Production method for bus duct cable tray

A production method and technology of bus duct, applied in the field of bus duct bridge, can solve the problems of high brittleness, heavy overall weight, large shrinkage rate, etc., to increase elongation at break and yield strength, eliminate melt defects and product sink marks , Improve the effect of environmental stress cracking phenomenon

Active Publication Date: 2020-01-17
扬中市长龙管业有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Busway bridges in the prior art are generally made of steel strips or alloy materials through bending, angle grinding and other processing techniques, which require riveting, welding, laying and installation on site, not only the processing cost is high, but the overall weight is heavy, and the manufacturing, transportation and construction are caused Inconvenient, and the steel or alloy busway bridge has corrosion and static electricity problems, the cost of replacement is high, and there are hidden dangers of electricity use.
[0003] In the prior art, the plates are generally treated and reprocessed by coating or spraying anti-corrosion coatings or electroplating, which not only has higher production costs, but also has a cumbersome process, which is not conducive to laying. The characteristics of good corrosion and insulation can significantly reduce costs and achieve anti-corrosion and anti-static effects. However, the existing plastic materials using low-density polyethylene resin have low tensile strength, poor pressure resistance and rigidity. The resin plastic of polyethylene has strong rigidity, but its creep resistance and processing performance are poor, and its brittleness is relatively large. The resin plastic of medium density polyethylene is in between, but its shrinkage rate is large and its yield strength is poor. Urgent improvement is needed for the production of busway bridges

Method used

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  • Production method for bus duct cable tray

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] A method for producing a bus duct bridge, the method is as follows:

[0018] (1) Take 72 parts of high-density polyethylene and 43 parts of medium-density polyethylene in parts by mass and stir evenly in a reactor, then add 22 parts of cross-linking agent and 6 parts of initiator to carry out cross-linking modification, said The crosslinking agent is composed of triallyl isocyanurate and anilinomethyltrimethoxysilane in a mass ratio of 1:1, the initiator is dicumyl peroxide, and the reaction temperature of crosslinking modification is 200 ℃, the reaction time is 2h;

[0019] Place in the open mill and add 2 parts of catalyzers, 11 parts of maleic anhydride, and 5 parts of polymerization inhibitors to carry out melt graft polymerization, the catalyst is dibutyltin dilaurate, and the polymerization inhibitors are Polymerization agent 510, the reaction temperature of the melt graft polymerization reaction is 205°C, the reaction time is 5h, and then poured into acetone for...

Embodiment 2

[0023] A method for producing a bus duct bridge, the method is as follows:

[0024] (1) Take 62 parts of high-density polyethylene and 39 parts of medium-density polyethylene in parts by mass and stir evenly in a reactor, then add 23 parts of cross-linking agent and 5 parts of initiator to carry out cross-linking modification, said The crosslinking agent is formed by mixing vinyl tributylketoxime silane and anilinomethyltrimethoxysilane in a mass ratio of 1:1, the initiator is dicumyl peroxide, and the reaction temperature of crosslinking modification is 202°C, the reaction time is 3h;

[0025] Place in the open mill and add 2 parts of catalyzers, 9 parts of maleic anhydride, and 4 parts of polymerization inhibitors to carry out melt graft polymerization, the catalyst is dibutyltin dilaurate, and the polymerization inhibitors are Polymerization agent 701, the reaction temperature of the melt graft polymerization reaction is 215°C, and the reaction time is 4.5h, then poured in...

Embodiment 3

[0029] A method for producing a bus duct bridge, the method is as follows:

[0030] (1) Take 74 parts of high-density polyethylene and 35 parts of medium-density polyethylene in parts by mass and stir evenly in a reactor, then add 20 parts of crosslinking agent and 6 parts of initiator to carry out crosslinking modification, said The crosslinking agent is a mixture of triallyl isocyanurate, vinyl tributylketoxime silane and anilinomethyltrimethoxysilane in a mass ratio of 1:1:1, and the initiator is diperoxide For cumene, the reaction temperature for cross-linking modification is 195°C, and the reaction time is 3h;

[0031] Place in the open mill and add 2 parts of catalyzers, 11 parts of maleic anhydride, and 5 parts of polymerization inhibitors to carry out melt graft polymerization, the catalyst is dibutyltin dilaurate, and the polymerization inhibitors are Polymerization agent MZTQ, the reaction temperature of the melt graft polymerization reaction is 210°C, the reaction ...

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Abstract

The invention relates to a production method for a bus duct cable tray. The production method comprises the following steps: taking high-density polyethylene and medium-density polyethylene as a composite modified matrix; after carrying out cross-linking modification on the composite modified matrix and a cross-linking agent under the action of an initiator, fusing, grafting and polymerizing the product and maleic anhydride to obtain a multi-grafted modified polymer; blending the multi-grafted modified polymer and inorganic rigid particles subjected to surface treatment, and modifying, whereinthe inorganic rigid particles are selected from one or more of nano calcium oxide, glass microspheres, nano silicon dioxide and nano magnesium carbonate; extruding the blended product and a processing auxiliary agent through a double-screw extruder; fusing, pre-plasticizing and extruding into a mold of a sizing platform and sizing; adding circulating water outside the mold, and cooling and molding in vacuum; then pulling through a pulling machine, and cutting and molding. The fragility, creep resistance, yield strength and machinability of the extruded and molded bus duct cable tray are improved on the anticorrosion and antistatic basis, and the service life is longer.

Description

technical field [0001] The invention relates to a production method of a bus duct bridge, belonging to the technical field of bus duct bridges. Background technique [0002] The inside of the busway bridge frame is composed of copper, aluminum and other busbar columns to form a busbar connection combination for high-voltage or low-voltage power transmission. It has increasingly replaced wires and cables, especially when the current capacity is large, making the laying of the entire power system more convenient. , the cost is lower. Busway bridges in the prior art are generally made of steel strips or alloy materials through bending, angle grinding and other processing techniques, which require riveting, welding, laying and installation on site, not only the processing cost is high, but the overall weight is heavy, and the manufacturing, transportation and construction are caused Inconvenient, and the steel or alloy bus duct bridge has corrosion and static electricity proble...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L51/06C08K13/06C08K9/04C08K3/22C08K7/20C08K3/36C08F255/02C08F222/06
CPCC08F255/02C08K3/22C08K3/36C08K7/20C08K9/04C08K13/06C08K2003/2206C08K2201/011C08L2205/025C08L2207/062C08L51/06C08F222/06
Inventor 施金周
Owner 扬中市长龙管业有限公司
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