CN211265106U - High-speed transmission cable with novel structure - Google Patents

High-speed transmission cable with novel structure Download PDF

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Publication number
CN211265106U
CN211265106U CN201922103351.6U CN201922103351U CN211265106U CN 211265106 U CN211265106 U CN 211265106U CN 201922103351 U CN201922103351 U CN 201922103351U CN 211265106 U CN211265106 U CN 211265106U
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layer
conductor
shielding layer
insulating layer
wire rod
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李清
房文琛
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Hibest Electronic Co ltd
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Hibest Electronic Co ltd
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Abstract

The utility model discloses a high-speed transmission cable of new construction, including wire rod monomer, main shielding layer and outer quilt, the wire rod monomer is a plurality of, every the wire rod monomer is two ground wire rod monomers, two first strenghthened type wire rod monomers of ground wire, two ground wire second strenghthened type wire rod monomers, single ground wire rod monomer or the anti one of swaing the wire rod monomer, all the wire rod monomer all is located the main shielding layer, the main shielding layer is lived in the parcel outward. The utility model discloses can be applicable to the high-speed transmission of data, and its inside wire rod monomer can set up to the wire rod monomer of isostructure as required to adapt to different environmental needs and user demand, thereby can improve as far as the utility model discloses a price/performance ratio. But also can suitably adjust according to the ground wire quantity of needs the utility model discloses the wire rod monomer of inside selection further improves the utility model discloses a general nature.

Description

High-speed transmission cable with novel structure
Technical Field
The utility model relates to a cable design field especially relates to a high-speed transmission cable of new construction.
Background
The cable is mainly used for data transmission, and a plurality of wire rod monomers are arranged in a common cable so as to realize high-speed transmission of a large amount of data. And the common cable is composed of single wires with the same structure.
However, the cable with the structure has single physical property, and is difficult to meet different application environments and user requirements, for example, all the wire monomers inside the cable are low-strength wire monomers, which can result in that the cable cannot be applied to a working environment with strong external pressure, and if all the wire monomers inside the cable are high-strength wire monomers, the manufacturing cost of the cable is high, and the cable is low in cost performance when applied to a working environment with low external pressure. On the other hand, the number of the ground wires of each wire rod in the cable with the structure is fixed, and the special ground wire requirements of users are difficult to meet.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high-speed transmission cable of new construction can solve one or more of above-mentioned problem.
According to the utility model discloses an aspect provides a high-speed transmission cable of new construction, including wire rod monomer, main shielding layer and outer quilt, the wire rod monomer is a plurality of, every the wire rod monomer is two ground wire rod monomers, two ground wire first strenghthened type wire rod monomers, two ground wire second strenghthened type wire rod monomers, single ground wire rod monomer or the anti wire rod monomer that sways one kind, all the wire rod monomer all is located main shielding layer, outer quilt parcel live main shielding layer.
The utility model has the advantages that: the utility model discloses can be applicable to the high-speed transmission of data, and its inside wire rod monomer can set up to the wire rod monomer of isostructure as required to adapt to different environmental needs and user demand, thereby can improve as far as the utility model discloses a price/performance ratio. But also can suitably adjust according to the ground wire quantity of needs the utility model discloses the wire rod monomer of inside selection further improves the utility model discloses a general nature.
In some embodiments, the double ground wire single body includes a first conductor, a second conductor, a first insulating layer, a second insulating layer, a first isolating layer, a first shielding layer, a first mylar layer and two first ground wires, the first insulating layer wraps the first conductor, the second insulating layer wraps the second conductor, the first insulating layer and the second insulating layer are both located in the first isolating layer, the first shielding layer wraps the first isolating layer, the first mylar layer wraps the first shielding layer, the first isolating layer is provided with two first grooves, and the two first ground wires are respectively located on the two first grooves and are both covered by the first shielding layer. In the double-ground wire single body, the two first ground wires are limited in the groove, so that the double-ground wire single body is not easy to move, and the strength and the stability of the double-ground wire single body can be effectively improved, so that the double-ground wire single body can be suitable for being used under the condition of certain environmental pressure.
In some embodiments, the first strenghthened type wire rod monomer of two ground wires includes third conductor, fourth conductor, third insulating layer, second shielding layer, second mylar layer and two second ground wires, the third insulating layer is lived third conductor and the equal parcel of fourth conductor, the third insulating layer is located the second shielding layer, the second mylar layer wraps the second shielding layer, the third insulating layer is equipped with two second recesses, two the second ground wire is located two second recesses respectively to all covered by the second shielding layer, be equipped with the first sunken of two symmetries on the third insulating layer. In the first strenghthened type wire rod monomer of two ground wires, live third conductor and fourth conductor all parcel through a third insulating layer, an organic whole nature between conductor and the insulating layer is strong promptly, thereby make this first strenghthened type wire rod monomer of two ground wires have high strength and high stability, and two second ground wires are restricted in the recess, make it be difficult for taking place the motion, can further improve the first strenghthened type wire rod monomer's of two ground wires intensity and stability, but simultaneously, be equipped with first sunken on the third insulating layer, can reduce the free intensity of first strenghthened type wire rod a little, and reduce the demand material volume of third insulating layer, thereby reduce cost, use under this first strenghthened type wire rod monomer of two ground wires can be suitable for the higher condition of ambient pressure from this.
In some embodiments, the double-ground wire second reinforced wire rod monomer comprises a fifth conductor, a sixth conductor, a fourth insulating layer, a third shielding layer, a third wheat pulling layer and two third ground wires, the fifth conductor and the sixth conductor are wrapped by the fourth insulating layer, the fourth insulating layer wraps the fourth insulating layer, the third wheat pulling layer wraps the third shielding layer, the fourth insulating layer is provided with two third grooves, and the two third ground wires are located on the two third grooves respectively and are covered by the third shielding layer. In two ground wire second strenghthened type wire rod monomers, live fifth conductor and sixth conductor all parcel through a fourth insulating layer, it is strong promptly conductor and insulating layer between the wholeness to make this two ground wire second strenghthened type wire rod monomers have high strength and high stability, simultaneously, two ground wires are restricted in the recess, make it be difficult for taking place the motion, can further improve two ground wire second strenghthened type wire rod monomer's intensity and stability, use under this two ground wire second strenghthened type wire rod monomers can adapt to the condition that ambient pressure is high very much.
In some embodiments, the single ground wire includes a seventh conductor, an eighth conductor, a fifth insulating layer, a fourth shielding layer, a fourth mylar layer, and a fourth ground wire, the seventh conductor and the eighth conductor are wrapped by the fifth insulating layer, the fifth insulating layer and the fourth ground wire are both located in the fourth shielding layer, the fourth mylar layer wraps the fourth shielding layer, two symmetric second recesses are disposed on the fifth insulating layer, and the fourth ground wire is located in any one of the second recesses. In the single ground wire rod monomer, live seventh conductor and eighth conductor parcel through a fifth insulating layer, the wholeness between conductor and the insulating layer is strong promptly, thereby make this single ground wire rod monomer have high strength and high stability, simultaneously, be equipped with the second on the fifth insulating layer and cave in, can reduce the free intensity of second strenghthened type wire rod slightly, and reduce the demand material volume on fifth insulating layer, thereby reduce cost, and the second is sunken to be suitable for the arrangement of fourth ground wire, make each structure inseparable relatively, refine single ground wire rod monomer's size, make it can be suitable for the use of single ground wire rod demand.
In some embodiments, the anti-sway wire rod monomer includes ninth conductor, tenth conductor, sixth insulating layer, second isolation layer, fifth shielding layer, fifth mylar layer and fifth ground wire, the sixth insulating layer wraps the ninth conductor and the tenth conductor, the sixth insulating layer is located the second isolation layer, the second isolation layer is located the fifth shielding layer, the fifth mylar layer wraps the fifth shielding layer, the fifth ground wire is located outside the second isolation layer and is located the fifth shielding layer, be equipped with the third of two symmetries on the sixth insulating layer sunken. In the anti wire rod monomer that sways, live ninth conductor and tenth conductor parcel through a sixth insulating layer, an organic whole nature between conductor and the insulating layer is strong promptly, thereby make anti wire rod monomer that sways have high strength and high stability, moreover, set up the second isolation layer in the sixth insulating layer, and the sixth insulating layer is still sunken through setting up the third, with the area of contact who increases sixth insulating layer and second isolation layer, thereby the organic whole nature of sixth insulating layer and second isolation layer is also high, finally the organic whole nature of the internal main part of anti wire rod that sways is high, even when it sways taking place, its inside difficult production is independent rocks, make it have anti performance of swaying, can be applicable to and use in the strong environment of vibration.
In some embodiments, the present invention further comprises a filler disposed within the main shield. Because the free shared space of wire rod of isostructure can be followed its structure and confirmed, from this after the wire rod monomer of multiple isostructure sets up jointly, produce the gap easily between it, can fill up these gaps through setting up the filler, in order to improve the utility model discloses an intensity and anti-seismic performance.
In some embodiments, the main shield comprises a first partial shield, a second partial shield surrounding the first partial shield, and a third partial shield surrounding the second partial shield. Divide the shielding layer through setting up the multilayer, can guarantee that main shielding layer can effectively carry out the separation to each free radiation of wire rod to shield external signal, it is right to reduce external signal the utility model discloses data transmission's interference.
Drawings
Fig. 1 is a cross-sectional view of a schematic structural diagram of a double-ground wire rod unit of the high-speed transmission cable with a new structure of the present invention.
Fig. 2 is the sectional view of the single structural schematic diagram of the first strenghthened type wire rod of two ground wires of the high-speed transmission cable of new construction of the utility model.
Fig. 3 is a cross-sectional view of the single structural schematic diagram of the double ground wires and the second reinforced wire rods of the high-speed transmission cable with the new structure.
Fig. 4 is a cross-sectional view of the single ground wire of the high-speed transmission cable with a new structure according to the present invention.
Fig. 5 is a cross-sectional view of a structural schematic diagram of an anti-sway wire rod single body of the new structure high-speed transmission cable with a first ground wire number.
Fig. 6 is a cross-sectional view of a schematic structural diagram of a single anti-sway wire rod with a two-wire-line number for a high-speed transmission cable with a new structure according to the present invention.
Fig. 7 is a cross-sectional view of a schematic structural diagram of a high-speed transmission cable with a new structure according to an embodiment of the present invention.
Fig. 8 is a cross-sectional view of a schematic structural diagram of a high-speed transmission cable with a new structure according to an embodiment of the present invention.
Fig. 9 is a cross-sectional view of a schematic structural diagram of a high-speed transmission cable with a new structure according to an embodiment of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Example 1
Referring to fig. 1, a dual ground wire unit 10 includes a first conductor 11, a second conductor 12, a first insulating layer 13, a second insulating layer 14, a first isolation layer 15, a first shielding layer 16, a first mylar layer 17, and two first ground wires 18.
The first conductor 11 and the second conductor 12 are both copper conductors, wherein copper may be one of bare copper, tin-plated copper or silver-plated copper, the first insulating layer 13 and the second insulating layer 14 may be one of a PE layer, a PP layer, an FEP layer, a PFA layer or an ePTFE layer, respectively, the first isolating layer 15 may be one of a PE layer, a PP layer, an FEP layer, a PFA layer, an ePTFE layer or a PET layer, and the first shielding layer 16 may be one of an aluminum foil mylar layer or a copper foil layer, and in the present embodiment, the first conductor 11 and the second conductor 12 are both preferably tin-plated copper conductors, the first insulating layer 13 and the second insulating layer 14 are both preferably PE layers, the first isolating layer 15 is preferably a PP layer, and the first shielding layer 16 is preferably an aluminum foil mylar layer.
The first insulating layer 13 wraps the first conductor 11, the second insulating layer 14 wraps the second conductor 12, the first insulating layer 13 and the second insulating layer 14 are both located in the first insulating layer 15, the first shielding layer 16 wraps the first insulating layer 15, and the first mylar layer 17 wraps the first shielding layer 16. The first isolation layer 15 is further provided with two first grooves 151, the two first ground wires 18 are respectively embedded in the two first grooves 151 and are covered by the first shielding layer 16, that is, the two first ground wires 18 are fixed between the first isolation layer 15 and the first shielding layer 16, in addition, the setting positions of the first grooves 151 can be determined according to the user requirements, that is, the fixing positions of the first ground wires 18 can also be determined according to the user requirements, so that the double-ground-wire single body 10 can adapt to different requirements.
Referring to fig. 2, a double ground wire first reinforced type wire rod unit 20 includes a third conductor 21, a fourth conductor 22, a third insulation layer 23, a second shield layer 24, a second mylar layer 25, and two second ground wires 26.
The third conductor 21 and the fourth conductor 22 are both copper conductors, wherein the copper may be one of bare copper, tin-plated copper, or silver-plated copper, the third insulation layer 23 may be one of a PE layer, a PP layer, an FEP layer, a PFA layer, or an ePTFE layer, and the second shield layer 24 may be one of an aluminum foil mylar layer or a copper foil layer. In this embodiment, the third conductor 21 and the fourth conductor 22 are each preferably a bare copper conductor, the third insulation layer 23 is preferably an FEP layer, and the second shield layer 24 is preferably a copper foil layer.
The third insulating layer 23 surrounds the third conductor 21 and the fourth conductor 22, the third insulating layer 23 is located in the second shielding layer 24, and the second mylar layer 25 surrounds the second shielding layer 24. The third insulating layer 23 is provided with two second grooves 231, two second grounds 26 are respectively embedded in the two second grooves 231 and are covered by the second shielding layer 24, namely, the two second grounds 26 are both fixed between the second shielding layer 24 and the third insulating layer 23, in addition, the setting position of the second groove 231 can be determined according to the user requirement, namely, the fixing position of the second ground 26 can also be determined according to the user requirement, so that the double-ground first reinforced wire rod monomer 20 can adapt to different requirements. And two symmetrical first recesses 232 are also provided on the third insulating layer 23.
Referring to fig. 3, a double ground wire second enhanced wire unit 30 includes a fifth conductor 31, a sixth conductor 32, a fourth insulation layer 33, a third shielding layer 34, a third mylar layer 35, and two third ground wires 36.
The fifth conductor 31 and the sixth conductor 32 are both copper conductors, wherein the copper may be one of bare copper, tin-plated copper, or silver-plated copper, the fourth insulation layer 33 may be one of a PE layer, a PP layer, an FEP layer, a PFA layer, or an ePTFE layer, and the third shield layer 34 may be one of an aluminum foil mylar layer or a copper foil layer. In the present embodiment, the fifth conductor 31 and the sixth conductor 32 are preferably silver-plated copper conductors, the fourth insulating layer 33 is preferably a PE layer, and the third shielding layer 34 is preferably an aluminum foil mylar layer.
The fourth insulating layer 33 surrounds the fifth conductor 31 and the sixth conductor 32, the third shielding layer 34 surrounds the fourth insulating layer 33, and the third mylar layer 35 surrounds the third shielding layer 34. The fourth insulation layer 33 is provided with two third recesses 331, the two third ground wires 36 are respectively embedded in the two third recesses 331 and are covered by the third shielding layer 34, that is, the two third ground wires 36 are both fixed between the third shielding layer 34 and the fourth insulation layer 33, in addition, the setting position of the third recesses 331 can be determined according to the user's needs, that is, the fixing position of the third ground wire 36 can also be determined according to the user's needs, so that the double-ground wire second reinforced wire rod unit 30 can adapt to different requirements.
Referring to fig. 4, a single ground wire unit 40 includes a seventh conductor 41, an eighth conductor 42, a fifth insulating layer 43, a fourth shielding layer 44, a fourth mylar layer 45, and a fourth ground wire 46.
The seventh conductor 41 and the eighth conductor 42 are both copper conductors, wherein the copper may be one of bare copper, tin-plated copper, or silver-plated copper, the fifth insulating layer 43 may be one of a PE layer, a PP layer, an FEP layer, a PFA layer, or an ePTFE layer, and the fourth shielding layer 44 may be one of an aluminum foil mylar layer or a copper foil layer. In the present embodiment, each of the seventh conductor 41 and the eighth conductor 42 is preferably a tin-plated copper conductor, the fifth insulating layer 43 is preferably a PFA layer, and the fourth shielding layer 44 is preferably an aluminum foil mylar layer.
The seventh conductor 41 and the eighth conductor 42 are wrapped by the fifth insulating layer 43, the fifth insulating layer 43 is located in the fourth shielding layer 44, and the fourth mylar layer 45 wraps the fourth shielding layer 44. Two symmetrical second recesses 431 are disposed on the fifth insulating layer 43, and the fourth ground line 46 is disposed in any one of the second recesses 431.
Referring to fig. 5 and 6, the anti-sway wire unit 50 includes a ninth conductor 51, a tenth conductor 52, a sixth insulation layer 53, a second isolation layer 54, a fifth shield layer 55, a fifth mylar layer 56, and a fifth ground line 57.
The ninth conductor 51 and the tenth conductor 52 are both copper conductors, wherein copper may be one of bare copper, tin-plated copper, or silver-plated copper, the sixth insulating layer 53 may be one of a PE layer, a PP layer, an FEP layer, a PFA layer, or an ePTFE layer, the second insulating layer 54 may be one of a PE layer, a PP layer, an FEP layer, a PFA layer, an ePTFE layer, or a PET layer, and the fifth shielding layer 55 may be one of an aluminum foil mylar layer or a copper foil layer. In this embodiment, the ninth conductor 51 and the tenth conductor 52 are both preferably bare copper conductors, the sixth insulating layer 53 is preferably an ePTFE layer, the second isolating layer 54 is preferably an ePTFE layer, and the fifth shielding layer 55 is preferably an aluminum foil mylar layer.
The ninth conductor 51 and the tenth conductor 52 are wrapped together by the sixth insulating layer 53, the sixth insulating layer 53 is located in the second insulating layer 54, the second insulating layer 54 is located in the fifth shielding layer 55, the fifth mylar layer 56 wraps the fifth shielding layer 55, the fifth ground wire 57 is located outside the second insulating layer 54 and in the fifth shielding layer 55, so that the fifth ground wire 57 is fixed by the second insulating layer 54 and the fifth shielding layer 55, and the number of the fifth ground wires 57 may be one (see fig. 5) or two (see fig. 6). In addition, two symmetrical third recesses 531 are formed on the sixth insulating layer 53.
Example 2
Referring to fig. 7, the high-speed transmission cable with a new structure of the present embodiment includes a single wire 1, a main shield layer 2, and an outer cover 4. The main shielding layer 2 includes a first sub-shielding layer 201, a second sub-shielding layer 202, and a third sub-shielding layer 3, where the first sub-shielding layer 201 may be a mylar layer, a PP tape layer, or a foamed PP tape layer, in this embodiment, the first sub-shielding layer 201 is preferably a mylar layer, the second sub-shielding layer 202 is an aluminum foil mylar layer, the third sub-shielding layer 3 may be one of a copper layer, a silver-plated copper layer, an aluminum-magnesium wire layer, a copper-clad aluminum layer, or a copper-clad steel layer, in this embodiment, the third sub-shielding layer 3 is preferably a copper layer, the second sub-shielding layer 202 wraps the first sub-shielding layer 201, the third sub-shielding layer 3 wraps the second sub-shielding layer 202 by weaving or winding, the outer cover 4 is a rubber outer cover, and the outer cover 4 wraps the third sub-.
The number of the single wire bodies 1 is multiple, and each single wire body 1 may be one of a double-ground wire body 10, a double-ground wire first reinforced wire body 20, a double-ground wire second reinforced wire body 30, a single-ground wire body 40, or an anti-sway wire body 50. In this embodiment, the number of the single wire bodies 1 is preferably six, the six single wire bodies 1 are respectively one single double-ground wire body 10, one single double-ground wire body 20, one single-ground wire body 30, one single-ground wire body 40, one single anti-sway wire body 50 with one ground wire and one single anti-sway wire body 50 with two ground wires, and the structures of the single double-ground wire body 10, the single double-ground wire body 20, the single double-ground wire body 30, the single-ground wire body 40, the single anti-sway wire body 50 and the single double-ground wire body 50 are the same as the structures of the single double-ground wire body 10, the single double-ground wire body 20, the single-ground wire body 40 and the single anti-sway wire body 50 in embodiment 1. And all the wire single bodies 1 are positioned in the main shielding layer 2.
In addition, this new construction high speed transmission cable still includes filler 5, and filler 5 can be PP rope or cotton thread one, and filler 5 is the PP rope in this embodiment, and it locates in main shielding layer 2 for fill the space between each wire rod monomer 1, in order to reduce this new construction high speed transmission cable's inside clearance, thereby improve this new construction high speed transmission cable's intensity.
Example 3
Referring to fig. 8, the high-speed transmission cable with the new structure of the present embodiment includes a single wire 1, a main shielding layer 2, and an outer cover 4. The main shielding layer 2 includes a first sub-shielding layer 201, a second sub-shielding layer 202, and a third sub-shielding layer 3, where the first sub-shielding layer 201 may be a mylar layer, a PP tape layer, or a foamed PP tape layer, in this embodiment, the first sub-shielding layer 201 is preferably a PP tape layer, the second sub-shielding layer 202 is an aluminum foil mylar layer, the third sub-shielding layer 3 may be one of a copper layer, a silver-plated copper layer, an aluminum-magnesium wire layer, a copper-clad aluminum layer, or a copper-clad steel layer, in this embodiment, the third sub-shielding layer 3 is preferably a silver-plated copper layer, the second sub-shielding layer 202 wraps the first sub-shielding layer 201, and the third sub-shielding layer 3 wraps the second sub-shielding layer 202 by weaving or winding, the outer cover 4 is a rubber outer cover, and the outer cover 4 wraps.
The number of the single wire bodies 1 is multiple, and each single wire body 1 may be one of a double-ground wire body 10, a double-ground wire first reinforced wire body 20, a double-ground wire second reinforced wire body 30, a single-ground wire body 40, or an anti-sway wire body 50. In this embodiment, two single wire bodies 1 are preferred, the two single wire bodies 1 are a single double ground wire body 10 and a single double ground wire first reinforced wire body 20, and the structures of the single double ground wire body 10 and the single double ground wire first reinforced wire body 20 are the same as those of the single double ground wire body 10 and the single double ground wire first reinforced wire body 20 in embodiment 1. Both wire monomers 1 are located in the main shielding layer 2.
In addition, this new construction high speed transmission cable still includes filler 5, and filler 5 can be PP rope or a kind of cotton thread, and filler 5 is the cotton thread in this embodiment, and it locates in main shielding layer 2 for fill the space between two wire rod monomers 1, in order to reduce this new construction high speed transmission cable's inside clearance, thereby improve this new construction high speed transmission cable's intensity.
Example 4
Referring to fig. 9, the high-speed transmission cable with a new structure of the present embodiment includes a single wire 1, a main shield layer 2, and an outer cover 4. The main shielding layer 2 includes a first sub-shielding layer 201, a second sub-shielding layer 202, and a third sub-shielding layer 3, where the first sub-shielding layer 201 may be a mylar layer, a PP tape layer, or a foamed PP tape layer, in this embodiment, the first sub-shielding layer 201 is preferably a foamed PP tape layer, the second sub-shielding layer 202 is an aluminum foil mylar layer, the third sub-shielding layer 3 may be one of a copper layer, a silver-plated copper layer, an aluminum-magnesium wire layer, a copper-clad aluminum layer, or a copper-clad steel layer, in this embodiment, the third sub-shielding layer 3 is preferably an aluminum-magnesium wire layer, the second sub-shielding layer 202 wraps the first sub-shielding layer 201, the third sub-shielding layer 3 wraps the second sub-shielding layer 202 by weaving or winding, the outer cover 4 is a rubber outer cover, and the outer cover 4 wraps the third.
The number of the single wire bodies 1 is multiple, and each single wire body 1 may be one of a double-ground wire body 10, a double-ground wire first reinforced wire body 20, a double-ground wire second reinforced wire body 30, a single-ground wire body 40, or an anti-sway wire body 50. In this embodiment, the number of the single wire bodies 1 is preferably four, the four single wire bodies 1 are respectively the second reinforced single wire body 30, the single ground wire body 40 and the two anti-sway single wire bodies 50 (one ground wire and one ground wire), and the structures of the second reinforced single wire body 30, the single ground wire body 40 and the two anti-sway single wire bodies 50 are the structures of the second reinforced single wire body 30, the single ground wire body 40 and the two anti-sway single wire bodies 50 in embodiment 1. Both wire monomers 1 are located in the main shielding layer 2.
In addition, this new construction high speed transmission cable still includes filler 5, and filler 5 can be PP rope or a kind of cotton thread, and filler 5 is the cotton thread in this embodiment, and it locates in main shielding layer 2 for fill the space between two wire rod monomers 1, in order to reduce this new construction high speed transmission cable's inside clearance, thereby improve this new construction high speed transmission cable's intensity.
What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (8)

1. High-speed transmission cable of new construction, its characterized in that includes wire rod monomer (1), main shield (2) and outer quilt (4), wire rod monomer (1) is a plurality of, every wire rod monomer (1) is one of two ground wire rod monomers (10), two ground wire first strenghthened type wire rod monomers (20), two ground wire second strenghthened type wire rod monomers (30), single ground wire rod monomer (40) or anti-wire rod monomer (50) of swaing, all wire rod monomer (1) all is located main shield (2), outer quilt (4) parcel live main shield (2).
2. The new-structure high-speed transmission cable according to claim 1, wherein the single dual ground wire (10) comprises a first conductor (11), a second conductor (12), a first insulating layer (13), a second insulating layer (14), a first insulating layer (15), a first shielding layer (16), a first Mylar layer (17), and two first ground wires (18), the first insulating layer (13) covers the first conductor (11), the second insulating layer (14) covers the second conductor (12), the first insulating layer (13) and the second insulating layer (14) are both located in the first insulating layer (15), the first shielding layer (16) covers the first insulating layer (15), the first Mylar layer (17) covers the first shielding layer (16), two first grooves (151) are formed in the first insulating layer (15), and the two first ground wires (18) are respectively located in the two first grooves (151), and are both covered by a first shielding layer (16).
3. The high-speed transmission cable with the new structure as claimed in claim 1, wherein the double ground wire first reinforced type wire single body (20) comprises a third conductor (21), a fourth conductor (22), a third insulation layer (23), a second shielding layer (24), a second Mylar layer (25) and two second ground wires (26), the third insulating layer (23) wraps the third conductor (21) and the fourth conductor (22), the third insulating layer (23) is positioned in the second shielding layer (24), the second mylar layer (25) wraps the second shielding layer (24), the third insulating layer (23) is provided with two second grooves (231), the two second ground wires (26) are respectively positioned on the two second grooves (231), and are covered by a second shielding layer (24), and two symmetrical first recesses (232) are arranged on the third insulating layer (23).
4. The high-speed transmission cable with the new structure as claimed in claim 1, wherein the double-ground wire second reinforced type wire single body (30) comprises a fifth conductor (31), a sixth conductor (32), a fourth insulation layer (33), a third shielding layer (34), a third mylar layer (35) and two third ground wires (36), the fifth conductor (31) and the sixth conductor (32) are both wrapped by the fourth insulation layer (33), the third shielding layer (34) wraps the fourth insulation layer (33), the third mylar layer (35) wraps the third shielding layer (34), the fourth insulation layer (33) is provided with two third grooves (331), and the two third ground wires (36) are respectively located on the two third grooves (331) and are both covered by the third shielding layer (34).
5. The new-structure high-speed transmission cable according to claim 1, wherein the single ground wire monomer (40) comprises a seventh conductor (41), an eighth conductor (42), a fifth insulating layer (43), a fourth shielding layer (44), a fourth mylar layer (45) and a fourth ground wire (46), the seventh conductor (41) and the eighth conductor (42) are wrapped by the fifth insulating layer (43), the fifth insulating layer (43) and the fourth ground wire (46) are both located in the fourth shielding layer (44), the fourth mylar layer (45) wraps the fourth shielding layer (44), two symmetrical second recesses (431) are formed in the fifth insulating layer (43), and the fourth ground wire (46) is located in any one of the second recesses (431).
6. The new construction high-speed transmission cable according to claim 1, wherein the sway resistant wire monomer (50) comprises a ninth conductor (51), a tenth conductor (52), a sixth insulating layer (53), a second insulating layer (54), a fifth shield layer (55), a fifth Mylar layer (56) and a fifth ground line (57), the sixth insulating layer (53) wraps the ninth conductor (51) and the tenth conductor (52), the sixth insulating layer (53) is located within a second isolation layer (54), the second isolation layer (54) is located within a fifth shielding layer (55), the fifth Mylar layer (56) wraps the fifth shielding layer (55), the fifth ground wire (57) is positioned outside the second isolation layer (54), and the second shielding layer (55) is positioned in the first shielding layer, and two symmetrical third recesses (531) are arranged on the sixth insulating layer (53).
7. The new construction high speed transmission cable according to claim 1, characterized by comprising a filler (5), said filler (5) being provided within the main shield (2).
8. The high-speed transmission cable with a new structure according to claim 1, wherein the main shielding layer (2) comprises a first partial shielding layer (201), a second partial shielding layer (202) and a third partial shielding layer (3), the second partial shielding layer (202) wraps the first partial shielding layer (201), and the third partial shielding layer (3) wraps the second partial shielding layer (202).
CN201922103351.6U 2019-11-29 2019-11-29 High-speed transmission cable with novel structure Active CN211265106U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113744925A (en) * 2021-09-29 2021-12-03 广东诠杰科技有限公司 Parallel signal transmission line and production process

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113744925A (en) * 2021-09-29 2021-12-03 广东诠杰科技有限公司 Parallel signal transmission line and production process

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