetate positive pole granule (13) and aluminium metal negative pole granule (14) are densely arranged in flexible deformation adventitia (12), and sodium acetate positive pole granule (13) and aluminium metal negative pole granule (14) are vertical stage nature distribution in flexible deformation adventitia (12), vertically fixedly connected with segmentation gelatinization baffle in flexible deformation adventitia (12).

3. A cable assembly for facilitating routing of video surveillance lines as claimed in claim 1, wherein: and a plurality of differential filament branches are additionally arranged on the curved fiber broken filaments (11).

4. A cable assembly for facilitating routing of video surveillance lines as claimed in claim 1, wherein: the heat-conducting layer (1) that covers outward is filled with micro molecule aerogel, micro molecule aerogel main component is viscose liquid and micro molecule polymer, micro molecule aerogel passes through micro molecule polymer and viscose liquid chemical combination and forms.

5. A cable assembly for facilitating routing of video surveillance lines as claimed in claim 1, wherein: elastic nanometer fluid (6) is filled between the outer heat conduction layer (1) and the self-heating deformation layer (4), the elastic nanometer fluid (6) is tightly attached to the polymer shaping framework pipe (5) between the outer heat conduction layer (1) and the self-heating deformation layer (4), and the elastic nanometer fluid (6) wraps the polymer shaping framework pipe (5) on the outer side.

6. A cable assembly for facilitating routing of video surveillance lines as claimed in claim 1, wherein: the main component of the outer smooth pressing layer (8) is butyrolactone polymer material, the outer layer of the outer smooth pressing layer (8) is of a smooth structure, a gel felt plate is filled in the outer smooth pressing layer (8), the gel felt plate and the butyrolactone polymer material are uniformly mixed, and glass fiber cotton is mixed in the gel felt plate.

7. A cable assembly for facilitating routing of video surveillance lines as claimed in claim 6, wherein: the using method comprises the following steps:

the method comprises the following steps: a user attaches the external fixing fiber batt layer (7) to the wall surface, presses the external smooth pressing layer (8) by using a flat plate, and slowly moves from one end of the video monitoring cable to the other end;

step two: in the process of pressing a flat plate, heat-dredging conduction rods (9) at the outer ends of the outer fixed fiber layers (7), hard heat-conducting seta (10) and curved fiber filaments (11) are in contact with a wall body and are tightly adsorbed, meanwhile, four shunt video monitoring circuits (2) inside are deformed under pressure, the deformed state is fit with the wall body and is attached to the outer side of the wall body, and the installation of video monitoring cables is completed;

step three: when wiring adjustment is needed, a user presses the outer smooth pressing layer (8) by using the flat plate and slowly and repeatedly moves the flat plate to enable the heat-dispersing conducting rods (9) and the hard heat-conducting bristles (10) on the outer fixed fiber layer (7) to fall off from the wall body, the shunt video monitoring circuit (2) in the outer heat-conducting layer (1) is recovered to a normal state, the cable is taken down from the outer side of the wall body, and then the video monitoring cable is installed at a new position again according to the first step and the second step.

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