RU80856U1 - THE CLOTH - Google Patents

Abstract

The utility model relates to heat-resistant fabrics used mainly for thermal insulation.

To increase the mechanical strength of the fabric while maintaining a reduced air-transparent surface of the fabric without increasing its thickness, weave density, number of layers, etc., as well as to improve the operational characteristics and economic indicators of thermal insulation in the fabric, including interwoven warp and weft threads in the zones the contact of the strands is deformed by compressive action in the direction orthogonal to the surface of the fabric.

Description

The inventive utility model relates to heat-resistant fabrics used mainly for thermal insulation.

An analogue of the claimed utility model is fabric, including interwoven warp and weft threads (see Asbestos technical products. Handbook, M., TsNIITENeftekhim, 1966, pp. 17-28). The essential features of the analogue "including interwoven warp and weft" coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the necessity of using dense heavy fabrics or several layers of fabrics to ensure the effectiveness of thermal insulation.

The closest analogue of the claimed utility model is fabric, including interwoven warp and weft threads subjected to additional destructive action, as a result of which the threads are capable of partially cleaving individual fibers from the surface of the threads and breaking off the separated fibers from the surface of the fabric, installing and operating the insulation (see. RF patent No. 2237115, IPC ⁷ D03D 15/12, 2004). The essential features of the closest analogue ““ including interwoven warp and weft ”coincide with the essential features of the claimed utility model.

The disadvantage of the closest analogue is the decrease in the mechanical strength of the fabric due to the special destructive effect and the splitting of the fibers during transportation, installation and operation of the fabric.

The problem to which the claimed utility model is directed is to increase the mechanical strength of the fabric while maintaining a reduced air-transparent surface of the fabric without increasing its thickness, weave density, number of layers, etc., which significantly improves the performance and economic performance of thermal insulation.

To achieve the specified technical result in a fabric, including interwoven warp and weft threads, the threads in the contact areas of the threads are deformed by compressive action in a direction orthogonal to the surface of the fabric.

The essential features of the claimed utility model “threads are deformed by compressive action in the direction orthogonal to the surface of the fabric” are distinctive from the features of the closest analogue.

The fabric is a fabric made by weaving the warp and weft threads on a loom. The fabric can have plain, twill, etc. weave threads, be two-layer, etc. The composition of the fabric includes threads (fibers) that are not subjected to special destructive mechanical stress (for example, crushing), as a result of which the threads are not capable of partial cleavage from the surfaces of the threads of individual fibers during transport, installation and operational loads. The fabric is subjected to compression in the direction orthogonal to the fabric surface, as a result of which the fabric threads are deformed (flattened) in the contact areas of the weft and main threads, due to which the gaps between the threads (fabric gaps) are partially or completely closed.

A specific example of the claimed fabric is a fabric, the composition of the threads of which includes asbestos fibers and cotton fibers that have not been subjected to special destructive effects. The fabric laid in packs was exposed to a load for 2 hours, providing a decrease in the cross-section of the fabric in the areas of contact of the threads by at least 0.5%.

The inventive fabric can be made by known methods. In this case, the necessary deformation of the threads and the overlap of the gaps of the fabric can be ensured by various methods, for example, by gravity, pressing, etc.

The fabrication of fabric using deformed yarns as a part of it allows, by flattening these yarns, to reduce the gaps between the yarns, and thereby reduce the translucent surface of the fabric. Reducing the translucent surface helps to reduce gas flows passing through the fabric during operation, and, accordingly, improve the heat-insulating characteristics of the fabric. At the same time, the mechanical strength of the fabric does not decrease, since deformation reduces the airtight surface without special destructive effects.

Claims (1)

A fabric comprising interwoven warp and weft threads, characterized in that the threads in the contact zones of the threads are deformed by compressive action in a direction orthogonal to the surface of the fabric.