RU2178816C1 - Incombustible cloth (versions) - Google Patents

Abstract

FIELD: textile industry. SUBSTANCE: incombustible cloth is manufactured from mineral threads and wire, with glass fibers being employed as mineral threads. Wire is used as core thread and glass fibers are used as filling threads, with core and filling thread density being 2-3: 1. According to another embodiment, incombustible cloth has mineral threads and wire, with glass fibers being used as mineral threads. Wire is arranged in alternation with glass fibers. Combined threads are used as core threads and glass fibers are used as filling threads, with core and filling thread density ratio being 2: 1. According to other embodiment, incombustible cloth is made from mineral threads and wire, with glass fibers being used as mineral threads. Combined wire and glass fiber threads are used as filling threads and glass fibers are used as core threads at core and filling thread ratio of 1: 3. EFFECT: increased efficiency and improved operating characteristics of cloth. 15 cl, 10 ex

Description

 The invention is used in woven materials with heat-resistant or refractory yarns, for example, from mineral fibers and steel wire in the radio engineering, electronic and electrical industries.

 Known fabric in which metal threads are intertwined with fiberglass threads, and the metal threads protrude above the fabric in the form of loops (A.S. USSR 945261, class D 03 D 15/02, 1982). The fabric has increased wear resistance.

 The disadvantage of this fabric is the arbitrary arrangement of wires, protruding loops of wires above the fabric and their optional isolation.

 Known non-combustible fabric containing mineral filaments and wire (German patent 2528821, CL D 03 D 15/12, 1977).

 The disadvantage of this fabric is that it does not provide the necessary properties when used in the radio, electronic and electrical industries. It has chemical, thermal and mechanical strength.

 The objective of the present invention is to obtain fabric used in the radio, electronic and electrical industries.

 The technical result obtained from this invention is to obtain a fabric that provides a certain step (distance between the wires), the stability of the wires and their complete isolation from each other, which allows it to provide the necessary physical, electrical and radio technical characteristics and the ability to install this material into the product.

 This result is achieved by the fact that in non-combustible fabric containing mineral filaments and wire, glass filaments are used as mineral filaments, moreover, the wire is used as main filaments, and glass filaments are used as weft yarns at a ratio of densities of main yarns and weft 2-3 : 1.

 The ratio of the diameters of glass fibers and wire is 2-3: 1.

 The wire used is stainless steel wire, the linear expansion coefficient of stainless steel wire and the linear expansion coefficient of glass filaments are 1: 1.

 Nickel alloy is also used as a wire.

 Also used as a wire are copper wire in silk braid.

 In another embodiment, in non-combustible fabric containing mineral filaments and wire, glass filaments are used as mineral filaments, moreover, the wire is combined with glass filaments and they are used as main filaments, and glass wefts are used as weft yarns at a ratio of the densities of the main yarns and weft 2 : 1.

 The ratio of the diameters of glass fibers and wire is 3: 1.

 Stainless steel wire is used as a wire; the linear expansion coefficient of stainless steel wire refers to the linear expansion coefficient of glass filaments as 1: 1.

 Nickel alloy is also used as a wire.

 Also used as a wire are copper wire in silk braid.

 In the third embodiment, in non-combustible fabric containing mineral threads and wire, glass threads are used as mineral threads, moreover, the wire in combination with glass threads is used as weft threads, and glass threads are used as main threads at a ratio of the densities of the main threads and weft 1 : 3.

 The ratio of the diameters of glass fibers and wire is from 4: 1 to 6: 1.

 Stainless steel wire is used as a wire; the linear expansion coefficient of stainless steel wire refers to the linear expansion coefficient of glass filaments as 1: 1.

 Nickel alloy is also used as a wire.

 Also used as a wire are copper wire in silk braid.

 The selected ratio of densities and diameters ensures the stability of the wires in the longitudinal and transverse directions and the insulation of the wires from each other necessary for a certain voltage range, as well as a satisfactory weaving process. A change in these ratios leads to a change in the pitch between the wires, deterioration of the insulation of the wires, a large break in the glass filaments and the inability to conduct the process.

Example 1. Non-combustible fabric is produced on a metal weaving rapier STP-120. The warp threads are composed of stainless steel wire with diameter d = 55 micron _ave wound on the drum with a density of _about P = 1200 dm ^-1. Glass fiber weft (grade E glass), the linear density of the twisted yarn is 11 tex d _n = 110 μm, the density of the weft yarn P _y = 400 dm ^-1 , twill weave 3/1. The ratio of the densities P _o / P _y = 3: 1, the ratio of the diameters of the glass filament and wire d _n / d _CR = 2: 1. The coefficient of linear expansion of stainless steel wire to the coefficient of linear expansion of glass fibers is 1: 1.

Example 2. Carried out analogously to example 1, however, the main threads consist of an alloy of Nickel grade NK-29. The density of the main threads is P _about = 780 dm ^-1 , the density of the weft threads is P _y = 390 dm ^-1 . The density ratio (P _o / P _y ) is 2: 1. The diameter of the nickel alloy thread is 40 μm (d _ol ), the diameter of the glass thread (d _n ) is 120 μm, the diameter ratio d _n / d _ol = 3: 1 .

 Example 3. It is carried out analogously to example 1, but as the main threads use a copper wire in a silk braid PESHO - 0.1.

 Example 4. Non-combustible fabric is produced on a metal weaving rapier with two navoi.

A stainless steel wire with a diameter of d _pr = 55 μm is wound onto a drum with a density of 220 dm ^-1 , a base of twisted glass filaments with a linear density of 22 tex (filament diameter d _n = 165 μm) is mounted on a warping machine SL-40 X with a density of 220 dm ^-1 and transferred to weaving. Both bases are installed to the sawing machine and drilled into the galevskiy hedgehog and reed teeth alternating: one is a glass thread, one is a wire, etc. Two bases: a drum with a wire and a block with glass threads, as well as a heald device are installed on a metal loom: a drum with a wire in the nests of the machine, and a weaving pile with glass threads is installed on the weaving machine on special racks with a belt brake. The fabric is produced by weaving twill 3/1 with a density of weft threads 220 dm ^-1 . The ratio of the diameters of the glass filament and wire is d _n / d _pr = 3: 1, and the ratio of the total density (wire + glass filaments) of the main threads to the density of the glass weft threads is 2: 1. The linear expansion coefficient of stainless steel wire to the linear expansion coefficient glass filament refers as 1: 1.

 Example 5. Carried out analogously to example 4, however, as the wire used is an alloy of nickel NK-29.

Example 6. It is carried out analogously to example 4, but the wire used is a copper wire in a silk braid PESHO - 0.05, and the ratio of the diameters of the glass thread and wire is d _n / d _CR = 3: 1 (d _n = 150 μm, d _CR = 50 microns), the ratio of the densities of the main (total wire + glass thread) and weft is P _o / P _y = 2: 1.

Example 7. Non-combustible fabric is produced on a 2-shuttle loom AT-2-160 SHL5. The main glass threads with a linear density of 28 tex are wound onto a weaving fabric with a density of 140 dm ^-1 , weft wires are used with a diameter of 30 μm (d _n ) and a glass thread with a linear density of 11 tex (nominal diameter 120 μm) wound around the weft spools. The density of the weft 210 dm ^-1 wires + 210 dm ^-1 glass filaments (a total of 420 dm ^-1 ). The ratio of the densities P _o / P _y = 1: 3, the ratio of the diameters of the glass filaments and wire d _n / d _CR = 4: 1. The coefficient of linear expansion of stainless steel wire to the coefficient of linear expansion of glass fibers is 1: 1.

Example 8. Carried out analogously to example 7, however, the ratio of the diameters of the glass fibers and wire is 6: 1 (d _n = 180 microns, d _CR = 30 microns).

 Example 9. Carried out analogously to example 7, however, the wire used as weft threads consists of a nickel alloy grade NK-29, which is combined with a glass thread of E 11 Tex glass.

 Example 10. It is carried out analogously to example 7, but as weft threads used wire in a silk braid PESHO-0,1 in combination with a glass thread.

Claims (15)

 1. Non-combustible fabric containing mineral filaments and wire, characterized in that glass filaments are used as mineral filaments, the wire being used as the main filaments, and glass filaments are used as weft yarns at a ratio of the densities of the main yarns and weft 2-3: 1.  2. Non-combustible fabric according to claim 1, characterized in that the ratio of the diameters of glass fibers and wire is 2-3: 1.  3. Non-combustible fabric according to claim 1 or 2, characterized in that stainless steel wire is used as a wire, the linear expansion coefficient of stainless steel wire refers to the linear expansion coefficient of glass fibers as 1: 1.  4. Non-combustible fabric according to any one of paragraphs. 1-3, characterized in that a nickel alloy is used as a wire.  5. Non-combustible fabric according to claim 4, characterized in that the wire used is a copper wire in a silk braid.  6. Non-combustible fabric containing mineral filaments and wire, characterized in that glass filaments are used as mineral filaments, moreover, the wire is combined with glass filaments and they are used as warp filaments, and glass filaments are used as weft filaments at a ratio of densities of warp filaments and weft 2: 1.  7. Non-combustible fabric according to claim 6, characterized in that the ratio of the diameters of the glass fibers and wire is 3: 1.  8. Non-combustible fabric according to claim 6 or 7, characterized in that stainless steel wire is used as a wire, the coefficient of linear expansion of stainless steel wire refers to the coefficient of linear expansion of glass fibers as 1: 1.  9. Non-combustible fabric according to any one of paragraphs. 6-8, characterized in that a nickel alloy is used as a wire.  10. Non-combustible fabric according to claim 9, characterized in that the wire used is a copper wire in a silk braid.  11. Non-combustible fabric containing mineral filaments and wire, characterized in that glass filaments are used as mineral filaments, moreover, the wire in combination with glass filaments is used as weft filaments, and glass filaments are used as main filaments at a ratio of the densities of the main filaments and weft 1: 3.  12. Non-combustible fabric according to claim 11, characterized in that the ratio of the diameters of glass fibers and wire is from 4: 1 to 6: 1.  13. Non-combustible fabric according to claim 11 or 12, characterized in that stainless steel wire is used as a wire, the coefficient of linear expansion of stainless steel wire refers to the coefficient of linear expansion of glass fibers as 1: 1.  14. Non-combustible fabric according to any one of paragraphs. 11-13, characterized in that a nickel alloy is used as a wire.  15. Non-combustible fabric according to claim 14, characterized in that the wire used is a copper wire in a silk braid.