CN212342354U - 3 high-speed transmission data lines of graphite alkene shielding thunder and lightning - Google Patents

Abstract

The utility model discloses a 3 high-speed transmission data lines of graphite alkene shielding thunder and lightning, including first big wire (1), the big wire of second (2), the big wire of third (3), the big wire of fourth (4), the big wire of fifth (5), the big wire of sixth (6), the big wire of seventh (7), eighth wire (9), the big wire of ninth (9), first little wire (10), the little wire of second (11), the little wire of third (12), the little wire of fourth (13), the little wire of fifth (14), the little wire of sixth (15), cotton thread (16), graphite alkene layer (17) and tegument (18), graphite alkene layer (17) are graphite alkene band, twine in all wires outsidely, tegument (18) are in the outside of graphite alkene layer (17). The utility model discloses a graphite alkene band replaces copper to weave shielding material, can make the wire rod external diameter littleer, softer, and the bandwidth can reach 40Gbps simultaneously, and shielding effect weaves equally with copper.

Description

3 high-speed transmission data lines of graphite alkene shielding thunder and lightning

Technical Field

The utility model relates to a data cable technical field, in particular to 3 high-speed transmission data lines of graphite alkene shielding thunder and lightning.

Background

The thunder and lightning 3 high-speed transmission data line supports a thunder and lightning 3 interface and a USB-C interface, and is used for video transmission, data transmission and charging of a new generation Mac notebook computer product of apple company. In the aspect of video transmission, a thunder and lightning 3 High-speed transmission data line can connect a Mac notebook computer to a display screen adopting a thunder and lightning 3 or USB-C interface to play video, and supports video output in an HBR3(displayPort High Bit Rate 3) format. In terms of data transmission, the lightning 3 high-speed transmission data line can connect a Mac notebook computer to a device (such as an external hard disk drive or a base) adopting a lightning 3 or USB-C interface to transmit data, and supports a lightning 3 data transmission rate of up to 40Gbps and a USB 3.1 generation 2 data transmission rate of up to 10Gbps, and also supports a target disk mode. In terms of charging, the lightning 3 high-speed transmission data line can also be connected to a lightning 3 or USB-C device to charge a Mac notebook or other device, which can provide up to 100W of power supply to any device connected.

At present, in order to meet the anti-interference effect of a traditional thunder and lightning 3 data line, a copper braid is generally adopted as a shielding material, the cost is increased due to the copper braid, the wire production process is complex, the outer diameter of the wire is large, the wire is not soft enough, and the experience feeling is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the wire rod external diameter that current thunder and lightning 3 data line exists great, the wire rod production process is complicated, technical problem with high costs, the utility model provides a 3 high-speed transmission data lines of graphite alkene shielding thunder and lightning adopts neotype graphite alkene band to replace traditional copper to weave shielding material, can make the wire rod external diameter littleer, softer, and the bandwidth can reach 40Gbps simultaneously, and the shielding can reach and weave equal effect with copper.

Specifically, the utility model provides a 3 high-speed transmission data lines of graphite alkene shielding thunder and lightning, including first big wire, the big wire of second, the big wire of third, the big wire of fourth, the big wire of fifth, the big wire of sixth, the big wire of seventh, the big wire of eighth, the big wire of ninth, first little wire, the little wire of second, the little wire of third, the little wire of fourth, the little wire of fifth, the little wire of sixth, cotton thread, graphite alkene layer and tegillum, first big wire sets up in the well upper portion of data line, first little wire with the little wire of second pair twist and set up in first big wire below, the cotton thread is two, set up respectively in the left side below and the right side below of first big wire, the big wire of second the big wire of third the little wire of third the big wire of fourth the big wire the fifth big wire the little wire of fourth, The sixth big wire, the seventh big wire, the fifth small wire, the eighth big wire, the ninth big wire and the sixth small wire sequentially surround the first big wire, the first small wire, the second small wire and the cotton thread, the graphene layer is a graphene wrapping tape and is wound outside all the wires and the cotton thread, and the outer layer is arranged outside the graphene layer.

Further, the second large wire, the third large wire, the fourth large wire, the fifth large wire, the sixth large wire, the seventh large wire, the eighth large wire and the ninth large wire all include a core wire, an insulating layer, a winding layer and a wrapping layer, the insulating layer is outside the core wire, the winding layer is outside the insulating layer, and the wrapping layer is outside the winding layer.

Furthermore, the core wire is made of silver-plated copper, the insulating layer is made of ethylene fluoride propylene copolymer, the winding layer is made of tin-plated copper, the wrapping tape layer comprises a copper foil wrapping tape and a hot-melt mylar wrapping tape, and the hot-melt mylar wrapping tape is arranged outside the copper foil wrapping tape.

Further, the colors of the second large wire, the third large wire, the fourth large wire, the fifth large wire, the sixth large wire, the seventh large wire, the eighth large wire and the ninth large wire are green, white, yellow, purple, red, orange, brown and gray in sequence.

Further, the first large wire, the first small wire, the second small wire, the third small wire, the fourth small wire, the fifth small wire and the sixth small wire all comprise a conductor and an external insulating layer, the external insulating layer is arranged outside the conductor, the conductor is made of tin-plated copper, and the external insulating layer is made of ethylene fluoride propylene copolymer.

Further, the first large wire is red in color.

Further, the third small wire, the fourth small wire, the fifth small wire and the sixth small wire are sequentially yellow, blue, red and black in color.

Further, the colors of the first small wire and the second small wire are green and white in sequence.

Furthermore, the material of the outer layer is a thermoplastic elastomer material.

The beneficial effects of the utility model reside in that:

the utility model discloses a neotype graphite alkene band replaces traditional copper to weave shielding material, can make the wire rod external diameter littleer, softer, and the bandwidth can reach 40Gbps simultaneously, and the shielding can reach and weave equivalent effect with the copper.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic sectional structure of the present invention.

Fig. 2 is a schematic diagram of the external structure of the present invention.

The objects, features and advantages of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments, not all embodiments, of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Examples

Referring to fig. 1 and 2, the present invention provides an embodiment of a graphene-shielded lightning 3 high-speed transmission data line, which includes a first big wire 1, a second big wire 2, a third big wire 3, a fourth big wire 4, a fifth big wire 5, a sixth big wire 6, a seventh big wire 7, an eighth big wire 9, a ninth big wire 9, a first small wire 10, a second small wire 11, a third small wire 12, a fourth small wire 13, a fifth small wire 14, a sixth small wire 15, a cotton wire 16, a graphene layer 17 and an outer tegument 18, wherein the first big wire 1 is disposed on the middle upper portion of the data line, the first small wire 10 and the second small wire 11 are twisted in pairs and disposed under the first big wire 1, the cotton wire 16 is two pieces and disposed under the left and right sides of the first big wire 1, the second big wire 2, the third big wire 3, the third small wire 12, the fourth big wire 4, The fifth big wire 5, the fourth small wire 13, the sixth big wire 6, the seventh big wire 7, the fifth small wire 14, the eighth big wire 9, the ninth big wire 9 and the sixth small wire 15 surround the first big wire 1, the first small wire 10, the second small wire 11 and the cotton thread 16 in sequence, the graphene layer 17 is a graphene wrapping tape and is wound outside all the wires and the cotton thread 16, and the outer layer 18 is outside the graphene layer 17.

Further, referring to fig. 1 and 2, the second large wire 2, the third large wire 3, the fourth large wire 4, the fifth large wire 5, the sixth large wire 6, the seventh large wire 7, the eighth large wire 9, and the ninth large wire 9 each include a core wire, an insulating layer, a wrapping layer, and a wrapping layer, the insulating layer is outside the core wire, the wrapping layer is outside the insulating layer, and the wrapping layer is outside the wrapping layer.

Further, referring to fig. 1 and 2, the core wire is made of silver-plated copper, the insulating layer is made of fluorinated ethylene propylene copolymer (FEP), the winding layer is made of tin-plated copper, the wrapping tape layer includes a copper foil wrapping tape and a hot-melt mylar tape, and the hot-melt mylar tape is arranged outside the copper foil wrapping tape.

Further, referring to fig. 1 and 2, the second large wire 2, the third large wire 3, the fourth large wire 4, the fifth large wire 5, the sixth large wire 6, the seventh large wire 7, the eighth large wire 9, and the ninth large wire 9 are sequentially colored green, white, yellow, purple, red, orange, brown, and gray.

Further, referring to fig. 1 and 2, each of the first large wire 1, the first small wire 10, the second small wire 11, the third small wire 12, the fourth small wire 13, the fifth small wire 14 and the sixth small wire 15 includes a conductor and an outer insulating layer, the outer insulating layer is outside the conductor, the conductor is made of tin-plated copper, and the outer insulating layer is made of fluorinated ethylene propylene copolymer (FEP).

Further, referring to fig. 1 and 2, the first large wire 1 is red in color.

Further, referring to fig. 1 and 2, the third small wire 12, the fourth small wire 13, the fifth small wire 14 and the sixth small wire 15 are sequentially colored yellow, blue, red and black.

Further, referring to fig. 1 and 2, the first small wire 10 and the second small wire 11 are sequentially green and white in color.

Further, referring to fig. 1 and 2, the material of the outer layer 18 is thermoplastic elastomer (TPE).

The utility model provides a pair of 3 high-speed transmission data line embodiments of graphite alkene shielding thunder and lightning adopts neotype graphite alkene band to replace traditional copper and weaves shielding material, can make the wire rod external diameter littleer, softer, and the bandwidth can reach 40Gbps simultaneously, and the shielding can reach and weave equal effect with copper.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: it is to be understood that modifications may be made to the above-described arrangements in the embodiments or equivalents may be substituted for some of the features of the embodiments without departing from the spirit or scope of the present invention.

Claims (9)

1. A graphene lightning-shielding 3 high-speed transmission data line is characterized by comprising a first big wire (1), a second big wire (2), a third big wire (3), a fourth big wire (4), a fifth big wire (5), a sixth big wire (6), a seventh big wire (7), an eighth big wire (9), a ninth big wire (9), a first small wire (10), a second small wire (11), a third small wire (12), a fourth small wire (13), a fifth small wire (14), a sixth small wire (15), cotton threads (16), graphene layers (17) and an outer tegument (18), wherein the first big wire (1) is arranged at the middle upper part of the data line, the first small wire (10) and the second small wire (11) are twisted in pair and arranged below the first big wire (1), the cotton threads (16) are arranged at the lower left part and the lower right part of the first big wire (1) respectively, the second big wire (2), the third big wire (3), the third small wire (12), the fourth big wire (4), the fifth big wire (5), the fourth small wire (13), the sixth big wire (6), the seventh big wire (7), the fifth small wire (14), the eighth big wire (9), the ninth big wire (9) and the sixth small wire (15) sequentially surround the first big wire (1), the first small wire (10), the second small wire (11) and the cotton thread (16), the graphene layer (17) is a graphene wrapping tape and is wound outside all wires and the cotton thread (16), and the outer tegument (18) is outside the graphene layer (17).

2. The graphene-shielded lightning 3 high-speed transmission data line according to claim 1, wherein the second large wire (2), the third large wire (3), the fourth large wire (4), the fifth large wire (5), the sixth large wire (6), the seventh large wire (7), the eighth large wire (9) and the ninth large wire (9) each comprise a core wire, an insulating layer, a winding layer and a wrapping layer, the insulating layer is outside the core wire, the winding layer is outside the insulating layer, and the wrapping layer is outside the winding layer.

3. The graphene lightning-shielding 3 high-speed transmission data line according to claim 2, wherein the core wire is made of silver-plated copper, the insulating layer is made of fluorinated ethylene propylene copolymer, the winding layer is made of tin-plated copper, the wrapping tape layer comprises a copper foil wrapping tape and a hot-melt mylar wrapping tape, and the hot-melt mylar wrapping tape is arranged outside the copper foil wrapping tape.

4. The graphene-shielded lightning 3 high-speed transmission data line according to claim 3, wherein the second large wire (2), the third large wire (3), the fourth large wire (4), the fifth large wire (5), the sixth large wire (6), the seventh large wire (7), the eighth large wire (9) and the ninth large wire (9) are green, white, yellow, purple, red, orange, brown and gray in color in sequence.

5. The graphene-shielded lightning 3 high-speed transmission data line according to claim 1, wherein the first large conducting wire (1), the first small conducting wire (10), the second small conducting wire (11), the third small conducting wire (12), the fourth small conducting wire (13), the fifth small conducting wire (14) and the sixth small conducting wire (15) comprise a conductor and an external insulating layer, the external insulating layer is arranged outside the conductor, the conductor is made of tin-plated copper, and the external insulating layer is made of ethylene fluoride propylene copolymer.

6. The graphene-shielded lightning 3 high-speed transmission data line according to claim 5, wherein the first large conductor (1) is red in color.

7. The graphene-shielded lightning 3 high-speed transmission data line according to claim 5, wherein the third small wire (12), the fourth small wire (13), the fifth small wire (14) and the sixth small wire (15) are yellow, blue, red and black in color in sequence.

8. The graphene-shielded lightning 3 high-speed transmission data line according to claim 5, wherein the first small wire (10) and the second small wire (11) are green and white in color in sequence.

9. The graphene-shielded lightning 3 high-speed transmission data line according to claim 1, wherein the material of the outer coating (18) is a thermoplastic elastomer material.

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