CN212516672U - Three-core structure heat dissipation cable and heat dissipation part - Google Patents

Abstract

The application belongs to the technical field of cables, and relates to a three-core structure heat dissipation cable which is provided with three power transmission units, a reinforcing part and a heat dissipation part, wherein each power transmission unit consists of a conductor and an insulating layer coated outside the conductor; the electric heating radiator is characterized in that the radiating part is of an integrated structure and has a special structure, the electric unit is positioned in a radiating hole of the radiating part, and the reinforcing part is positioned in a reinforcing hole of the radiating part. A three-core structured heat dissipating component is also claimed and disclosed. The utility model discloses following main beneficial effect has: the structure is more reliable and more stable, the heat dissipation is more convenient, more effective, the effect is better, the operating efficiency is higher, the cost is more saved.

Description

Three-core structure heat dissipation cable and heat dissipation part

Technical Field

The utility model belongs to the technical field of the cable, especially, relate to a three-core structure heat dissipation cable and radiating part.

Background

CN111276284A discloses an easy-to-dissipate heat cable, which includes a frame structure, a first power transmission unit, a second power transmission unit, and a third power transmission unit, and is characterized in that the frame structure is composed of a first clamping member, a second clamping member, a third clamping member, a fourth clamping member, a first engaging member, and a second engaging member, the first clamping member and the second clamping member are disposed opposite to each other, and one end of the first clamping member and one end of the second clamping member are integrally connected. Compared with the prior art, the stripping device has the advantages of more convenient stripping, better heat dissipation effect, more conductor use, no need of a stripping tool with a large opening, lighter weight, lower cost, flexibility, stronger compressive resistance, lighter weight, softer property, lower cost and firmer and more reliable fixation of a transmission conductor. However, it also has the following drawbacks: insufficient tensile resistance; are not suitable for use in three-phase power transmission; the clamping member is difficult to clamp the power transmission unit after losing elasticity.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention discloses a heat dissipation cable and a heat dissipation component with a three-core structure, which are implemented by the following technical solutions.

A three-core structure heat dissipation cable comprises a first power transmission unit, a second power transmission unit, a third power transmission unit, a reinforcing piece and a heat dissipation part, wherein the first power transmission unit is composed of a first conductor and a first insulation layer coated outside the first conductor, the second power transmission unit is composed of a second conductor and a second insulation layer coated outside the second conductor, and the third power transmission unit is composed of a third conductor and a third insulation layer coated outside the third conductor; the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the center of the heat dissipation component is provided with a reinforcing hole; the first power transmission unit is located in the first heat dissipation hole, the second power transmission unit is located in the second heat dissipation hole, the third power transmission unit is located in the third heat dissipation hole, and the reinforcing piece is located in the reinforcing hole.

A three-core structure heat dissipation cable comprises a first power transmission unit, a second power transmission unit, a third power transmission unit, a reinforcing piece and a heat dissipation part, wherein the first power transmission unit is composed of a first conductor and a first insulation layer coated outside the first conductor, the second power transmission unit is composed of a second conductor and a second insulation layer coated outside the second conductor, and the third power transmission unit is composed of a third conductor and a third insulation layer coated outside the third conductor; the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port; the center of the heat dissipation component is provided with a reinforcing hole; the first power transmission unit is located in the first heat dissipation hole, the second power transmission unit is located in the second heat dissipation hole, the third power transmission unit is located in the third heat dissipation hole, and the reinforcing piece is located in the reinforcing hole.

A three-core structure heat dissipation cable comprises a first power transmission unit, a second power transmission unit, a third power transmission unit and a heat dissipation component, wherein the first power transmission unit is composed of a first conductor and a first insulating layer coated outside the first conductor, the second power transmission unit is composed of a second conductor and a second insulating layer coated outside the second conductor, and the third power transmission unit is composed of a third conductor and a third insulating layer coated outside the third conductor; the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port; the first power transmission unit is located in the first heat dissipation hole, the second power transmission unit is located in the second heat dissipation hole, and the third power transmission unit is located in the third heat dissipation hole.

The heat dissipation cable with the three-core structure is characterized in that one end of the first elastic component is bonded with the first clamping component, and the other end of the first elastic component is bonded with the third clamping component; one end of the second elastic component is bonded with the fourth clamping component, and the other end of the second elastic component is bonded with the fifth clamping component; one end of the third elastic component is bonded with the sixth clamping component, and the other end of the third elastic component is bonded with the first clamping component.

The heat dissipation cable with the three-core structure is characterized in that the first elastic parts are springs distributed dispersedly.

The three-core structure heat dissipation cable is characterized in that when the first elastic component is springs distributed in a dispersed manner, one end of each spring is fixed on the first transverse bar, the other end of each spring is fixed on the second transverse bar, the first transverse bar is bonded with the first clamping component, the second transverse bar is bonded with the third clamping component, and all the springs are distributed in a parallel manner.

The heat dissipation cable with the three-core structure is characterized in that the second elastic parts are springs distributed dispersedly.

When the second elastic component is springs distributed in a dispersed manner, one end of each spring is fixed on the third transverse bar, the other end of each spring is fixed on the fourth transverse bar, the third transverse bar is bonded with the fourth clamping component, the fourth transverse bar is bonded with the fifth clamping component, and all the springs are distributed in a parallel manner.

The heat dissipation cable with the three-core structure is characterized in that the third elastic component is a spring which is distributed dispersedly.

When the third elastic component is springs distributed in a dispersed manner, one end of each spring is fixed on the fifth transverse bar, the other end of each spring is fixed on the sixth transverse bar, the fifth transverse bar is bonded with the sixth clamping component, the sixth transverse bar is bonded with the first clamping component, and all the springs are distributed in a parallel manner.

The heat dissipation cable with the three-core structure is characterized in that the first elastic component can also be an elastic strip with strong elasticity.

The heat dissipation cable with the three-core structure is characterized in that one end of the first clamping component, one end of the second clamping component, one end of the third clamping component, one end of the fourth clamping component, one end of the fifth clamping component and one end of the sixth clamping component are located on the same cylindrical surface.

The heat dissipation cable with the three-core structure is characterized in that the material of the first conductor is copper or aluminum or an alloy.

The three-core structure heat dissipation cable is characterized in that the first insulating layer is made of polypropylene, polybutylene terephthalate, low-density polyethylene, medium-density polyethylene, high-density polyethylene, low-smoke halogen-free polyethylene, low-smoke low-halogen polyethylene, polyvinyl chloride, nylon, polytetrafluoroethylene, TPE or TPU.

The heat dissipation cable with the three-core structure is characterized in that the material of the second conductor is copper or aluminum or an alloy.

The three-core structure heat dissipation cable is characterized in that the second insulating layer is made of polypropylene, polybutylene terephthalate, low-density polyethylene, medium-density polyethylene, high-density polyethylene, low-smoke halogen-free polyethylene, low-smoke low-halogen polyethylene, polyvinyl chloride, nylon, polytetrafluoroethylene, TPE or TPU.

The heat dissipation cable with the three-core structure is characterized in that the material of the third conductor is copper or aluminum or an alloy.

The three-core structure heat dissipation cable is characterized in that the third insulating layer is made of polypropylene, polybutylene terephthalate, low-density polyethylene, medium-density polyethylene, high-density polyethylene, low-smoke halogen-free polyethylene, low-smoke low-halogen polyethylene, polyvinyl chloride, nylon, polytetrafluoroethylene, TPE or TPU.

The heat dissipation cable with the three-core structure is characterized in that the diameter of the first power transmission unit is larger than the width of the first opening.

The heat dissipation cable with the three-core structure is characterized in that the diameter of the second power transmission unit is larger than the width of the second opening.

The heat dissipation cable with the three-core structure is characterized in that the diameter of the third power transmission unit is larger than the width of the third opening.

The three-core structure heat dissipation cable is characterized in that the reinforcing member is made of copper or iron or steel or glass fiber reinforced plastic.

The three-core structure heat dissipation cable is characterized in that the first insulation layer, the second insulation layer and the third insulation layer have at least two different colors.

A three-core structure heat dissipation component is characterized in that the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the heat dissipation member has a reinforcing hole in the center.

A three-core structure heat dissipation component is characterized in that the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port; the heat dissipation member has a reinforcing hole in the center.

A three-core structure heat dissipation component is characterized in that the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port.

The utility model discloses following main beneficial effect has: the structure is more reliable and more stable, the heat dissipation is more convenient, more effective, the effect is better, the operating efficiency is higher, the cost is more saved.

Drawings

Fig. 1 is a schematic perspective view of a dissected segment of the example 1.

Fig. 2 is an enlarged cross-sectional structure diagram of fig. 1.

Fig. 3 is a schematic perspective view of a heat dissipating member used in example 1 after a certain period of dissection.

Fig. 4 is an enlarged cross-sectional view of fig. 3.

Fig. 5 is a schematic perspective view of a section of an anatomical butterfly member used in the practice of example 2.

Fig. 6 is an enlarged cross-sectional view of fig. 5.

Fig. 7 is a schematic cross-sectional view of a heat dissipating member used in example 2.

Fig. 8 is a schematic cross-sectional view of a heat dissipating member used in example 3.

In order that those skilled in the art will more accurately and clearly understand and practice the present application, reference is now made to the following descriptions taken in conjunction with the accompanying drawings, in which: 1-first power transmission unit, 2-second power transmission unit, 3-third power transmission unit, 4-reinforcement, 5-heat dissipation member, 11-first conductor, 12-first insulating layer, 21-second conductor, 22-second insulating layer, 31-third conductor, 32-third insulating layer, 40-reinforcing hole, 101-first engaging member, 102-second engaging member, 103-first opening, 104-first heat dissipation hole, 112-first engaging groove, 113-first elastic member, 201-third engaging member, 202-fourth engaging member, 203-second opening, 204-second heat dissipation hole, 212-second engaging groove, 213-second elastic member, 301-fifth engaging member, 302-sixth engaging member, 303-third opening, 304-third engaging groove, 311-sixth groove, 312-third engaging groove, 313-third elastic member.

Detailed Description

Examples 1

Referring to fig. 1 to 4, a three-core heat dissipation cable includes a first power transmission unit 1, a second power transmission unit 2, a third power transmission unit 3, a reinforcing member 4, and a heat dissipation member 5, where the first power transmission unit 1 is composed of a first conductor 11 and a first insulating layer 12 covering the first conductor, the second power transmission unit 2 is composed of a second conductor 21 and a second insulating layer 22 covering the second conductor, and the third power transmission unit 3 is composed of a third conductor 31 and a third insulating layer 32 covering the third conductor; the heat dissipation member 5 is of an integrated structure and is composed of a first engaging member 101, a second engaging member 102, a third engaging member 201, a fourth engaging member 202, a fifth engaging member 301 and a sixth engaging member 302; one end of the first clamping component 101 and one end of the second clamping component 102 are not contacted with each other and form a first opening 103, a first heat radiation hole 104 is formed inside the first clamping component 101 and the second clamping component 102, and the first heat radiation hole 104 is communicated with the first opening 103; one end of the third clamping component 201 and one end of the fourth clamping component 202 are not contacted with each other and form a second opening 203, a second heat dissipation hole 204 is formed inside the third clamping component 201 and the fourth clamping component 202, and the second heat dissipation hole 204 is communicated with the second opening 203; one end of the fifth clamping component 301 and one end of the sixth clamping component 302 are not contacted with each other and form a third opening 303, a third heat radiation hole 304 is formed inside the fifth clamping component 301 and the sixth clamping component 302, and the third heat radiation hole 304 is communicated with the third opening 303; the other ends of the first clamping member 101, the second clamping member 102, the third clamping member 201, the fourth clamping member 202, the fifth clamping member 301 and the sixth clamping member 302 are connected, a first sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the first clamping member 101 and the outer edge of the third clamping member 201, a second sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the fourth clamping member 202 and the outer edge of the fifth clamping member 301, and a third sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the sixth clamping member 302 and the outer edge of the second clamping member 102; the heat dissipation member has a reinforcing hole 40 at the center; the first power transmission unit 1 is located in the first heat dissipation hole 104, the second power transmission unit 2 is located in the second heat dissipation hole 204, the third power transmission unit 3 is located in the third heat dissipation hole 304, and the reinforcement member 4 is located in the reinforcement hole 40.

The heat dissipation cable with the three-core structure is characterized in that one ends of the first clamping component 101, the second clamping component 102, the third clamping component 201, the fourth clamping component 202, the fifth clamping component 301 and the sixth clamping component 302 are on the same cylindrical surface a.

The heat dissipation cable with the three-core structure is characterized in that the material of the first conductor is copper or aluminum or an alloy.

The three-core structure heat dissipation cable is characterized in that the first insulating layer is made of polypropylene, polybutylene terephthalate, low-density polyethylene, medium-density polyethylene, high-density polyethylene, low-smoke halogen-free polyethylene, low-smoke low-halogen polyethylene, polyvinyl chloride, nylon, polytetrafluoroethylene, TPE or TPU.

The heat dissipation cable with the three-core structure is characterized in that the material of the second conductor is copper or aluminum or an alloy.

The three-core structure heat dissipation cable is characterized in that the second insulating layer is made of polypropylene, polybutylene terephthalate, low-density polyethylene, medium-density polyethylene, high-density polyethylene, low-smoke halogen-free polyethylene, low-smoke low-halogen polyethylene, polyvinyl chloride, nylon, polytetrafluoroethylene, TPE or TPU.

The heat dissipation cable with the three-core structure is characterized in that the material of the third conductor is copper or aluminum or an alloy.

The three-core structure heat dissipation cable is characterized in that the third insulating layer is made of polypropylene, polybutylene terephthalate, low-density polyethylene, medium-density polyethylene, high-density polyethylene, low-smoke halogen-free polyethylene, low-smoke low-halogen polyethylene, polyvinyl chloride, nylon, polytetrafluoroethylene, TPE or TPU.

The heat dissipation cable with the three-core structure is characterized in that the diameter of the first power transmission unit is larger than the width of the first opening.

The heat dissipation cable with the three-core structure is characterized in that the diameter of the second power transmission unit is larger than the width of the second opening.

The heat dissipation cable with the three-core structure is characterized in that the diameter of the third power transmission unit is larger than the width of the third opening.

The three-core structure heat dissipation cable is characterized in that the reinforcing member is made of copper or iron or steel or glass fiber reinforced plastic.

The three-core structure heat dissipation cable is characterized in that the first insulation layer, the second insulation layer and the third insulation layer have at least two different colors.

EXAMPLES example 2

Referring to fig. 5, 6, and 7, and fig. 1 to 4, a three-core heat dissipation cable is substantially the same as embodiment 1 except for the heat dissipation member.

A three-core structure heat dissipation cable comprises a first power transmission unit 1, a second power transmission unit 2, a third power transmission unit 3, a reinforcing member 4 and a heat dissipation member 5, wherein the first power transmission unit 1 is composed of a first conductor 11 and a first insulating layer 12 coated outside the first conductor, the second power transmission unit 2 is composed of a second conductor 21 and a second insulating layer 22 coated outside the second conductor, and the third power transmission unit 3 is composed of a third conductor 31 and a third insulating layer 32 coated outside the third conductor; the heat dissipation member 5 is of an integrated structure and is composed of a first engaging member 101, a second engaging member 102, a third engaging member 201, a fourth engaging member 202, a fifth engaging member 301 and a sixth engaging member 302; one end of the first clamping component 101 and one end of the second clamping component 102 are not contacted with each other and form a first opening 103, a first heat radiation hole 104 is formed inside the first clamping component 101 and the second clamping component 102, and the first heat radiation hole 104 is communicated with the first opening 103; one end of the third clamping component 201 and one end of the fourth clamping component 202 are not contacted with each other and form a second opening 203, a second heat dissipation hole 204 is formed inside the third clamping component 201 and the fourth clamping component 202, and the second heat dissipation hole 204 is communicated with the second opening 203; one end of the fifth clamping component 301 and one end of the sixth clamping component 302 are not contacted with each other and form a third opening 303, a third heat radiation hole 304 is formed inside the fifth clamping component 301 and the sixth clamping component 302, and the third heat radiation hole 304 is communicated with the third opening 303; the other ends of the first clamping member 101, the second clamping member 102, the third clamping member 201, the fourth clamping member 202, the fifth clamping member 301 and the sixth clamping member 302 are connected, a first sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the first clamping member 101 and the outer edge of the third clamping member 201, a second sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the fourth clamping member 202 and the outer edge of the fifth clamping member 301, and a third sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the sixth clamping member 302 and the outer edge of the second clamping member 102; the first clamping part 101 is provided with a first groove, the second clamping part 102 is provided with a second groove, the third clamping part 201 is provided with a third groove, the fourth clamping part 202 is provided with a fourth groove, the fifth clamping part 301 is provided with a fifth groove, the sixth clamping part 302 is provided with a sixth groove 311, the first groove corresponds to the third groove, a first elastic part 113 is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part 213 is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part 313 is arranged between the sixth groove and the first groove, a first clamping groove 112 is arranged below the first sunken opening, a second clamping groove 212 is arranged below the second sunken opening, and a third clamping groove 312 is arranged below the third sunken opening; the heat dissipation member has a reinforcing hole 40 at the center; the first power transmission unit 1 is located in the first heat dissipation hole 104, the second power transmission unit 2 is located in the second heat dissipation hole 204, the third power transmission unit 3 is located in the third heat dissipation hole 304, and the reinforcement member 4 is located in the reinforcement hole 40.

EXAMPLE 3

Referring to fig. 8 and fig. 1 to 7, a three-core heat dissipation cable is substantially the same as embodiment 2, except that the heat dissipation member is not provided with a heat dissipation member, and the three-core heat dissipation cable is not provided with a reinforcement member.

A three-core structure heat dissipation cable comprises a first power transmission unit 1, a second power transmission unit 2, a third power transmission unit 3 and a heat dissipation component 5, wherein the first power transmission unit 1 is composed of a first conductor 11 and a first insulating layer 12 coated outside the first conductor, the second power transmission unit 2 is composed of a second conductor 21 and a second insulating layer 22 coated outside the second conductor, and the third power transmission unit 3 is composed of a third conductor 31 and a third insulating layer 32 coated outside the third conductor; the heat dissipation member 5 is of an integrated structure and is composed of a first engaging member 101, a second engaging member 102, a third engaging member 201, a fourth engaging member 202, a fifth engaging member 301 and a sixth engaging member 302; one end of the first clamping component 101 and one end of the second clamping component 102 are not contacted with each other and form a first opening 103, a first heat radiation hole 104 is formed inside the first clamping component 101 and the second clamping component 102, and the first heat radiation hole 104 is communicated with the first opening 103; one end of the third clamping component 201 and one end of the fourth clamping component 202 are not contacted with each other and form a second opening 203, a second heat dissipation hole 204 is formed inside the third clamping component 201 and the fourth clamping component 202, and the second heat dissipation hole 204 is communicated with the second opening 203; one end of the fifth clamping component 301 and one end of the sixth clamping component 302 are not contacted with each other and form a third opening 303, a third heat radiation hole 304 is formed inside the fifth clamping component 301 and the sixth clamping component 302, and the third heat radiation hole 304 is communicated with the third opening 303; the other ends of the first clamping member 101, the second clamping member 102, the third clamping member 201, the fourth clamping member 202, the fifth clamping member 301 and the sixth clamping member 302 are connected, a first sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the first clamping member 101 and the outer edge of the third clamping member 201, a second sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the fourth clamping member 202 and the outer edge of the fifth clamping member 301, and a third sunken opening sunken towards the center of the heat dissipation member is formed between the outer edge of the sixth clamping member 302 and the outer edge of the second clamping member 102; the first clamping part 101 is provided with a first groove, the second clamping part 102 is provided with a second groove, the third clamping part 201 is provided with a third groove, the fourth clamping part 202 is provided with a fourth groove, the fifth clamping part 301 is provided with a fifth groove, the sixth clamping part 302 is provided with a sixth groove 311, the first groove corresponds to the third groove, a first elastic part 113 is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part 213 is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part 313 is arranged between the sixth groove and the first groove, a first clamping groove 112 is arranged below the first sunken opening, a second clamping groove 212 is arranged below the second sunken opening, and a third clamping groove 312 is arranged below the third sunken opening; the first power transmission unit 1 is located in the first heat dissipation hole 104, the second power transmission unit 2 is located in the second heat dissipation hole 204, and the third power transmission unit 3 is located in the third heat dissipation hole 304.

The heat dissipation cable with the three-core structure is characterized in that one end of the first elastic component is bonded with the first clamping component, and the other end of the first elastic component is bonded with the third clamping component; one end of the second elastic component is bonded with the fourth clamping component, and the other end of the second elastic component is bonded with the fifth clamping component; one end of the third elastic component is bonded with the sixth clamping component, and the other end of the third elastic component is bonded with the first clamping component.

The heat dissipation cable with the three-core structure is characterized in that the first elastic parts are springs distributed dispersedly.

The three-core structure heat dissipation cable is characterized in that when the first elastic component is springs distributed in a dispersed manner, one end of each spring is fixed on the first transverse bar, the other end of each spring is fixed on the second transverse bar, the first transverse bar is bonded with the first clamping component, the second transverse bar is bonded with the third clamping component, and all the springs are distributed in a parallel manner.

The heat dissipation cable with the three-core structure is characterized in that the second elastic parts are springs distributed dispersedly.

When the second elastic component is springs distributed in a dispersed manner, one end of each spring is fixed on the third transverse bar, the other end of each spring is fixed on the fourth transverse bar, the third transverse bar is bonded with the fourth clamping component, the fourth transverse bar is bonded with the fifth clamping component, and all the springs are distributed in a parallel manner.

The heat dissipation cable with the three-core structure is characterized in that the third elastic component is a spring which is distributed dispersedly.

When the third elastic component is springs distributed in a dispersed manner, one end of each spring is fixed on the fifth transverse bar, the other end of each spring is fixed on the sixth transverse bar, the fifth transverse bar is bonded with the sixth clamping component, the sixth transverse bar is bonded with the first clamping component, and all the springs are distributed in a parallel manner.

The heat dissipation cable with the three-core structure is characterized in that the first elastic component can also be an elastic strip with strong elasticity.

In the application, the heat dissipation part is specially structured, and particularly the first opening, the second opening and the third opening exist, so that the heat generated by the power transmission unit can be dissipated from the openings, and the heat dissipation effect is improved; on the basis of the application, a plurality of protective layers are coated outside, and one ends of the first clamping component 101, the second clamping component 102, the third clamping component 201, the fourth clamping component 202, the fifth clamping component 301 and the sixth clamping component 302 are positioned on the same cylindrical surface a, so that the product is more round and more convenient to coat.

In the application, the opening not only enables the heat dissipation to be more convenient and more effective, and the effect to be better, but also enables the checking and construction personnel to take out the power transmission unit only by breaking off the clamping component during checking, continuing and the like, and does not need special tools such as knives and the like, so that the operation efficiency is higher; meanwhile, if part of the power transmission units are damaged, the power transmission units can be conveniently taken out for repair or replacement, and the whole cable does not need to be scrapped, so that the cost is greatly saved.

The cable in the application can be sold and used as a product; similarly, the heat dissipation component can be sold and used as a product; the user can purchase the heat dissipation member and the power transmission unit separately and assemble the heat dissipation member and the power transmission unit when the heat dissipation member and the power transmission unit are used.

The elastic component in the application ensures that the shape of the formed heat dissipation hole is kept stable, and if the clamping component is broken off, the elastic component returns the clamping component to effectively clamp the power transmission unit.

The size of the opening ensures that the power transmission unit cannot escape from the opening under normal conditions, non-excessive torsion, force application and the like, and the stability and reliability of the structure are ensured.

The utility model discloses following main beneficial effect has: the structure is more reliable and more stable, the heat dissipation is more convenient, more effective, the effect is better, the operating efficiency is higher, the cost is more saved.

The above-mentioned embodiments are merely preferred technical solutions of the present invention, and should not be construed as limitations of the present invention. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (10)

1. A three-core structure heat dissipation cable comprises a first power transmission unit, a second power transmission unit, a third power transmission unit, a reinforcing piece and a heat dissipation part, wherein the first power transmission unit is composed of a first conductor and a first insulation layer coated outside the first conductor, the second power transmission unit is composed of a second conductor and a second insulation layer coated outside the second conductor, and the third power transmission unit is composed of a third conductor and a third insulation layer coated outside the third conductor; the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the center of the heat dissipation component is provided with a reinforcing hole; the first power transmission unit is located in the first heat dissipation hole, the second power transmission unit is located in the second heat dissipation hole, the third power transmission unit is located in the third heat dissipation hole, and the reinforcing piece is located in the reinforcing hole.

2. The heat dissipation cable with three-core structure as claimed in claim 1, wherein one end of the first engaging member, the second engaging member, the third engaging member, the fourth engaging member, the fifth engaging member, and the sixth engaging member are on the same cylindrical surface.

3. A three-core structure heat-dissipating cable according to claim 1, wherein the material of the first conductor is copper or aluminum or an alloy; the first insulating layer is made of polypropylene or polybutylene terephthalate or low-density polyethylene or medium-density polyethylene or high-density polyethylene or low-smoke halogen-free polyethylene or low-smoke low-halogen polyethylene or polyvinyl chloride or nylon or polytetrafluoroethylene or TPE or TPU; the material of the second conductor is copper or aluminum or an alloy; the second insulating layer is made of polypropylene or polybutylene terephthalate or low-density polyethylene or medium-density polyethylene or high-density polyethylene or low-smoke halogen-free polyethylene or low-smoke low-halogen polyethylene or polyvinyl chloride or nylon or polytetrafluoroethylene or TPE or TPU; the material of the third conductor is copper or aluminum or an alloy; the third insulating layer is made of polypropylene or polybutylene terephthalate or low-density polyethylene or medium-density polyethylene or high-density polyethylene or low-smoke halogen-free polyethylene or low-smoke low-halogen polyethylene or polyvinyl chloride or nylon or polytetrafluoroethylene or TPE or TPU.

4. A three-core structure heat dissipation cable according to claim 1, wherein the diameter of the first power transmission unit is larger than the width of the first opening; the diameter of the second power transmission unit is larger than the width of the second opening; the diameter of the third power transmission unit is larger than the width of the third opening.

5. A three-core structured heat dissipating cable according to claim 1, wherein the material of the reinforcing member is copper or iron or steel or glass fiber reinforced plastic.

6. A three-core structure heat dissipation cable comprises a first power transmission unit, a second power transmission unit, a third power transmission unit, a reinforcing piece and a heat dissipation part, wherein the first power transmission unit is composed of a first conductor and a first insulation layer coated outside the first conductor, the second power transmission unit is composed of a second conductor and a second insulation layer coated outside the second conductor, and the third power transmission unit is composed of a third conductor and a third insulation layer coated outside the third conductor; the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port; the center of the heat dissipation component is provided with a reinforcing hole; the first power transmission unit is located in the first heat dissipation hole, the second power transmission unit is located in the second heat dissipation hole, the third power transmission unit is located in the third heat dissipation hole, and the reinforcing piece is located in the reinforcing hole.

7. A three-core structure heat dissipation cable comprises a first power transmission unit, a second power transmission unit, a third power transmission unit and a heat dissipation component, wherein the first power transmission unit is composed of a first conductor and a first insulating layer coated outside the first conductor, the second power transmission unit is composed of a second conductor and a second insulating layer coated outside the second conductor, and the third power transmission unit is composed of a third conductor and a third insulating layer coated outside the third conductor; the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port; the first power transmission unit is located in the first heat dissipation hole, the second power transmission unit is located in the second heat dissipation hole, and the third power transmission unit is located in the third heat dissipation hole.

8. The heat dissipating cable with three-core structure as claimed in claim 7, wherein one end of the first elastic member is bonded to the first engaging member, and the other end of the first elastic member is bonded to the third engaging member; one end of the second elastic component is bonded with the fourth clamping component, and the other end of the second elastic component is bonded with the fifth clamping component; one end of the third elastic component is bonded with the sixth clamping component, and the other end of the third elastic component is bonded with the first clamping component; the first elastic parts are springs which are distributed dispersedly; one end of the spring is fixed on the first transverse bar, the other end of the spring is fixed on the second transverse bar, the first transverse bar is bonded with the first clamping part, the second transverse bar is bonded with the third clamping part, and all the springs are distributed in a parallel mode; the second elastic parts are springs distributed in a dispersed manner, one end of each spring is fixed on the third transverse strip, the other end of each spring is fixed on the fourth transverse strip, the third transverse strip is bonded with the fourth clamping part, the fourth transverse strip is bonded with the fifth clamping part, and all the springs are distributed in a parallel manner; the third elastic part is springs distributed in a dispersed mode one by one, one end of each spring is fixed to the fifth transverse strip, the other end of each spring is fixed to the sixth transverse strip, the fifth transverse strip is bonded with the sixth clamping part, the sixth transverse strip is bonded with the first clamping part, and all the springs are distributed in a parallel mode.

9. A three-core structure heat dissipation component is characterized in that the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the heat dissipation member has a reinforcing hole in the center.

10. A three-core structure heat dissipation component is characterized in that the heat dissipation component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port; the center of the heat dissipation component is provided with a reinforcing hole;

or the heat radiating component is of an integrated structure and consists of a first clamping component, a second clamping component, a third clamping component, a fourth clamping component, a fifth clamping component and a sixth clamping component; one end of the first clamping component and one end of the second clamping component are not contacted and form a first opening, first heat dissipation holes are formed in the first clamping component and the second clamping component, and the first heat dissipation holes are communicated with the first opening; one end of the third clamping component and one end of the fourth clamping component are not contacted and form a second opening, and second heat dissipation holes are formed in the third clamping component and the fourth clamping component and communicated with the second opening; one end of the fifth clamping component and one end of the sixth clamping component are not contacted with each other and form a third opening, third heat dissipation holes are formed in the fifth clamping component and the sixth clamping component, and the third heat dissipation holes are communicated with the third opening; the other ends of the first clamping component, the second clamping component, the third clamping component, the fourth clamping component, the fifth clamping component and the sixth clamping component are connected, a first sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the first clamping component and the outer edge of the third clamping component, a second sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the fourth clamping component and the outer edge of the fifth clamping component, and a third sunken port sunken to the center of the heat dissipation component is formed between the outer edge of the sixth clamping component and the outer edge of the second clamping component; the first clamping part is provided with a first groove, the second clamping part is provided with a second groove, the third clamping part is provided with a third groove, the fourth clamping part is provided with a fourth groove, the fifth clamping part is provided with a fifth groove, the sixth clamping part is provided with a sixth groove, the first groove corresponds to the third groove, a first elastic part is arranged between the first groove and the third groove, the fourth groove corresponds to the fifth groove, a second elastic part is arranged between the fourth groove and the fifth groove, the sixth groove corresponds to the first groove, a third elastic part is arranged between the sixth groove and the first groove, a first clamping groove is arranged below the first sunken port, a second clamping groove is arranged below the second sunken port, and a third clamping groove is arranged below the third sunken port.

Images