CN201893204U - Insulated wear and high temperature resistant glass fiber casing - Google Patents

Abstract

The utility model discloses an insulated wear and high temperature resistant glass fiber casing, which comprises a glass fiber layer and a terylene and polyacrylic ester mixed layer, wherein two annular structures are respectively formed by the glass fiber layer and the terylene and polyacrylic ester mixed layer; and the outer wall of the annular structure of the glass fiber layer is connected with the inner wall of the annular structure of the terylene and polyacrylic ester mixed layer. The insulated wear and high temperature resistant glass fiber casing has the advantages of better high temperature resistance, dielectric property, self-extinguishing property and flexibility; meanwhile, the heat-radiating performance of the glass fiber layer cannot be influenced; and a protective jacket is formed on the surface of the glass fiber layer, so that the aim of enhancing the wear resistance of the glass fiber layer is achieved.

Description

A kind of insulation Wear-resistant, high-temperature resistant glass fibre sleeve

Technical field

The utility model relates to a kind of automobile that is used for, shipbuilding, electrothermal device, electron beam lines, lamp decoration, the insulation Wear-resistant, high-temperature resistant glass fibre sleeve in motor device field.

Background technology

At present, be used for automobile, shipbuilding, electrothermal device, electron beam lines, lamp decoration, motor device field glass fibre sleeve, its heat-resisting quantity, resistance to wear, dielectricity, self-extinguishment, even flexibility all can not meet the demand of industry performance, so be badly in need of a kind of more excellent resistance to wear that has, dielectricity, self-extinguishment, the insulation heat-resisting quantity glass fibre sleeve of flexibility.

The utility model content

In order to obtain a kind of more excellent heat-resisting quantity that has, dielectricity, self-extinguishment, the insulation resistance to wear glass fibre sleeve of flexibility the utility model proposes a kind of new technical solution, and particular content is as follows:

A kind of insulation Wear-resistant, high-temperature resistant glass fibre sleeve comprises glass layer, terylene polyacrylate mixed layer; Described glass layer, terylene polyacrylate mixed layer forms a circulus respectively; Described glass layer circulus outer wall connects terylene polyacrylate mixed layer circulus inwall.

Described terylene polyacrylate mixed layer is one deck, is made up of with soaking with the polyacrylate of high-temperature process after diluting terylene; The described polyacrylate that soaks with high-temperature process after diluting is arranged on the surface of terylene.

The thickness of described terylene polyacrylate mixed layer is less than the thickness of glass layer.

This has just strengthened the resistance to elevated temperatures of glass layer integral body, does not also influence the heat dispersion of original glass layer simultaneously, also forms a protective sleeve at the glass fibre laminar surface, realizes the protective effect to glass layer.

The utility model produces following beneficial effect:

The utlity model has more excellent heat-resisting quantity, dielectricity, self-extinguishment, flexibility, the while does not influence the heat dispersion of glass layer, also forms a protective sleeve at the glass fibre laminar surface, has reached the purpose of the fibrolaminar resistance to wear of reinforcing glass.

Description of drawings

Fig. 1 is the structural representation in the utility model cross section.

Embodiment

As shown in Figure 1, the utility model comprises glass layer 1, terylene polyacrylate mixed layer 2; Glass layer 1, terylene polyacrylate mixed layer 2 forms a circulus respectively; Glass layer 1 circulus outer wall connects terylene polyacrylate mixed layer 2 circulus inwalls.And terylene polyacrylate mixed layer 2 is one deck, form with soaking by terylene with the polyacrylate of high-temperature process after diluting, the polyacrylate that soaks with high-temperature process after diluting is arranged on the surface of terylene, and promptly terylene woven Cheng Guanzai is mixed into terylene polyacrylate mixed layer 2 with the polyacrylate that soaks with high-temperature process after diluting.

And the thickness of terylene polyacrylate mixed layer 2 is less than the thickness of glass layer 1.

This has just strengthened the resistance to elevated temperatures of glass layer integral body, does not also influence the heat dispersion of original glass layer simultaneously, also forms a protective sleeve at the glass fibre laminar surface, has reached the purpose of the fibrolaminar resistance to wear of reinforcing glass.

For a person skilled in the art, can make other various corresponding changes and distortion, and these all changes and distortion should belong within the protection range of the utility model claim all according to technical scheme described above and design.

Claims (3)

1. an insulation Wear-resistant, high-temperature resistant glass fibre sleeve is characterized in that, comprises glass layer, terylene polyacrylate mixed layer; Described glass layer, terylene polyacrylate mixed layer forms a circulus respectively; Described glass layer circulus outer wall connects terylene polyacrylate mixed layer circulus inwall.

2. a kind of insulation Wear-resistant, high-temperature resistant glass fibre sleeve as claimed in claim 1 is characterized in that described terylene polyacrylate mixed layer is one deck, is made up of with soaking with the polyacrylate of high-temperature process after diluting terylene; The described polyacrylate that soaks with high-temperature process after diluting is arranged on the surface of terylene.

3. as a kind of insulation Wear-resistant, high-temperature resistant glass fibre sleeve of claim 1 or 2, it is characterized in that the thickness of described terylene polyacrylate mixed layer is less than the thickness of glass layer.

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