CN115762891A

CN115762891A - Heat conduction type digital communication cable

Info

Publication number: CN115762891A
Application number: CN202211545876.5A
Authority: CN
Inventors: 李智; 柏志诚; 梁尚余
Original assignee: JIANGSU DICHENG CABLE CO Ltd
Current assignee: JIANGSU DICHENG CABLE CO Ltd
Priority date: 2022-12-02
Filing date: 2022-12-02
Publication date: 2023-03-07

Abstract

The invention discloses a heat conduction type digital communication cable, which comprises a cable core and a plurality of water storage frameworks; the cable core is characterized in that a circle of heat-conducting layer is further arranged outside the cable core, the water storage frameworks are arranged into an arc-shaped framework structure, the size and the shape of each water storage framework are the same, the water storage frameworks can be correspondingly arranged on the periphery of the heat-conducting layer, the whole heat-conducting layer is wrapped by the water storage frameworks, a water storage cavity is further formed in the inner portion of each water storage framework, and cold water is correspondingly stored in the water storage cavity. According to the invention, when the cable core generates heat, the heat is quickly absorbed by the heat conduction layer, the heat conduction layer can transfer the heat to cold water in the water storage cavity, the outer side of the water storage framework is provided with the outer waterproof layer and the outer sheath, the heat in the water body can be directly radiated through the outer waterproof layer and the outer sheath, and the heat radiation effect is very good.

Description

Heat conduction type digital communication cable

Technical Field

The invention relates to the technical field of cables, in particular to a heat-conducting digital communication cable.

Background

Among the prior art, digital communication cable can produce more heat at the inside cable core of during operation, and the heat gathers the inside of cable core and easily produces the influence to communication signal, leads to the performance of communication to descend, and does not have the inside thermal problem of communication cable that can solve especially well among the prior art, and the prior art majority is through setting up a few with the number of piles to this increases radiating efficiency, and this just must produce some negative effects, can not better completion heat dissipation.

For example: publication (bulletin) No.: CN 212010514U discloses a "composite communication cable"; this technical scheme includes insulating layer, controller and fan, the front of insulating layer is provided with the electric wire that the annular distributes, the surface of insulating layer is provided with the injection glue layer, temperature sensor is installed in the front embedding of injection glue layer, temperature sensor's the output and the input electric connection of controller.

This technical scheme is through setting up the ventilation layer, usable fan, air-supply line and play tuber pipe, realize the ventilation cooling to whole device, can effectively reduce the inside temperature of device, avoid the electric wire to be heated, reduce the emergence of incident, and can prolong the life of device, prevent gnawing the layer through setting up, can avoid the device because of receiving gnawing of animal, and the problem of normal individual work, and the pungent smell that drives the thing and give off has the effect of reminding, avoid the device to appear maintaining untimely condition and appear.

However, in the above technical solutions, heat dissipation is still achieved by setting a layered structure, and although a heat conduction layer which is easy to dissipate heat is provided, the heat dissipation efficiency is still greatly reduced, and a very good heat dissipation effect cannot be achieved.

Therefore, in order to solve the above problems, a split type new energy heat dissipation cable with an abnormally good heat dissipation effect needs to be developed.

Disclosure of Invention

The invention aims to provide a heat-conducting digital communication cable aiming at the defects in the prior art; the technical scheme is as follows:

a heat conduction type digital communication cable comprises a cable core and a plurality of water storage frameworks; the cable core is characterized in that a circle of heat-conducting layer is further arranged outside the cable core, the water storage frameworks are arranged into an arc-shaped framework structure, the size and the shape of each water storage framework are the same, the water storage frameworks can be correspondingly arranged on the periphery of the heat-conducting layer, the whole heat-conducting layer is wrapped by the water storage frameworks, a water storage cavity is further formed in each water storage framework, and cold water is correspondingly stored in the water storage cavity.

The heat conduction sheet is characterized in that the end face of the outer side of the heat conduction layer is also provided with a heat conduction sheet extending outwards, the heat conduction sheet correspondingly points to the circular position of the cable wire core, the heat conduction sheet correspondingly inserts into the water storage cavity of the water storage framework after extending outwards, the inserted position is correspondingly sealed, and the heat conduction sheet correspondingly contacts with cold water in the water storage cavity.

The water storage framework is characterized in that an outer waterproof layer is further arranged outside the water storage framework, and an outer sheath is further arranged outside the outer waterproof layer.

Furthermore, the number of the water storage frameworks is four, the water storage cavities are arranged in the four water storage frameworks, at least four heat conducting fins are arranged on the heat conducting layer, and at least one heat conducting fin is inserted into each water storage cavity; the four water storage frameworks wrap the heat conducting fins integrally.

Further, the heat conduction layer and the heat conduction sheet are made of metal materials; the heat-conducting layer seals through the welded mode behind the cable sinle silk parcel.

Further, the inside of water storage skeleton all be provided with the support column, the support column all corresponding centre of a circle that points to the cable sinle silk.

Furthermore, the four water storage frameworks are further provided with butt joint clamping grooves and butt joint clamping blocks at the positions of the adjacent butt joint side walls, so that the two adjacent water storage frameworks can be correspondingly installed in a butt joint mode.

Further, the cable core include the conductor of inlayer, the insulating layer of conductor outside, the outside shielding layer of insulating layer, the outside interior waterproof layer of shielding layer and the outside inner sheath of interior waterproof layer.

Has the beneficial effects that: the invention has the following beneficial effects:

(1) The cable core structure for communication is normally arranged, and the difference is that a heat conduction layer is arranged on the outer layer of the cable core, the heat conduction layer is made of metal heat conduction materials, particularly copper, and the heat conduction effect is good; besides the heat conduction layer, four water storage frameworks are arranged, the water storage frameworks are arc-shaped and can be installed on the periphery of the heat conduction layer in a surrounding mode, and the whole heat conduction layer is surrounded; meanwhile, a water storage cavity is arranged in the water storage framework, and the water storage cavity is larger and can store more cold water; the heat conducting layer is arranged to be attached to the water storage framework, when the cable core generates heat, the heat is quickly absorbed by the heat conducting layer, the heat conducting layer can transfer the heat to cold water in the water storage cavity, the outer side of the water storage framework is provided with the outer waterproof layer and the outer sheath, the heat in the water body can be directly dissipated through the outer waterproof layer and the outer sheath, and the heat dissipation effect is very good;

(2) According to the invention, the outer end face of the heat conduction layer is also provided with the heat conduction sheet, the heat conduction sheet is also made of copper materials, so that the heat conduction sheet has good heat conduction performance, the heat conduction sheet extends into the water storage cavity to be directly contacted with the water storage cavity, the heat can be more directly transferred from the heat conduction sheet to a water body, the heat conduction efficiency is higher, and the heat of a cable core can be effectively reduced;

(3) The water storage framework is correspondingly provided with the four water storage frameworks, so that the water storage quantity is increased, and the compression resistance of the water storage frameworks can be increased.

Drawings

FIG. 1 is a block diagram of the present invention.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific examples, which are carried out on the premise of the technical solution of the present invention, and it should be understood that these examples are only for illustrating the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, a heat-conducting digital communication cable comprises a cable core 1 and a plurality of water storage frameworks 2; the outside of cable sinle silk 1 still is provided with round heat-conducting layer 3, and water storage skeleton 2 then sets to arc skeleton texture, and the big or small shape of each water storage skeleton 2 is the same for water storage skeleton 2 can be corresponding to be set up in the periphery of heat-conducting layer 3, including water storage skeleton 2 wraps up whole heat-conducting layer 3, and the inside of each water storage skeleton 2 still all is provided with water storage chamber 4, and corresponding storage has cold water in the water storage chamber 4 again.

Still all be provided with the conducting strip 5 that stretches out to the outside on the outside terminal surface of heat-conducting layer 3, the circular position of directional cable sinle silk 1 is responded to conducting strip 5, and the corresponding water storage chamber 4 of inserting to water storage skeleton 2 after the conducting strip 5 extends to the outside to the corresponding position of inserting is sealed, and the corresponding cold water with in the water storage chamber 4 of conducting strip 5 contacts.

The outside of water storage skeleton 2 still is provided with one deck outer waterproof layer 6, and the outside of outer waterproof layer 6 still is provided with a layer oversheath 7.

The cable core structure for communication is normally arranged, and the difference is that the outer layer of the cable core is provided with a heat conduction layer which is made of metal heat conduction materials, particularly copper, so that the heat conduction effect is good.

Besides the heat conduction layer, four water storage frameworks are arranged, the water storage frameworks are arc-shaped and can be installed on the periphery of the heat conduction layer in a surrounding mode, and the whole heat conduction layer is surrounded; meanwhile, a water storage cavity is arranged in the water storage framework, and the water storage cavity is larger and can store more cold water; set up the back heat-conducting layer like this and just hug closely the setting with the water storage skeleton, after the cable sinle silk produced heat, the heat was absorbed by the heat-conducting layer rapidly, and the heat-conducting layer can be with in heat transfer to the cold water in the water storage chamber again, the outside of water storage skeleton is provided with outer waterproof layer and oversheath again, and the heat in the water can directly distribute away through outer waterproof layer and oversheath again, and the radiating effect is very good.

In addition, the outer end face of the heat conduction layer is also provided with the heat conduction sheet, the heat conduction sheet is also made of copper materials, the heat conduction sheet has good heat conduction, the heat conduction sheet extends into the water storage cavity to be directly contacted with the water storage cavity, heat can be more directly transferred into a water body from the heat conduction sheet, the heat conduction efficiency is higher, and the heat of the cable core can be effectively reduced.

The number of the water storage frameworks 2 is four, the water storage cavities 4 are arranged in the four water storage frameworks 2, at least four heat conduction sheets 5 are arranged on the heat conduction layer 3, and at least one heat conduction sheet 5 is inserted into each water storage cavity 4; the four water storage frameworks 2 wrap the heat conducting fins 5 integrally.

The heat conduction layer 3 and the heat conduction sheet 5 are made of metal materials; the heat-conducting layer 3 seals through the welded mode behind the parcel of cable sinle silk 1.

The inside of water storage skeleton 2 still all is provided with

support column

8, and 8 looks response of support column point to the centre of a circle of cable sinle silk 1.

The four water storage frameworks 2 are further provided with butt joint clamping grooves 9 and butt joint clamping blocks 10 at the positions of the adjacent butt joint side walls, so that the two adjacent water storage frameworks 2 can be correspondingly installed in a butt joint mode.

The cable core 1 comprises an innermost conductor 11, an insulation layer 12 outside the conductor 11, a shielding layer 13 outside the insulation layer 12, an inner water barrier layer 14 outside the shielding layer 13 and an inner jacket 15 outside the inner water barrier layer 14.

The water storage framework is correspondingly provided with the four water storage frameworks, so that the water storage quantity is increased, and the compression resistance of the water storage frameworks can be increased.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the invention and the appended claims, and all equivalent changes and modifications made within the spirit and scope of the invention as claimed should be included in the appended claims.

Claims

1. The utility model provides a heat conduction formula digital communication cable which characterized in that: comprises a cable core (1) and a plurality of water storage frameworks (2); the cable wire core (1) is further provided with a circle of heat conduction layer (3) outside, the water storage frameworks (2) are arranged into an arc framework structure, the size and the shape of each water storage framework (2) are the same, so that the water storage frameworks (2) can be correspondingly arranged on the periphery of the heat conduction layer (3), the whole heat conduction layer (3) is wrapped in the water storage frameworks (2), a water storage cavity (4) is further arranged inside each water storage framework (2), and cold water is correspondingly stored in the water storage cavities (4);

the heat conducting layers (3) are provided with heat conducting fins (5) extending outwards on the end faces of the outer sides, the heat conducting fins (5) point to the circular positions of the cable cores (1), the heat conducting fins (5) extend outwards and then are correspondingly inserted into the water storage cavity (4) of the water storage framework (2), the inserted positions are correspondingly sealed, and the heat conducting fins (5) are correspondingly contacted with cold water in the water storage cavity (4);

the water storage framework (2) is characterized in that an outer waterproof layer (6) is further arranged outside the water storage framework, and an outer sheath (7) is further arranged outside the outer waterproof layer (6).

2. A thermally conductive digital communication cable as in claim 1, wherein: the water storage frameworks (2) are provided with four water storage frameworks, the water storage cavities (4) are arranged inside the four water storage frameworks (2), at least four heat conduction sheets (5) are arranged on the heat conduction layer (3), and at least one heat conduction sheet (5) is inserted into each water storage cavity (4); the heat conducting fins (5) are integrally wrapped in the four water storage frameworks (2).

3. A thermally conductive digital communication cable as in claim 2, wherein: the heat conduction layer (3) and the heat conduction sheet (5) are made of metal materials; the heat-conducting layer (3) seals the cable core (1) in a welding mode after wrapping.

4. A thermally conductive digital communication cable according to claim 1, wherein: the water storage framework (2) is internally provided with support columns (8), and the support columns (8) are correspondingly directed to the circle center of the cable core (1).

5. A thermally conductive digital communication cable according to claim 2, wherein: the four water storage frameworks (2) are further provided with butt joint clamping grooves (9) and butt joint clamping blocks (10) at the positions of the adjacent butt joint side walls, so that the two adjacent water storage frameworks (2) can be correspondingly installed in a butt joint mode.

6. A thermally conductive digital communication cable as in claim 1, wherein: the cable core (1) comprises an innermost conductor (11), an insulating layer (12) outside the conductor (11), a shielding layer (13) outside the insulating layer (12), an inner waterproof layer (14) outside the shielding layer (13) and an inner sheath (15) outside the inner waterproof layer (14).