CN112562899B - Keep apart cable that dispels heat fast - Google Patents

Abstract

The invention discloses an isolated fast heat dissipation cable which comprises a cable outer layer, an inner isolation layer, a center cable and a cross axle center bone, wherein the cross axle center bone is positioned in the middle of the center cable, the inner isolation layer is positioned on the inner side of the cable outer layer, the center cable is positioned on the inner side of the inner isolation layer, a glass fiber isolation layer is arranged on the inner side of the inner isolation layer, an inner ring sleeve is arranged between the glass fiber isolation layer and the inner isolation layer, and cable fillers are arranged between the glass fiber isolation layer and the center cable. This keep apart quick heat dissipation cable has solved the problem that can also keep a better intensity and buffering support effect when current cable is hardly to possess good heat dissipation isolation performance, can play more stable support to inside wire, improves the intensity and the thermal isolation effect of cable body, the effectual absorptive purpose of inside heat conduction that plays.

Description

Keep apart cable that dispels heat fast

Technical Field

The invention relates to the technical field of cables, in particular to an isolated rapid heat dissipation cable.

Background

Be used for the cable structure of heating among the prior art to set up the heating function who realizes equipment through heating sinle silk usually, set up the great heating sinle silk of power usually, the inside also can produce great heat in the work of cable, and prior art sets up to be that a plurality of heating sinle silks superpose and be close to the setting in addition for the heat gathering that the conductor produced is faster, gathers and leads to being difficult to distribute away in the inside of cable, causes the influence to the use of cable. The existing cable can keep a better strength and a buffering supporting effect when being difficult to have good heat dissipation and isolation performance.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an isolated fast radiating cable, which solves the problem that the existing cable is difficult to have good radiating and isolating performance and can keep better strength and buffering and supporting effects.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: an isolated cable capable of dissipating heat quickly comprises a cable outer layer, an inner isolation layer, a center cable and a cross axle center bone, wherein the cross axle center bone is located in the middle of the center cable, the inner isolation layer is located on the inner side of the cable outer layer, the center cable is located on the inner side of the inner isolation layer, a glass fiber isolation layer is arranged on the inner side of the inner isolation layer, an inner ring sleeve is arranged between the glass fiber isolation layer and the inner isolation layer, cable filling materials are arranged between the glass fiber isolation layer and the center cable, and the cable filling materials can play a more stable support role for internal wires by matching the multilayer composite external cable with the inner cross axle center bone, so that the strength and the thermal isolation effect of a cable body are improved, the cable filling materials arranged inside can play roles in filling gaps and conducting heat, and the strength of the cable can be improved by matching the outer glass fiber isolation layer, the rate of internal heat conduction can also be increased.

The inner isolation layer comprises a main frame body, an inner isolation bag is arranged on an outer ring of the main frame body, an inner ring frame is arranged on the inner side of the main frame body, the inner isolation bag is located between the inner ring frame and the main frame body, a buffer support frame is arranged between the inner isolation bags, a support inner frame is arranged inside the buffer support frame, the inner isolation bag arranged on the isolation layer in the whole layer filled with the inner isolation bag can be used for improving the heat conduction and heat dissipation of the inner isolation bag, and can be matched with the support inner frame in the buffer support frame to achieve stronger support and buffer effects, so that the strength and buffer effects of the cable are effectively improved.

Preferably, the inner isolation bag comprises a bag body, a heat-conducting inner connecting layer is arranged on the bottom side inside the bag body, a heat-conducting ellipsoidal inner buffer bag is arranged on the inner side of the heat-conducting inner connecting layer, an elastic ball is arranged inside the heat-conducting ellipsoidal inner buffer bag, an inner convex heat-conducting sheet is arranged on the outer side of the heat-conducting ellipsoidal inner buffer bag, and the purpose of internal heat conduction absorption is effectively achieved through the heat-conducting ellipsoidal inner buffer bag, and the inner elastic ball can be matched to enable the heat-conducting ellipsoidal inner buffer bag to have a good buffering and supporting effect.

Preferably, the heat dissipation type heat conduction fins are arranged at positions, located on the outer sides of the inner convex heat conduction fins, in the bag body, a plurality of heat dissipation type heat conduction fins are arranged, and the heat dissipation type heat conduction fins are evenly stacked on the outer sides of the inner convex heat conduction fins.

Preferably, the inner convex heat conducting strip is arranged to be an arc-shaped pointed body, an inner concave hole is formed in the upper portion of the inner convex heat conducting strip, an arc-shaped edge groove is formed in the side of the inner convex heat conducting strip, the inner heat is guided into the heat conducting inner connecting layer through the inner ring sleeve, when the buffer bag in the heat conducting ellipsoid is subjected to a large amount of heat and is deformed and expanded, the inner convex heat conducting strip at the moment is in contact with the plurality of heat dissipation type heat conducting strips, and the inner concave hole and the arc-shaped edge groove which are formed in a matched mode can rapidly dissipate heat.

Preferably, the support inner frame comprises a bottom frame, an elastic buffering bottom layer is arranged inside the bottom frame, an outer movable connecting rod is arranged outside the elastic buffering bottom layer, one end, far away from the elastic buffering bottom layer, of the outer movable connecting rod is provided with a connecting terminal, an elliptical elastic frame is installed on the inner side of the connecting terminal, and the middle position of the elastic buffering bottom layer is installed at the bottom of the elliptical elastic frame.

Preferably, the bottom of the underframe is fixedly connected with the inner wall of the buffer support frame, and the connecting terminal is positioned at the outer side of the inner isolation layer.

Preferably, the buffer support frame and the inner isolation bag are uniformly distributed in the inner isolation layer, and the inner ring sleeve is in close contact with the glass fiber isolation layer.

(III) advantageous effects

The invention provides an isolated fast heat dissipation cable. The method has the following beneficial effects:

(one), this keep apart quick heat dissipation cable, through the compound and outside cable of multilayer, the inside cross axle arbor of cooperation can play more stable support to inside wire, improves the intensity and the thermal isolation effect of cable body.

(II), this keep apart quick heat dissipation cable, the cable stopping of inside setting can play the purpose of space filling and heat conduction, and the outer glass fiber isolation layer of cooperation not only can improve the intensity of cable, can also improve the speed of inside heat conduction.

(III), this keep apart quick heat dissipation cable, the interior isolation bag that the isolation layer set up in the whole layer of the inside packing of device not only can be used for improving inside heat and derive the heat dissipation, can also cooperate to state support in the buffering support frame and erect stronger support and buffering effect, the intensity and the buffering effect of effectual improvement cable.

(IV), this keep apart quick heat dissipation cable, through the absorptive purpose of the interior buffer capsule of heat conduction ellipsoid not only effectual inside heat conduction of playing, can also cooperate inside elastic ball to make it possess a good buffering support effect.

(V), this keep apart quick heat dissipation cable, through the leading-in heat conduction in-connection layer of inner circle sleeve pipe with the heat of inside, when the buffer bag receives a large amount of heats and appears deformation inflation in the heat conduction ellipsoid, the contact of interior protruding conducting strip and a plurality of type conducting strips that disperse at this moment, the interior concave hole and the arc limit groove that the cooperation was seted up can dispel the heat fast.

Drawings

FIG. 1 is a schematic overall cable construction according to the present invention;

FIG. 2 is a schematic structural view of a cable section according to the present invention;

FIG. 3 is a schematic structural view of an inner barrier layer according to the present invention;

FIG. 4 is a schematic structural view of Structure A of the present invention;

FIG. 5 is a schematic structural view of a buffering support frame according to the present invention;

FIG. 6 is a schematic structural view of an inwardly protruding thermally conductive sheet according to the present invention;

in the figure: the cable comprises a cable outer layer 1, a cable inner separation layer 2, a main frame 21, a cable inner separation bag 22, a bag body 221, a heat-conducting inner connection layer 222, a heat-conducting oval inner buffer bag 223, an elastic ball 224, an inner convex heat-conducting fin 225, a heat-conducting fin 226, an arc-shaped edge groove 227, an inner concave hole 228, a buffer support frame 23, a support inner frame 24, an underframe 241, an elastic buffer bottom layer 242, an outer movable outer connecting rod 243, a connecting terminal 244, an elliptical elastic frame 245, an inner ring frame 25, a center cable 3, a cross reinforcing frame 4, an inner ring sleeve 5, a cable filler 6 and a glass fiber separation layer 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an isolated cable capable of dissipating heat quickly comprises a cable outer layer 1, an inner isolation layer 2, a center cable 3 and a cross axle center bone 4, wherein the cross axle center bone 4 is positioned in the middle of the center cable 3, the inner isolation layer 2 is positioned on the inner side of the cable outer layer 1, the center cable 3 is positioned on the inner side of the inner isolation layer 2, a glass fiber isolation layer 7 is arranged on the inner side of the inner isolation layer 2, an inner ring sleeve 5 is arranged between the glass fiber isolation layer 7 and the inner isolation layer 2, a cable filler 6 is arranged between the glass fiber isolation layer 7 and the center cable 3, the inner cross axle center bone 4 is matched through a multilayer composite outer cable, more stable support can be achieved for an inner lead, the strength and the thermal isolation effect of a cable body are improved, the cable filler 6 arranged inside can achieve the purposes of gap filling and heat conduction, and the outer glass fiber isolation layer 7 is matched, not only can improve the intensity of cable, can also improve inside heat conduction's speed.

The inner isolation layer 2 comprises a main frame body 21, an inner isolation bag 22 is arranged on the outer ring of the main frame body 21, an inner ring frame 25 is arranged on the inner side of the main frame body 21, the inner isolation bag 22 is positioned between the inner ring frame 25 and the main frame body 21, a buffer support frame 23 is arranged between the inner isolation bags 22, a support inner frame 24 is arranged inside the buffer support frame 23, the inner isolation bag 22 filled inside the whole layer and arranged on the isolation layer 2 can be used for improving the heat conduction and radiation of the inside, and can be matched with the support inner frame 24 in the buffer support frame 23 to play stronger supporting and buffering effects, so that the strength and buffering effects of the cable are effectively improved.

The inner isolation capsule 22 comprises a capsule body 221, a heat-conducting inner connecting layer 222 is arranged on the bottom side inside the capsule body 221, a heat-conducting ellipsoid inner buffer capsule 223 is arranged on the inner side of the heat-conducting inner connecting layer 222, an elastic ball 224 is arranged inside the heat-conducting ellipsoid inner buffer capsule 223, an inner convex heat-conducting sheet 225 is arranged on the outer side of the heat-conducting ellipsoid inner buffer capsule 223, the heat-conducting ellipsoid inner buffer capsule 223 effectively plays a role in heat conduction and absorption of internal heat, and the inner isolation capsule 22 can be matched with the elastic ball 224 to enable the heat-conducting ellipsoid inner buffer capsule to have a good buffering supporting effect.

The heat dissipating fins 226 are disposed inside the bag 221 and outside the inner convex fins 225, a plurality of heat dissipating fins 226 are disposed, and the heat dissipating fins 226 are uniformly stacked outside the inner convex fins 225.

Interior protruding conducting strip 225 sets up to the arc point body, and interior protruding conducting strip 225 top is provided with interior concave hole 228, and arc limit groove 227 has been seted up to interior protruding conducting strip 225 avris, through inner circle sleeve pipe 5 with the leading-in heat conduction in-connection layer 222 of the heat of inside, when buffer bag 223 received a large amount of heats in the heat conduction ellipsoid and appears deformation inflation, interior protruding conducting strip 225 and a plurality of type conducting strip 226 contacts of loosing this moment, and interior concave hole 228 and arc limit groove 227 that the cooperation was seted up can dispel the heat fast.

The inner support frame 24 comprises a bottom frame 241, an elastic buffer bottom layer 242 is arranged in the bottom frame 241, an outer movable outer connecting rod 243 is arranged on the outer side of the elastic buffer bottom layer 242, a connecting terminal 244 is arranged at one end, away from the elastic buffer bottom layer 242, of the outer movable outer connecting rod 243, an elliptical elastic frame 245 is installed on the inner side of the connecting terminal 244, and the bottom of the elliptical elastic frame 245 is installed at the middle position of the elastic buffer bottom layer 242.

The bottom of the bottom frame 241 is fixedly connected with the inner wall of the buffer support frame 23, and the connecting terminal 244 is positioned at the outer side of the inner isolation layer 2.

The buffer support frame 23 and the inner isolation bag 22 are uniformly distributed in the inner isolation layer 2, and the inner ring sleeve 5 is in close contact with the glass fiber isolation layer 7.

When the cable is used, the cable is formed by compounding multiple layers, the cross axle center bone 4 added in the center of the center cable 3 is used for supporting the inner cable, the cable filler 6 arranged inside can play a role in filling gaps and conducting heat, and the strength of the cable and the internal heat conduction rate can be improved by matching with the outer glass fiber isolation layer 7;

the inner isolation bag 22 arranged on the whole inner isolation layer 2 filled in the device can be used for improving the heat conduction and heat dissipation of the inner part, and can also be matched with the support inner frame 24 in the buffer support frame 23 to play a stronger support and buffer effect, so that the strength and buffer effect of the cable are effectively improved;

when the inside cable heat passes through at the electric current, the heat conduction in-layer 222 of the heat conduction of inside can be with a large amount of heats of production through inner circle sleeve pipe 5, when buffer bag 223 received a large amount of heats and appears deformation inflation in the heat conduction ellipsoid, protruding conducting strip 225 contacts with a plurality of scattered type conducting strips 226 in the interior convex heat-conducting strip this moment, and interior concave hole 228 and the arc limit groove 227 that the cooperation was seted up can dispel the heat fast.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides an keep apart quick heat dissipation cable, includes cable outer strata (1), interior isolation layer (2), central cable (3) and cross axle heart bone (4), its characterized in that: the cross axle center frame (4) is located in the middle of the center cable (3), the inner isolation layer (2) is located on the inner side of the cable outer layer (1), the center cable (3) is located on the inner side of the inner isolation layer (2), a glass fiber isolation layer (7) is arranged on the inner side of the inner isolation layer (2), an inner ring sleeve (5) is arranged between the glass fiber isolation layer (7) and the inner isolation layer (2), and cable filling materials (6) are arranged between the glass fiber isolation layer (7) and the center cable (3);

the inner isolation layer (2) comprises a main frame body (21), an inner isolation bag (22) is arranged on the outer ring of the main frame body (21), an inner ring frame (25) is arranged on the inner side of the main frame body (21), the inner isolation bag (22) is located between the inner ring frame (25) and the main frame body (21), a buffer support frame (23) is arranged between the inner isolation bags (22), and a support inner frame (24) is arranged in the buffer support frame (23);

the supporting inner frame (24) comprises an underframe (241), an elastic buffering bottom layer (242) is arranged in the underframe (241), an outer movable outer connecting rod (243) is arranged on the outer side of the elastic buffering bottom layer (242), one end, far away from the elastic buffering bottom layer (242), of the outer movable outer connecting rod (243) is provided with a connecting terminal (244), an elliptical elastic frame (245) is installed on the inner side of the connecting terminal (244), and the bottom of the elliptical elastic frame (245) is installed in the middle of the elastic buffering bottom layer (242);

the bottom of the bottom frame (241) is fixedly connected with the inner wall of the buffer support frame (23), the connecting terminal (244) is positioned at the outer side of the inner isolation layer (2), the buffer support frame (23) and the inner isolation bag (22) are uniformly distributed in the inner isolation layer (2), and the inner ring sleeve (5) is tightly contacted with the glass fiber isolation layer (7);

the inner isolation bag (22) comprises a bag body (221), a heat-conducting inner connecting layer (222) is arranged on the bottom side inside the bag body (221), a heat-conducting ellipsoid inner buffer bag (223) is arranged on the inner side of the heat-conducting inner connecting layer (222), an elastic ball (224) is arranged inside the heat-conducting ellipsoid inner buffer bag (223), and an inward convex heat-conducting fin (225) is arranged on the outer side of the heat-conducting ellipsoid inner buffer bag (223);

a plurality of heat dissipation type heat conduction sheets (226) are arranged in the bag body (221) and positioned at the outer side of the inner convex heat conduction sheet (225), and the heat dissipation type heat conduction sheets (226) are uniformly stacked at the outer side of the inner convex heat conduction sheet (225);

the inner convex heat conducting fin (225) is an arc-shaped pointed body, an inner concave hole (228) is formed above the inner convex heat conducting fin (225), and an arc-shaped edge groove (227) is formed in the side of the inner convex heat conducting fin (225).

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