CN211181746U - High heat dissipation composite cable - Google Patents

Abstract

The utility model discloses a high heat dissipation composite cable, lead the core including cable shell, insulating and waterproof layer, connecting rod, second connecting block and metal electricity, it has the locating lug to bond on the cable shell, and the locating lug laminates with the installation fixed plate each other to installation fixed plate and cable shell laminate each other, insulating and waterproof layer surface and cable shell internal surface bonding connection, and insulating and waterproof layer's internal surface and the surface bonding connection of insulating layer to insulating layer internal surface mounting has first connecting block, the connecting rod bonds on the location ball, and connecting rod and first connecting block laminate each other. This high heat dissipation composite cable adopts heat abstractor to dispel the heat fast to the cable core, utilizes the characteristic of the quick heat conduction of aluminium ability, derives the heat on the cable core fast to avoid producing the potential safety hazard because of local high temperature on the cable core, adopt sliding structure, thereby can realize supporting the cable core of different thicknesses.

Description

High heat dissipation composite cable

Technical Field

The utility model relates to a composite cable technical field specifically is a high heat dissipation composite cable.

Background

The cable is widely used in life and is not strange to people, the cable core is wrapped by the outer layer, then the cable can be used, and the cable can transmit information through the inner cable core, so that the information is rapidly transmitted from one place to another place.

But also have some problems in the in-process of using the cable, common cable adopts the mode that the cable core closely laminated to use, and the cable core can produce more heat because of long-time the use in the use to make the cable heat up because of the heat dissipation is relatively poor sharply easily, cause the potential safety hazard, in the in-process that common heat dissipation cable used, for fixed mounting, unable adaptation supports the cable of thickness difference.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high heat dissipation composite cable to it is relatively poor to provide the heat dissipation between the cable core in solving above-mentioned background art, has the potential safety hazard, can't carry out the problem of fixing to the cable core of thickness difference.

In order to achieve the above object, the utility model provides a following technical scheme: a high-heat-dissipation composite cable comprises a cable shell, an insulating waterproof layer, a connecting rod, a second connecting block and a metal electric conducting core, wherein a positioning lug is bonded on the cable shell, the positioning lug is mutually attached to an installation fixing plate, the installation fixing plate is mutually attached to the cable shell, a positioning screw is mounted on the fixing plate, the outer surface of the insulating waterproof layer is in adhesive connection with the inner surface of the cable shell, the inner surface of the insulating waterproof layer is in adhesive connection with the outer surface of a heat insulating layer, a first connecting block is mounted on the inner surface of the heat insulating layer, a positioning ball is bonded on the first connecting block, the connecting rod is bonded on the positioning ball, the connecting rod is mutually attached to the first connecting block, the connecting rod is in adhesive connection with a baffle, the second connecting block is mutually attached to the connecting rod, the positioning ball is bonded on the second connecting block, the metal electric conduction core is attached to the baffle, and the metal electric conduction core is attached to the first connecting block.

Preferably, the cable shell is made of rubber, and 4 positioning lugs are distributed on the cable shell at equal angles and are arranged in a long strip shape.

Preferably, the upper end of the fixing plate is arranged to be a hollow semicircle, and the fixing plate is provided with 3 through grooves.

Preferably, the first connecting blocks are equidistantly distributed on the inner surface of the heat insulation layer, and grooves with smooth inner surfaces are formed in the first connecting blocks.

Preferably, the baffle is arranged to be long-strip-shaped, and the baffle is in sliding connection with the connecting block through the positioning ball.

Preferably, the radiating pipe is made of aluminum, and dense through holes are formed in the radiating pipe.

Compared with the prior art, the beneficial effects of the utility model are that: according to the high-heat-dissipation composite cable, the heat dissipation device is adopted to quickly dissipate heat of the cable core, and the heat on the cable core is quickly led out by utilizing the characteristic that aluminum can quickly conduct heat, so that potential safety hazards caused by overhigh local temperature of the cable core are avoided;

1. the cable shell can be fixed by installing the fixing plate, so that the cable is prevented from moving when being installed, and the position of the baffle can be changed by moving the positioning ball through the structure consisting of the positioning ball, the connecting rod and the baffle, so that cable cores with different thicknesses can be fixed;

2. can realize insulating against heat between cable core and the cable shell through the insulating layer to avoid the cable core with the too much transmission of heat to the cable shell on, be convenient for dispel the heat to the cable core through the cooling tube.

Drawings

Fig. 1 is a schematic view of a front cross-sectional structure of a cable housing according to the present invention;

FIG. 2 is a schematic view of the top-view cross-sectional structure of the baffle of the present invention;

fig. 3 is a schematic view of the top-view cross-sectional structure of the mounting and fixing plate of the present invention;

FIG. 4 is a schematic view of the top cross-sectional structure of the positioning ball of the present invention;

fig. 5 is a schematic view of the sectional structure of the positioning ball according to the present invention.

In the figure: 1. a cable housing; 2. positioning the bump; 3. a fixing plate; 4. a set screw; 5. an insulating waterproof layer; 6. a thermal insulation layer; 7. a first connection block; 8. a positioning ball; 9. a connecting rod; 10. a baffle plate; 11. a radiating pipe; 12. a second connecting block; 13. a metallic electrically conductive core.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a high heat dissipation composite cable comprises a cable shell 1, a positioning lug 2, a fixing plate 3, a positioning screw 4, an insulating waterproof layer 5, a heat insulation layer 6, a first connecting block 7, a positioning ball 8, a connecting rod 9, a baffle 10, a heat dissipation pipe 11, a second connecting block 12 and a metal conductive core 13, wherein the positioning lug 2 is bonded on the cable shell 1, the positioning lug 2 is mutually attached to the fixing plate 3, the fixing plate 3 is mutually attached to the cable shell 1, the positioning screw 4 is mounted on the fixing plate 3, the outer surface of the insulating waterproof layer 5 is in adhesive connection with the inner surface of the cable shell 1, the inner surface of the insulating waterproof layer 5 is in adhesive connection with the outer surface of the heat insulation layer 6, the first connecting block 7 is mounted on the inner surface of the heat insulation layer 6, the positioning ball 8 is bonded on the first connecting block 7, the connecting rod 9 is bonded on the positioning ball 8, and the, and connecting rod 9 and baffle 10 adhesive connection, second connecting block 12 and connecting rod 9 are laminated each other, and the laminating has location ball 8 on the second connecting block 12 to second connecting block 12 is installed and is gone up the laminating of metal electric conduction core 13 at baffle 10 on cooling tube 11, and metal electric conduction core 13 and first connecting block 7 are laminated each other.

In the embodiment, the cable shell 1 is made of rubber, 4 positioning lugs 2 are distributed on the cable shell 1 at equal angles, the positioning lugs 2 are arranged in a strip shape, the cable shell 1 is made of rubber, so that the internal structure is effectively protected, and the cable shell 1 is fixed on the fixing plate 3 through the 4 positioning lugs 2 distributed on the cable shell 1 at equal angles, so that the cable shell 1 is fixed;

the upper end of the fixing plate 3 is arranged to be a hollow semicircle, the fixing plate 3 is provided with 3 through grooves, the fixing plate 3 is convenient to be better attached to the outer surface of the cable shell 1, and the fixing plate 3 is convenient to be fixed through the 3 through grooves formed in the fixing plate 3;

the first connecting blocks 7 are distributed on the inner surface of the heat insulation layer 6 at equal intervals, grooves with smooth inner surfaces are formed in the first connecting blocks 7, the first connecting blocks 7 are distributed on the inner surface of the heat insulation layer 6 at equal intervals, the metal electric guide core 13 is conveniently supported through the baffle 10, and the positioning balls 8 can better slide in the first connecting blocks 7 through the grooves with smooth inner surfaces formed in the first connecting blocks 7;

the baffle 10 is arranged to be long-strip-shaped, the baffle 10 is in sliding connection with the first connecting block 7 through the positioning ball 8, the baffle 10 is arranged to be long-strip-shaped, the metal electric guide core 13 is conveniently limited through the baffle 10, and the position of the baffle 10 is changed through the sliding of the positioning ball 8;

the cooling tube 11 is the aluminium material, and has seted up intensive through-hole on the cooling tube 11, utilizes the aluminium material to have the characteristic of good heat conductivity, is convenient for carry out quick heat dissipation, through the intensive through-hole who sets up on the cooling tube 11 for the velocity of flow and radiating speed of air.

The working principle is as follows: the groove arranged on the fixing plate 3 in the figure 1 is mutually connected with the positioning lug 2 arranged on the outer surface of the cable shell 1, so that the fixing plate 3 is convenient to fix the cable shell 1, then the positioning screw 4 arranged on the fixing plate 3 is rotated and fixed, the positioning screw 4 is mutually connected with the installation carrier, at the moment, the cable shell 1 is fixed through the fixing plate 3, because the cable shell 1 is provided with the insulating and waterproof layer 5, the insulating and waterproof layer 5 can effectively carry out insulating protection and waterproof protection on the metal electric conducting core 13, the insulating and waterproof layer 5 is made of resin material, so that the phenomena of electric leakage and short circuit are avoided, the heat insulation between the metal electric conducting core 13 and the insulating and waterproof layer 5 can be realized through the heat insulation layer 6, the heat insulation layer 6 is made of aerogel felt material, and the excessive heat is prevented from being transmitted to the insulating and waterproof layer 5 due to the metal electric conducting, resulting in slow heat dissipation;

because metallic electric leads core 13 and baffle 10 and laminates each other in fig. 1, and install connecting rod 9 on the baffle 10 in fig. 2, and install location ball 8 on the connecting rod 9, location ball 8 constitutes sliding connection through the recess that first connecting block 7 and second connecting block 12 seted up and second connecting block 12, so when the metallic electric leads core 13 that needs are different to the thickness supports, only need with baffle 10 about stir can, convenient and fast more, through setting up cooling tube 11 to the aluminium material, be convenient for carry out the rapid transfer to the heat on the metallic electric leads core 13, the intensive through-hole that offers through cooling tube 11 is convenient for the velocity of flow of slider air, accelerate the radiating rate.

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 (6)

1. The utility model provides a high heat dissipation composite cable, includes cable shell (1), insulating waterproof layer (5), connecting rod (9), second connecting block (12) and metal electric conduction core (13), its characterized in that: the cable comprises a cable shell (1), a positioning lug (2) is bonded on the cable shell (1), the positioning lug (2) is bonded with an installation fixing plate (3), the installation fixing plate (3) is bonded with the cable shell (1), a positioning screw (4) is mounted on the fixing plate (3), the outer surface of an insulating and waterproof layer (5) is bonded with the inner surface of the cable shell (1), the inner surface of the insulating and waterproof layer (5) is bonded with the outer surface of a heat insulation layer (6), a first connecting block (7) is mounted on the inner surface of the heat insulation layer (6), a positioning ball (8) is bonded on the first connecting block (7), a connecting rod (9) is bonded on the positioning ball (8), the connecting rod (9) is bonded with the first connecting block (7), the connecting rod (9) is bonded with a baffle (10), a second connecting block (12) is bonded with the connecting rod (9), and the laminating has location ball (8) on second connecting block (12) to second connecting block (12) are installed on cooling tube (11), the laminating of metal electric conduction core (13) is at baffle (10), and metal electric conduction core (13) and first connecting block (7) laminate each other.

2. The high heat dissipation composite cable of claim 1, wherein: the cable shell (1) is made of rubber, 4 positioning lugs (2) are distributed on the cable shell (1) at equal angles, and the positioning lugs (2) are arranged to be long-strip-shaped.

3. The high heat dissipation composite cable of claim 1, wherein: the upper end of the fixing plate (3) is arranged to be a hollow semicircle, and the fixing plate (3) is provided with 3 through grooves.

4. The high heat dissipation composite cable of claim 1, wherein: the first connecting blocks (7) are distributed on the inner surface of the heat insulation layer (6) at equal intervals, and grooves with smooth inner surfaces are formed in the first connecting blocks (7).

5. The high heat dissipation composite cable of claim 1, wherein: the baffle (10) is arranged to be long-strip-shaped, and the baffle (10) is in sliding connection with the first connecting block (7) through the positioning ball (8).

6. The high heat dissipation composite cable of claim 1, wherein: the radiating pipe (11) is made of aluminum, and dense through holes are formed in the radiating pipe (11).

Images