CN110853827A - Flexible aging-resistant shielding twisted-pair cable and preparation method thereof - Google Patents

Abstract

The invention discloses a flexible anti-aging shielding twisted-pair cable and a preparation method thereof, wherein four twisted-pair wire cores and a cross-shaped filling core material are twisted together to form a cable core, a fluororesin winding tape layer, an aluminum-plastic composite tape winding layer, a copper wire shielding winding layer and a silane-grafted crosslinked high-density polyethylene insulating layer are coated outside the cable core, the twisted-pair wire cores are twisted in pairs, each insulated wire core comprises an inner conductor and a silane-grafted crosslinked low-density polyethylene insulating layer, a nickel copper damage prevention coating and a zinc oxide blocking layer are sequentially sprayed on the outer parts of the inner conductor and the copper wire shielding winding layer, the cross-shaped filling core material comprises a cross-shaped resin matrix and an aluminum foil layer, the aluminum-plastic composite tape winding layer is of an aluminum-plastic composite tape gap winding structure, and the aluminum-plastic composite tape comprises an aluminum foil tape. The cable effectively inhibits signal interference caused by crosstalk between twisted wire cores, can effectively inhibit copper harm of an insulating layer, and has better mechanical strength, flexibility and electrical characteristics.

Description

Flexible aging-resistant shielding twisted-pair cable and preparation method thereof

Technical Field

The invention relates to the technical field of communication cables, in particular to a flexible anti-aging shielding twisted-pair cable and a preparation method thereof.

Background

Twisted pair is one of the most commonly used transmission media in integrated wiring engineering. The cable is composed of two copper wires with insulating protective layers, and the copper wires are twisted according to a certain pitch, so that the degree of signal interference can be reduced, and the electric wave radiated by each wire in transmission can be counteracted by the electric wave emitted by the other wire. Twisted pairs are classified into unshielded twisted pairs and shielded twisted pairs. Shielded wiring systems have been recognized by more and more users, and their good performance in terms of electromagnetic compatibility is also being recognized by more users. The insulating layer of the shielding twisted-pair cable is made of polyvinyl chloride and polyolefin, and the insulating layer is generally made of foaming resin materials, such as polypropylene, which has weak mechanical strength, is not tear-resistant, has poor durability and is not easy to be manufactured by thinning the cable. When the cable is formed, each pair of twisted wire cores are directly twisted in a contact manner, so that signal interference caused by crosstalk between the twisted wire cores cannot be sufficiently suppressed. Moreover, after the copper conductor and the shielding layer are directly contacted with the insulating layer, a copper harm phenomenon can occur, so that the oxidation resistance of an antioxidant in the insulating material is reduced, the ageing resistance of the insulating material is weakened, the time is long, the efficiency of the insulating material is lost, and the service life is shortened.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to solve the technical problem of providing the flexible anti-aging shielding twisted-pair cable which has better shielding effect, can effectively inhibit signal interference caused by crosstalk between twisted-pair wire cores, can effectively inhibit the copper harm phenomenon of an insulating layer, and has better mechanical strength, flexibility and electrical characteristics. Meanwhile, a preparation method of the cable is also provided.

The invention solves the technical problems through the following technical scheme.

A flexible anti-aging shielding twisted-pair cable comprises four twisted-pair cable cores and a cross-shaped filling core material, wherein the four twisted-pair cable cores are arranged in a 90-degree separated mode in the circumferential direction through the cross-shaped filling core material and are twisted together to form a cable core, the outside of the cable core is sequentially coated with a fluororesin winding tape layer, an aluminum-plastic composite tape winding layer, a copper wire shielding winding layer and a silane grafted crosslinked high-density polyethylene insulating layer, the twisted-pair cable cores are formed by twisting two insulating cable cores in a pair mode, each insulating cable core comprises an inner conductor and a silane grafted crosslinked low-density polyethylene insulating layer coated on the outside of the inner conductor, the inner conductor and the outside of the copper wire shielding winding layer are sequentially coated with a nickel copper harm preventing coating layer and a zinc oxide blocking layer, the cross-shaped filling core material comprises a cross-shaped resin base body and an aluminum foil layer coated on the outside of the resin base body, and the, the aluminum-plastic composite belt comprises an aluminum foil belt outer layer and a PET resin belt inner layer.

Preferably, the inner conductor is formed by concentrically twisting a plurality of strands, each strand is formed by twisting a plurality of tinned copper monofilament bundles, and the twisting direction of each strand is opposite to that of the compound twisted wire.

Preferably, the diameter of the tin-plated copper monofilament is 0.05mm to 0.08 mm.

Preferably, the copper wire shielding winding layer is formed by spirally winding double layers of tinned copper monofilaments in opposite directions, the spiral angles are different, and the spiral angle is 25-40 degrees.

Preferably, the copper wire shielding winding layer is formed by mixing two tinned copper monofilaments with different diameters and spirally winding the tinned copper monofilaments in a single direction, and the diameter ratio of the tinned copper monofilaments is between 0.9 and 1.

Preferably, the diameter of the tin-plated copper monofilament adopted by the copper wire shielding winding layer is 0.01mm to 0.05 mm.

Preferably, the winding pitch of the fluororesin winding band layer is 10 to 20 times of the outer diameter of the cable core, and the band width of the fluororesin winding band layer is 1 to 3 times of the outer diameter of the cable core.

Preferably, the lay length of the cable core is 15 times to 30 times of the outer diameter of the twisted pair wire core.

Preferably, the thickness of the nickel copper-damage-preventing coating is 1-5 microns, and the thickness of the zinc oxide barrier layer is 10-100 nanometers.

The preparation method of the flexible anti-aging shielding twisted-pair cable comprises the following specific steps:

the method comprises the following steps: obtaining an inner conductor through a stranding process;

step two: spraying a nickel copper-damage-proof coating and a zinc oxide barrier layer on the inner conductor by a spraying process;

step three: forming a silane grafted cross-linked low-density polyethylene insulating layer through an extrusion and cross-linking process and obtaining an insulating wire core;

step four: twisting the two insulated wire cores through a twisting process to obtain a twisted wire core;

step five: manufacturing the aluminum foil layer and the resin matrix into a cross-shaped filling core material by a heat seal process;

step six: twisting the four twisted wire cores and the cross-shaped filling core material by a twisting process to obtain a cable core;

step seven: sequentially winding a fluororesin winding tape layer, an aluminum-plastic composite tape winding layer and a copper wire shielding winding layer on the cable core by a winding process, wherein the aluminum-plastic composite tape is prepared by a heat sealing process from an outer layer of the aluminum foil tape and an inner layer of the PET resin tape;

step eight: spraying a nickel copper-damage-preventing coating and a zinc oxide barrier layer on the copper wire shielding winding layer by a spraying process;

step nine: and forming a silane grafted and crosslinked high-density polyethylene insulating layer on the copper wire shielding winding layer through an extrusion coating and crosslinking process to prepare the shielding twisted-pair cable.

The invention has the beneficial effects that:

1. fill the core through the cross and separate four pair twist sinle silks and arrange for shield each other between the pair twist sinle silk, the effectual signal interference that arouses of crosstalk that has suppressed between the pair twist sinle silk, the effectual signal or the noise that restrain inside of rethread plastic-aluminum composite band around covering, copper line shielding winding layer leak to the outside and restrain the interference that comes from external signal, the plastic-aluminum composite band includes outer and the PET resin in-band layer of aluminium foil tape, makes this shielding layer be difficult for appearing the phenomenon of rupture.

2. Through preventing the harmful coating of copper at copper inner conductor and copper line shielding winding layer outside spraying nickel, block that copper line and insulating layer take place direct contact, prevent that copper ion from diffusing to the insulating layer and causing the harmful phenomenon of copper, prevent that the harmful coating of copper outside spraying zinc oxide barrier layer can effectual protection nickel from preventing that the harmful coating of copper takes place oxidation reaction to, improve the ageing-resistant ability of insulating layer, ensure electrical characteristics, increase of service life.

3. The silane-grafted crosslinked high-density polyethylene insulating layer and the silane-grafted crosslinked low-density polyethylene insulating layer are adopted, so that the static friction coefficient is small, the diameter is easy to reduce, the flexibility and the bending resistance of the cable are improved, and the phenomenon that the cable is easy to crack under the low-temperature working condition environment is greatly reduced.

4. Through set up fluororesin around the band layer between cable core and plastic-aluminum composite band around the covering, coefficient of friction is little, bandwidth and winding distance carry out optimal design, help improving the cable pliability, resistant crooked and resistant flexure nature is better, and, can effectively restrain the bending unsmooth phenomenon that the plastic-aluminum composite band easily appears when wrapping, and then, strengthen the stability of shielding characteristic, the plastic-aluminum composite band clearance is around the covering, reduce the cost of manufacture, reduce the preparation technology degree of difficulty, copper line shielding winding layer can be with the plastic-aluminum composite band around the good contact of covering, guarantee effectual shielding performance.

5. The inner conductor is compound hank of strand concentricity, the strand constitutes for tin-plated copper monofilament bundle hank, the strand adopts bundle hank to improve bending resistance, adopt the compound hank of concentricity to reduce the looseness that easily appears when strand hank between the strand, and, the hank of strand is to opposite with the hank of compound stranded conductor, be of value to the torsional stress that reduces the tin-plated copper monofilament that constitutes the strand, restrain monofilament and warp, improve the tensile strength and the stability of inner conductor, make the inner conductor have better pliability and electrical characteristic, difficult emergence fracture, improve the reliability, tin-plated copper monofilament diameter is 0.05mm to 0.08mm, under the prerequisite of ensureing inner conductor mechanical strength, be of value to realizing thin footpath preparation.

6. Copper line shielding winding layer adopts the mixed one-way spiral winding of tin-plated copper monofilament of two kinds of different diameters to constitute, and the diameter ratio is between 0.9 to 1, can effectual reduction weave the gap, reduces substantially the friction phenomenon that produces between the tin-plated copper monofilament to noise shielding characteristic has been improved, moreover, make the cable have better pliability, also be convenient for realize thin footpath preparation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic cross-sectional structural view of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of the filling core material in the cross shape shown in FIG. 1;

fig. 3 is a schematic cross-sectional structure view of an aluminum-plastic composite tape according to an embodiment of the present application.

Reference numerals: the cable comprises 1-twisted wire core, 2-cross-shaped filling core material, 3-fluororesin wrapping tape layer, 4-aluminum-plastic composite tape wrapping layer, 5-copper wire shielding wrapping layer, 6-silane grafted crosslinked high-density polyethylene insulating layer, 7-inner conductor, 8-silane grafted crosslinked low-density polyethylene insulating layer, 9-resin matrix, 10-aluminum foil layer, 11-aluminum foil tape outer layer, 12-PET resin tape inner layer and 13-insulating wire core.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments 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 drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 3, the flexible aging-resistant shielding twisted-pair cable according to the embodiment of the present invention includes four twisted-pair cable cores 1 and a cross-shaped filler core 2, wherein the four twisted-pair cable cores 1 are circumferentially spaced at 90 degrees from each other by the cross-shaped filler core 2 and are twisted together to form a cable core, and preferably, a lay length of the cable core is 15 times to 30 times an outer diameter of the twisted-pair cable cores 1. The outer part of the cable core is sequentially coated with a fluororesin winding and wrapping layer 3, an aluminum-plastic composite tape winding layer 4, a copper wire shielding and winding layer 5 and a silane grafted and crosslinked high-density polyethylene insulating layer 6. Preferably, the winding pitch of the fluororesin winding and covering layer 3 is 10 to 20 times of the outer diameter of the cable core, and the bandwidth of the fluororesin winding and covering layer 3 is 1 to 3 times of the outer diameter of the cable core.

The twisted-pair wire core 1 is formed by twisting two insulated wire cores 13 in pairs, and each insulated wire core 13 comprises an inner conductor 7 and a silane grafted cross-linked low-density polyethylene insulating layer 8 coated outside the inner conductor 7. Specifically, the inner conductor 7 is formed by concentrically twisting a plurality of strands, each strand is formed by twisting a plurality of tinned copper monofilament bundles, the twisting direction of each strand is opposite to that of each twisted wire, and preferably, the diameter of each tinned copper monofilament is 0.05mm to 0.08 mm. The outside of the inner conductor 7 is sequentially sprayed with a nickel copper-damage-proof coating and a zinc oxide barrier layer. The thickness of the nickel copper harm prevention coating is 1-5 micrometers, and the thickness of the zinc oxide barrier layer is 10-100 nanometers. As shown in fig. 2, the cross-shaped filler core material 2 includes a cross-shaped resin matrix 9 and an aluminum foil layer 10 coated outside the resin matrix 9. The resin matrix 9 is, for example, a PET resin.

As shown in fig. 3, the aluminum-plastic composite tape wrapping layer 4 is of an aluminum-plastic composite tape gap wrapping structure, and the aluminum-plastic composite tape includes an aluminum foil tape outer layer 11 and a PET resin tape inner layer 12.

Copper line shielding winding layer 5's outside spraying has harmful coating of nickel matter copper and zinc oxide barrier layer in proper order, the harmful coating thickness of nickel matter copper is 1 micron to 5 microns, zinc oxide barrier layer thickness is 10 nanometers to 100 nanometers. Specifically, in one embodiment, the copper wire shielding winding layer 5 is formed by spirally winding two layers of tinned copper monofilaments in opposite directions, and the spiral angles are different, and the spiral angle is 25 to 40 degrees. In another embodiment, the copper wire shielding winding layer 5 is formed by mixing two kinds of tinned copper monofilaments with different diameters and spirally winding the tinned copper monofilaments in a mixing manner, and the diameter ratio of the tinned copper monofilaments is between 0.9 and 1. Preferably, the diameter of the tin-plated copper monofilament adopted by the copper wire shielding winding layer 5 is 0.01mm to 0.05 mm.

The preparation method of the flexible anti-aging shielding twisted-pair cable comprises the following specific steps:

the method comprises the following steps: obtaining an inner conductor through a stranding process;

step two: spraying a nickel copper-damage-proof coating and a zinc oxide barrier layer on the inner conductor by a spraying process;

step three: forming a silane grafted cross-linked low-density polyethylene insulating layer through an extrusion and cross-linking process and obtaining an insulating wire core;

step four: twisting the two insulated wire cores through a twisting process to obtain a twisted wire core;

step five: manufacturing the aluminum foil layer and the resin matrix into a cross-shaped filling core material by a heat seal process;

step six: twisting the four twisted wire cores and the cross-shaped filling core material by a twisting process to obtain a cable core;

step seven: sequentially winding a fluororesin winding tape layer, an aluminum-plastic composite tape winding layer and a copper wire shielding winding layer on the cable core by a winding process, wherein the aluminum-plastic composite tape is prepared by a heat sealing process from an outer layer of the aluminum foil tape and an inner layer of the PET resin tape;

step eight: spraying a nickel copper-damage-preventing coating and a zinc oxide barrier layer on the copper wire shielding winding layer by a spraying process;

step nine: and forming a silane grafted and crosslinked high-density polyethylene insulating layer on the copper wire shielding winding layer through an extrusion coating and crosslinking process to prepare the shielding twisted-pair cable.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. Flexible ageing-resistant shielding twisted pair cable, characterized by: including four pair twist sinle silk (1) and cross packing core (2), four pair twist sinle silk (1) are passed through cross packing core (2) circumference is for 90 degrees separate arrangements and transposition jointly forms the cable core, the outside cladding in proper order of cable core is provided with fluororesin and winds band layer (3), plastic-aluminum composite tape around covering (4), copper wire shielding winding layer (5) and silane grafting crosslinking high density polyethylene insulating layer (6), pair twist sinle silk (1) constitutes for two insulation sinle silk (13) pair twists, insulation sinle silk (13) include inner conductor (7) and cladding the outside silane grafting crosslinking low density polyethylene insulating layer (8) of inner conductor (7), inner conductor (7) and the outside of copper wire shielding winding layer (5) all has nickel matter to prevent copper harm coating and zinc oxide barrier layer in proper order to be sprayed, cross packing core (2) includes cross resin base body (9) and cladding resin base body (7) are in resin base body (9) Outside aluminium foil layer (10), the compound area of plastic-aluminum is around the package structure around the covering (4) for the compound area clearance of plastic-aluminum, the compound area of plastic-aluminum includes aluminium foil area outer covering (11) and PET resin area inlayer (12).

2. The flexible, age-resistant shielded twisted pair cable of claim 1, wherein: the inner conductor (7) is formed by concentrically twisting a plurality of strands, the strands are formed by twisting a plurality of tinned copper monofilament bundles, and the twisting direction of the strands is opposite to that of the twisted wires.

3. The flexible, age-resistant shielded twisted pair cable of claim 2, wherein: the diameter of the tin-plated copper monofilament is 0.05mm to 0.08 mm.

4. The flexible, age-resistant shielded twisted pair cable of claim 1, wherein: the copper wire shielding winding layer (5) is formed by double layers of tinned copper monofilaments which are spirally wound in opposite directions, the spiral angles are different, and the spiral angle is 25-40 degrees.

5. The flexible, age-resistant shielded twisted pair cable of claim 1, wherein: the copper wire shielding winding layer (5) is formed by mixing two tinned copper monofilaments with different diameters in a one-way spiral winding mode, and the diameter ratio of the tinned copper monofilaments is between 0.9 and 1.

6. The flexible, age-resistant shielded twisted pair cable of claim 4 or 5, wherein: the diameter of the tin-plated copper monofilament adopted by the copper wire shielding winding layer (5) is 0.01mm to 0.05 mm.

7. The flexible, age-resistant shielded twisted pair cable of claim 1, wherein: the winding distance of the fluororesin winding band layer (3) is 10-20 times of the outer diameter of the cable core, and the bandwidth of the fluororesin winding band layer (3) is 1-3 times of the outer diameter of the cable core.

8. The flexible, age-resistant shielded twisted pair cable of claim 1, wherein: the lay length of the cable core is 15 times to 30 times of the outer diameter of the twisted pair wire core (1).

9. The flexible, age-resistant shielded twisted pair cable of claim 1, wherein: the thickness of the nickel copper harm prevention coating is 1-5 micrometers, and the thickness of the zinc oxide barrier layer is 10-100 nanometers.

10. The preparation method of the flexible anti-aging shielding twisted-pair cable is characterized by comprising the following steps: the method comprises the following specific steps:

the method comprises the following steps: obtaining an inner conductor through a stranding process;

step two: spraying a nickel copper-damage-proof coating and a zinc oxide barrier layer on the inner conductor by a spraying process;

step three: forming a silane grafted cross-linked low-density polyethylene insulating layer through an extrusion and cross-linking process and obtaining an insulating wire core;

step four: twisting the two insulated wire cores through a twisting process to obtain a twisted wire core;

step five: manufacturing the aluminum foil layer and the resin matrix into a cross-shaped filling core material by a heat seal process;

step six: twisting the four twisted wire cores and the cross-shaped filling core material by a twisting process to obtain a cable core;

step seven: sequentially winding a fluororesin winding tape layer, an aluminum-plastic composite tape winding layer and a copper wire shielding winding layer on the cable core by a winding process, wherein the aluminum-plastic composite tape is prepared by a heat sealing process from an outer layer of the aluminum foil tape and an inner layer of the PET resin tape;

step eight: spraying a nickel copper-damage-preventing coating and a zinc oxide barrier layer on the copper wire shielding winding layer by a spraying process;

step nine: and forming a silane grafted and crosslinked high-density polyethylene insulating layer on the copper wire shielding winding layer through an extrusion coating and crosslinking process to prepare the shielding twisted-pair cable.

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