RU2046853C1 - Conducting fabric - Google Patents

Abstract

FIELD: electric engineering; woven fabrics. SUBSTANCE: fabric has electric insulation warp threads made from shrinkable material and two groups of welt threads one of which has conducting threads and the other one has electric insulation threads manufactured from non-shrinkable material. The insulation thread materials are selected to enable the fabric to increase friction forces due to shrinking warp threads at the places of engagement with conducting thread, when heated, and prevent conducting threads from their leaving the fabric plane. EFFECT: improved quality characteristics. 2 cl, 3 dwg

Description

 The invention relates to the textile industry and can be used for the production of woven electric heating elements.

Known conductive fabric containing electrical insulating warp threads and two groups of weft threads, one of which is electrical insulation and the other electrically conductive [1]
Also known is a fabric with an electrically conductive thread containing electrical insulating warp threads and two groups of weft threads, one of which contains electrical conductive and the other electrical insulating threads, while the electrical insulating warp and weft threads are made of non-shrink material in the form of heat-fixed polyester threads [2]
A common disadvantage of known fabrics with an electrically conductive thread is the low reliability associated with the exit of the conductive thread beyond the plane of the fabric when it is heated. This is due to the fact that the conductive core of the electrically conductive filament lengthens when heated, and the length and width of the fabric, due to the performance of all electrical insulating threads of non-shrink material, remain unchanged. In addition, the friction forces at the points of contact of the main filaments with the electrically conductive filament are already insufficient to hold it in starting position in the tissue. As a result of this, the electrically conductive filament, as it were, extends two adjacent upper or lower main filaments and loops beyond the plane of the fabric, which can lead to a violation of the integrity of the heating element, short circuit and other undesirable consequences.

 The aim of the invention is to increase the reliability of the electrically conductive fabric by preventing the exit of the electrically conductive thread beyond the plane of the fabric when it is heated.

 To do this, in an electrically conductive fabric containing two groups of weft threads interwoven with electrical insulating warp threads, one of which is electrically conductive, and the other is electrical insulating thread of non-shrink material, the main thread is made of material having shrinkage.

 There are a significant number of threads that shrink when heated. In the manufacture of heating elements of flexible household appliances (heating pads, etc.) it is advisable to use polyester threads as the main (shrinking) threads, and heat-fixed polyester threads without shrinkage as weft.

 In FIG. 1 shows the structure of fabric electric heaters before heating; figure 2 section of the fabric to heat along the main threads; figure 3 is a section of a heating fabric after heating; figure 4 section of the fabric along the main threads after heating.

 When a fabric with an electrically conductive thread 1 is woven, its structure (structure) corresponds to the structure (structure) of the fabric of the prototype. With the passage of current through the electrically conductive thread 1, it heats up, heating the entire fabric, i.e. all electrical insulating main 2 and weft 3 threads. Since the weft electrical insulating threads 3 are made of non-shrink material, when heated, there is no change in their length. And the main electrical insulating threads 2 when heated, begin to shrink due to their performance from shrinkage material. At the same time, in the places of contact of the main threads with the electrically conductive thread 1, the friction forces from the stresses arising from the temperature shrinkage of the main threads increase, i.e., those stresses that arise when the main threads shrink, they fix the conductive threads 1 in the fabric even more strongly.

 In addition, as the temperature shrinks, the mutual pressure force of the main threads towards each other increases, increasing the curvature of the electrically conductive weft thread, thereby compensating for their thermal elongation, evenly distributing it along the entire weft length.

 These forces become enough to keep the electrically conductive filament in its original state, despite its elongation from heating. This ensures reliable fixation of the electrically conductive filament in the structure of the fabric and excludes the possibility of its going beyond the plane of the fabric.

 The use of the invention will improve the reliability of fabrics with electrically conductive thread.

Claims (2)

 1. ELECTRIC CONDUCTING FABRIC, containing two groups of weft threads interwoven with electrical insulating warp threads, one of which is electrically conductive, and the other is electrical insulating thread of non-shrink material, characterized in that, in order to increase the reliability of use by reducing the exit of the conductive thread beyond the plane of the fabric when its heating, the main threads are made of material having shrinkage.  2. The fabric according to claim 1, characterized in that the electrical insulating weft threads are thermofixed polyester threads, and the main threads are polyester threads.

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