CN106298037A - A kind of high pressure resistant layer material of high tension cable - Google Patents

Abstract

The invention belongs to electric power and field of cable technology, especially relate to a kind of high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion: high density polyethylene (HDPE): 50～70 parts；Linear low density polyethylene: 15～30 parts；Dysprosia: 1～3 part；Politef: 5～10 parts；Cobalto-cobaltic oxide: 1～3 part；Magnesium hydroxide: 10～15 parts；Antioxidant 1010: 3～5 parts；Silicon dioxide: 10～20 parts；Calcium zirconate: 5～8 parts；Zirconium dioxide: 5～10 parts；Barium zirconate: 5～8 parts；Tissuemat E: 6～8 parts；Manganese dioxide: 1～3 part；Iron sesquioxide: 1～3 part；White carbon black: 3～6 parts.High pressure resistant layer in the present invention has excellent high voltage performance, low cost, process velocity is fast, sheath is smooth, rounding.

Description

A kind of high pressure resistant layer material of high tension cable

The application is entitled: a kind of power system high tension cable, filing date: on 07 26th, 2015, application number For: the divisional application of the application for a patent for invention of 201510441547X.

Technical field

The invention belongs to electric power and field of cable technology, especially relate to a kind of high tension cable high pressure resistant layer material and Plant power system high tension cable.

Background technology

High tension cable refers to that transmitting voltage is the cable of 10-35kV, owing in high-voltage transmission, transmission voltage is high, therefore transmission phase Can be relatively low with electric current during power；Owing to electric current is low, therefore line loss can be greatly reduced (P=I × I × R), the profit of electric energy Can be higher by rate, therefore, high-voltage transmission is extensively applied by power system.Moreover, due to current reduction, therefore high-voltage transmission energy The sectional area making the conductor in cable reduces, therefore can reduce the consumption of non-ferrous metal, makes the cost of cable drop further simultaneously Low, reduce the input of power transmission and distribution facility.As high tension cable, the material of its core is high pressure resistant material, although the most substantial amounts of Application, but, applicant thinks also have the space of improvement.

Summary of the invention

In order to solve the problems referred to above, it is an object of the invention to disclose a kind of high pressure resistant layer material of high tension cable and a kind of electricity Force system high tension cable；They realize by the following technical solutions.

A kind of high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

A kind of high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 60 parts；

Linear low density polyethylene: 22.5 parts；

Dysprosia: 2 parts；

Politef: 7.5 parts；

Cobalto-cobaltic oxide: 2 parts；

Magnesium hydroxide: 7.5 parts；

Antioxidant 1010: 4 parts；

Silicon dioxide: 15 parts；

Calcium zirconate: 6.5 parts；

Zirconium dioxide: 7.5 parts；

Barium zirconate: 6.5 parts；

Tissuemat E: 7 parts；

Manganese dioxide: 2 parts；

Iron sesquioxide: 2 parts；

White carbon black: 4.5 parts.

A kind of high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50 parts；

Linear low density polyethylene: 15 parts；

Dysprosia: 1 part；

Politef: 5 parts；

Cobalto-cobaltic oxide: 1 part；

Magnesium hydroxide: 10 parts；

Antioxidant 1010: 3 parts；

Silicon dioxide: 10 parts；

Calcium zirconate: 5 parts；

Zirconium dioxide: 5 parts；

Barium zirconate: 5 parts；

Tissuemat E: 6 parts；

Manganese dioxide: 1 part；

Iron sesquioxide: 1 part；

White carbon black: 3 parts.

A kind of high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 70 parts；

Linear low density polyethylene: 30 parts；

Dysprosia: 3 parts；

Politef: 10 parts；

Cobalto-cobaltic oxide: 3 parts；

Magnesium hydroxide: 15 parts；

Antioxidant 1010: 5 parts；

Silicon dioxide: 20 parts；

Calcium zirconate: 8 parts；

Zirconium dioxide: 10 parts；

Barium zirconate: 8 parts；

Tissuemat E: 8 parts；

Manganese dioxide: 3 parts；

Iron sesquioxide: 3 parts；

White carbon black: 6 parts.

In first embodiment of the present invention, a kind of power system high tension cable, there is centrally located conductor, be positioned at Screen layer outside conductor, the restrictive coating being positioned at outside screen layer；It is characterized in that having between described conductor and screen layer high pressure resistant Layer, described high pressure resistant layer is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

In second embodiment of the present invention, a kind of power system high tension cable, there is centrally located conductor, be positioned at Screen layer outside conductor, the restrictive coating being positioned at outside screen layer；It is characterized in that having between described screen layer and restrictive coating resistance to height Laminate layer, described high pressure resistant layer is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

In 3rd embodiment of the present invention, a kind of power system high tension cable, there is centrally located conductor, be positioned at Screen layer outside conductor, the inner sheath being positioned at outside screen layer, the first armor being positioned at outside inner sheath, it is positioned at outside the first armor Restrictive coating；It is characterized in that having between described inner sheath and the first armor high pressure resistant layer, described high pressure resistant layer be by with The raw material of lower weight portion is constituted:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

In 4th embodiment of the present invention, a kind of power system high tension cable, it has isolation skeleton, four high pressure Electric wire unit, the second armor, the extrusion molding that isolation skeleton and all high-tension bus-bar unit are enveloped are coated on the second armor On oversheath, described isolation skeleton outward flange has four isolating bars, every isolating bar by adjacent high-tension bus-bar unit every Leave；Each high-tension bus-bar unit has centrally located conductor, the screen layer being positioned at outside conductor, is positioned at outside screen layer and protects The armor overlap, being positioned at outside inner sheath, the restrictive coating being positioned at outside armor；It is characterized in that between described inner sheath and armor Having high pressure resistant layer, described high pressure resistant layer is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

A kind of power system high tension cable described above, it is characterised in that the material of described conductor is copper or aluminum or conjunction Gold.

A kind of power system high tension cable described above, it is characterised in that the material of described screen layer is extrudable shape The semi-conductive shield become.

A kind of power system high tension cable described above, it is characterised in that the material of described restrictive coating is polrvinyl chloride Or high density polyethylene (HDPE) or medium density polyethylene or low smoke and zero halogen polyethylene or crosslinked polyethylene or identical with high pressure resistant layer Material.

A kind of power system high tension cable described above, it is characterised in that the material of described first armor is steel band Or steel wire, described steel band or steel wire are to be coated on outside high pressure resistant layer in the way of one direction spiral.

A kind of power system high tension cable described above, it is characterised in that the material of described oversheath is polrvinyl chloride Or high density polyethylene (HDPE) or medium density polyethylene or low smoke and zero halogen polyethylene or crosslinked polyethylene or identical with high pressure resistant layer Material.

A kind of power system high tension cable described above, it is characterised in that the material of described second armor is steel band Or aluminium strip, it is to be coated with in the way of longitudinal direction or spiral.

A kind of power system high tension cable described above, it is characterised in that described isolation skeleton is nonmetal, Gao Jie The material of electric intensity.

The present invention has more can high pressure resistant, high-voltage operation stable performance, it is easy to lot-size produces, is prone to extrusion molding, production Lower etc. the Advantageous Effects of cable cost.

Accompanying drawing explanation

Fig. 1 is the cross-sectional structure schematic diagram of embodiment 1 of the present invention.

Fig. 2 is the cross-sectional structure schematic diagram of embodiment 2 of the present invention.

Fig. 3 is the cross-sectional structure schematic diagram of embodiment 3 of the present invention.

Fig. 4 is the cross-sectional structure schematic diagram of embodiment 4 of the present invention.

Detailed description of the invention

Embodiment 1

Ask for an interview Fig. 1, a kind of power system high tension cable, there is centrally located conductor 1, the screen layer 3 being positioned at outside conductor, position Restrictive coating 4 outside screen layer；It is characterized in that there is between described conductor and screen layer high pressure resistant layer 2, described high pressure resistant layer It is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

Embodiment 2

Ask for an interview Fig. 2, a kind of power system high tension cable, there is centrally located conductor 1, the screen layer 3 being positioned at outside conductor, position Restrictive coating 4 outside screen layer；It is characterized in that there is between described screen layer and restrictive coating high pressure resistant layer 2, described high pressure resistant Layer is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

Embodiment 3

Ask for an interview Fig. 3, a kind of power system high tension cable, there is centrally located conductor 1, the screen layer 3 being positioned at outside conductor, position Inner sheath 21 outside screen layer, the first armor 22 being positioned at outside inner sheath, the restrictive coating 4 that is positioned at outside the first armor；Its Being characterised by between described inner sheath and the first armor having high pressure resistant layer 2, described high pressure resistant layer is by following weight portion Raw material is constituted:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

Embodiment 4

Asking for an interview Fig. 4, a kind of power system high tension cable, it has isolation 5, four high-tension bus-bar unit of skeleton, will isolate bone The oversheath 8 that the second armor 7 that frame and all high-tension bus-bar unit envelope, extrusion molding are coated on the second armor, described Isolation skeleton outward flange has four isolating bars 6, and adjacent high-tension bus-bar cell isolation is opened by every isolating bar；Each high-tension electricity Line unit has centrally located conductor 1, the screen layer 3 being positioned at outside conductor, the inner sheath 21 being positioned at outside screen layer, is positioned at and protects Armor 22 outside set, the restrictive coating 4 being positioned at outside armor；It is characterized in that having between described inner sheath and armor resistance to height Laminate layer 2, described high pressure resistant layer is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

A kind of power system high tension cable described in any of the above-described embodiment, it is characterised in that the material of described conductor It is copper or aluminum or alloy.

A kind of power system high tension cable described in any of the above-described embodiment, it is characterised in that the material of described screen layer Material is the semi-conductive shield of extrudable formation.

A kind of power system high tension cable described in any of the above-described embodiment, it is characterised in that the material of described restrictive coating Material be polrvinyl chloride or high density polyethylene (HDPE) or medium density polyethylene or low smoke and zero halogen polyethylene or crosslinked polyethylene or with The material that high pressure resistant layer is identical.

A kind of power system high tension cable described above, it is characterised in that the material of described first armor is steel band Or steel wire, described steel band or steel wire are to be coated on outside high pressure resistant layer in the way of one direction spiral.

A kind of power system high tension cable described above, it is characterised in that the material of described oversheath is polrvinyl chloride Or high density polyethylene (HDPE) or medium density polyethylene or low smoke and zero halogen polyethylene or crosslinked polyethylene or identical with high pressure resistant layer Material.

A kind of power system high tension cable described above, it is characterised in that the material of described second armor is steel band Or aluminium strip, it is to be coated with in the way of longitudinal direction or spiral.

A kind of power system high tension cable described above, it is characterised in that described isolation skeleton is nonmetal, Gao Jie The material of electric intensity.

High pressure resistant layer in the present invention, if using the formula of following weight portion, then can reach optimum combination property:

High density polyethylene (HDPE): 60 parts；

Linear low density polyethylene: 22.5 parts；

Dysprosia: 2 parts；

Politef: 7.5 parts；

Cobalto-cobaltic oxide: 2 parts；

Magnesium hydroxide: 7.5 parts；

Antioxidant 1010: 4 parts；

Silicon dioxide: 15 parts；

Calcium zirconate: 6.5 parts；

Zirconium dioxide: 7.5 parts；

Barium zirconate: 6.5 parts；

Tissuemat E: 7 parts；

Manganese dioxide: 2 parts；

Iron sesquioxide: 2 parts；

White carbon black: 4.5 parts.

High pressure resistant layer in the present invention, if using the formula of following weight portion, then can reach preferably combination property:

High density polyethylene (HDPE): 50 parts；

Linear low density polyethylene: 15 parts；

Dysprosia: 1 part；

Politef: 5 parts；

Cobalto-cobaltic oxide: 1 part；

Magnesium hydroxide: 10 parts；

Antioxidant 1010: 3 parts；

Silicon dioxide: 10 parts；

Calcium zirconate: 5 parts；

Zirconium dioxide: 5 parts；

Barium zirconate: 5 parts；

Tissuemat E: 6 parts；

Manganese dioxide: 1 part；

Iron sesquioxide: 1 part；

White carbon black: 3 parts.

High pressure resistant layer in the present invention, if using the formula of following weight portion, then can reach preferable combination property:

High density polyethylene (HDPE): 70 parts；

Linear low density polyethylene: 30 parts；

Dysprosia: 3 parts；

Politef: 10 parts；

Cobalto-cobaltic oxide: 3 parts；

Magnesium hydroxide: 15 parts；

Antioxidant 1010: 5 parts；

Silicon dioxide: 20 parts；

Calcium zirconate: 8 parts；

Zirconium dioxide: 10 parts；

Barium zirconate: 8 parts；

Tissuemat E: 8 parts；

Manganese dioxide: 3 parts；

Iron sesquioxide: 3 parts；

White carbon black: 6 parts.

The high pressure resistant layer material in the present invention is used to produce the high tension cable of embodiment 2, by optimum, more excellent, preferable, big Scope formula respectively produces the cable of a 2km length；Cross-sectional area of conductor is 35mm², identical copper wire conductor；Screen layer uses identical Semiconducting shield materials extrude, thickness is 0.8mm；Restrictive coating uses identical high density polyethylene (HDPE), and thickness is 1.8mm；Resistance to The thickness of high pressure zone is all 2.0mm；By detection, experimental condition is 170A load, continuously the work data of 24 hours × 10 days； Ambient temperature is 26 ± 3 DEG C；Obtain following main test data.

Therefore, the high pressure resistant layer in the present invention has excellent high voltage performance；And through comprehensively measuring and calculating, cost compares city The high tension cable special-purpose polychloroethylene protective cover material sold is low by 30%；And process velocity fast 25～45%；Through producing, resistance in the present invention High pressure zone, when the speed of production of 45～65m/min, produces the cable of a diameter of 60mm, during high pressure resistant layer 2.0mm, produces continuously 8 kilometers, having no that the phenomenon of de-material occurs in sheath, external diameter is stable in the range of 60 ± 0.1mm, and sheath is smooth, rounding.Above-mentioned electricity Cable, in user tries out the time of 1 year, does not shows any abnormalities, and has obtained the favorable comment of user.

Isolating the existence of skeleton in embodiment of the present invention, isolating bar therein serves the effect of isolation so that sheath The thickness of layer can be thinning, can increase again the pressure performance between adjacent high-tension bus-bar unit simultaneously；Make cable cost more Low.

Therefore, have more can high pressure resistant, high-voltage operation stable performance for the present invention, it is easy to lot-size produces, be prone to extrusion molding, Lower etc. the Advantageous Effects of cable cost produced.

The present invention is not limited to above-mentioned preferred forms, it will be appreciated that the design of the present invention can be by other all shapes Formula is implemented to use, and they also fall within protection scope of the present invention.

Claims (4)

1. the high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50～70 parts；

Linear low density polyethylene: 15～30 parts；

Dysprosia: 1～3 part；

Politef: 5～10 parts；

Cobalto-cobaltic oxide: 1～3 part；

Magnesium hydroxide: 10～15 parts；

Antioxidant 1010: 3～5 parts；

Silicon dioxide: 10～20 parts；

Calcium zirconate: 5～8 parts；

Zirconium dioxide: 5～10 parts；

Barium zirconate: 5～8 parts；

Tissuemat E: 6～8 parts；

Manganese dioxide: 1～3 part；

Iron sesquioxide: 1～3 part；

White carbon black: 3～6 parts.

2. the high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 60 parts；

Linear low density polyethylene: 22.5 parts；

Dysprosia: 2 parts；

Politef: 7.5 parts；

Cobalto-cobaltic oxide: 2 parts；

Magnesium hydroxide: 7.5 parts；

Antioxidant 1010: 4 parts；

Silicon dioxide: 15 parts；

Calcium zirconate: 6.5 parts；

Zirconium dioxide: 7.5 parts；

Barium zirconate: 6.5 parts；

Tissuemat E: 7 parts；

Manganese dioxide: 2 parts；

Iron sesquioxide: 2 parts；

White carbon black: 4.5 parts.

3. the high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 50 parts；

Linear low density polyethylene: 15 parts；

Dysprosia: 1 part；

Politef: 5 parts；

Cobalto-cobaltic oxide: 1 part；

Magnesium hydroxide: 10 parts；

Antioxidant 1010: 3 parts；

Silicon dioxide: 10 parts；

Calcium zirconate: 5 parts；

Zirconium dioxide: 5 parts；

Barium zirconate: 5 parts；

Tissuemat E: 6 parts；

Manganese dioxide: 1 part；

Iron sesquioxide: 1 part；

White carbon black: 3 parts.

4. the high pressure resistant layer material of high tension cable, it is characterised in that it is to be made up of the raw material of following weight portion:

High density polyethylene (HDPE): 70 parts；

Linear low density polyethylene: 30 parts；

Dysprosia: 3 parts；

Politef: 10 parts；

Cobalto-cobaltic oxide: 3 parts；

Magnesium hydroxide: 15 parts；

Antioxidant 1010: 5 parts；

Silicon dioxide: 20 parts；

Calcium zirconate: 8 parts；

Zirconium dioxide: 10 parts；

Barium zirconate: 8 parts；

Tissuemat E: 8 parts；

Manganese dioxide: 3 parts；

Iron sesquioxide: 3 parts；

White carbon black: 6 parts.