RU2129172C1 - Twisted reinforced thread - Google Patents

Abstract

FIELD: textile and sewing industry. SUBSTANCE: twisted reinforced thread has reinforced yarn, complex polyester core filament positioned at an angle of 13-17 deg to axis of twisted reinforced thread, and sheathing composed of filaments of final length attached by twisting. Sheathing is made from staple polyester filaments having winding extent of 7.6-12.3% and winding stability of 67.4-83.8%. Thread has at least two reinforced twisted yarns. EFFECT: increased strength and elasticity of stitches during lengthening of stitches in longitudinal and transverse directions with respect to stitch line. 2 cl, 2 tbl

Description

 The invention relates to the textile industry and relates to a twisted reinforced thread, which can be used mainly in the clothing industry.

Known twisted reinforced thread / 1 / containing an unreinforced component in the form of a complex polyester thread and a reinforced yarn with a core of a complex polyester thread and a braid of cotton fibers, and a complex polyester thread of an unreinforced component has a twist of 0.75-1.00 of twist reinforced yarn and twisted reinforced yarn, the same as twist reinforced yarn and opposite to twist twisted reinforced yarn in the direction of the core of the reinforced yarn at an angle of 13-17 ^o to the axis of the circle reinforced thread.

 A disadvantage of the known twisted yarn / 1 / is the limitation of the possibility of using it in the sewing of synthetic fabrics from shaped elastic yarns, when the cotton braid of the yarn prevents the deformation of complex polyester yarn together with the seam and the strength of the latter decreases.

The technical result of the claimed twisted reinforced thread, including reinforced yarn, the core complex polyester thread of which is located at an angle of 13-17 ^o to the axis of the twisted reinforced thread, and the braid consists of fibers of finite length, fixed with twist, is to eliminate these drawbacks through the use of homogeneous raw materials in core thread and braid, similar in elastic properties to the fabrics for which the thread is intended, the elasticity and adhesion of the braid due to the degree of Its twisting and stability within limited limits, combined with the inclusion of at least two reinforced yarns twisted together, makes the thread more durable and elastic, able to withstand the dynamic multiple loading experienced by it in sewing, and provides increased tensile strength and elasticity of the seams along and across the line of the line.

The problem is solved in that in a twisted reinforced thread, including reinforced yarn, the core complex polyester thread of which is located at an angle of 13-17 ^o to the axis of the twisted reinforced thread, and the braid consists of fibers of finite length, fixed by twist, when the braid consists of staple polyester fibers having a degree of crimp of 7.4-12.3% with its stability of 67.4-83.8% and at least two reinforced yarns twisted together are included in the thread.

 The authors do not know in the prior art twisted reinforced yarn, which together would have features similar to those that differ from the prototype of the claimed thread.

 Examples of twisted reinforced yarns produced under the conditions of Sovetskaya Zvezda AOOT using lavsan (L) multifilament yarns and staple fibers of the Khimvolokno plant, Mogilev, Belarus, as well as staple polyester fibers from Turkey, similarly designated “L”, and for braiding the prototype cotton threads 2-1 sorting are given in table. 1.

 Cotton (X) fiber has a natural stable crimp, which is straightened and, as a result of braid preparation by a combed spinning system, reaches a straightening coefficient of 0.70-0.75.

 Staple polyester fibers receive artificial crimp and the difficulty of preparing them for braiding is the separation of the staple fibers while maintaining the crimp indices within certain limiting limits. The curl of the fibers was determined at JSC Petronit (LenNIITP) using an IV-Z device.

 The crimp indices were selected as the first degree of crimp, which characterizes the increment of the fiber length to the moment of full straightening under the action of a load of 0.003 cN / tex and its stability after load fixation for 30 s At the same time, the fibers were taken from the braid of the reinforced yarn unwound on a spin meter. Indicators of physico-mechanical twisted reinforced threads - examples are given in table. 2.

 To characterize the operational properties of twisted reinforced yarns, the strength of the joints was adopted when loading along and across the stitch line according to GOST 28073-93 when sewing fabrics of Tchaikovsky Textile CJSC of artificial silk art.82264 with a prototype thread 25LX and the declared thread according to example 1 25 LL and viscose -polyester with the content of shaped threads of fabrics art. 14735 of the declared thread according to example 2 35 LL.

 From the table. 2 shows that the specific tensile load of 13-25%, and tensile elongation of 10.5-17% of the claimed yarn in examples 1 and 2 have higher rates than the prototype thread. The breaking load of the seam along the seam line is 12.4%, and across the seam line by 59.4% more when using the yarns of Example 1 than when using the prototype yarn. The tensile strength of the seam when using the inventive yarn according to example 2 is high and, in addition, when performing the seams, their contraction was not observed.

 Twisted reinforced threads of a higher density than in the examples of linear density of two reinforced yarns 21.5 tex x 2 45LL and of three 21.5 tex x 3 - 65LL, made in accordance with the characteristics indicated in the formula, and are designed for sewing more dense fabrics and materials.

 Thus, the proposed technical solution to use a braid of staple polyester fibers having a degree of crimp of 7.4-12.3% with its stability of 67.4-83.8%, and to include at least two armored yarns twisted together in comparison with the prototype gives improving the operational properties of the twisted reinforced thread through the use of homogeneous raw materials in the core thread and the braid, similar in elastic properties to the fabrics for which the thread is intended, moreover, the elasticity and adhesion of the braid due to the step The new crimp and its stability to a limited extent, combined with the inclusion of at least two reinforced yarns twisted together, makes the twisted thread more durable and elastic, able to withstand the dynamic multiple loading experienced by it in sewing, and to provide increased tensile strength and elasticity of the seams along and across the line of the line.

Claims (2)

1. Twisted reinforced yarn, including reinforced yarn, the core complex polyester yarn which is located at an angle of 13-17 ^o to the axis of the twisted reinforced yarn, and the braid consists of fibers of finite length, fixed by twist, characterized in that the braid consists of staple polyester fibers having the degree of tortuosity of 7.4-12.3% with its stability of 67.4-83.8%.  2. The thread according to claim 1, characterized in that it includes at least two reinforced yarns twisted together.

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