TWI286169B - Yarn processing method and yarn processing machine - Google Patents

Abstract

A yarn processing method is proposed for producing a fancy yarn from at least one filament yarn (1), comprising the process steps of supplying the filament yarn (1) into a texturing unit (10) with a run of thread having a filament yarn tension, and texturing the filament yarn (1) using the texturing unit (10). According to the invention, the filament yarn tension is repeatedly lowered over time by repeatedly producing in each case a stock of filament yarn which is repeatedly supplied to the run of thread before supplying the filament yarn (1) into the texturing unit (10).

Description

1286169 IX. INSTRUCTIONS OF THE INVENTION: TECHNICAL FIELD The present invention relates to a yarn processing method for producing fancy yarns from at least one filament yarn, comprising the following process steps: using a false twist method A path having a line of filament yarn tension supplies the filament yarn to a deformation unit ' and deforms the filament yarn by the deformation unit; and the present invention relates to a yarn set from at least one filament Making a yarn of a fancy yarn _ machine. [Prior Art] A yarn processor (air deformer) that processes filament yarns with an air deforming nozzle is further known. Such air deformers are disclosed in DE 39 〇 9 5 16 A1. The air texturing machine is used to permanently crimp smooth unstructured filament yarns. In this case, a plurality of supply yarns (core lines) can be processed together with different over-transferred fancy yarns to form a textured yarn. During this process, the filament yarns are uniformly crimped and optionally disposed around the supply yarn. Cover lines can • Contain a variety of fancy lines. The filament yarns (i.e., the cover wire and the core wire) are supplied to an air deformation nozzle via an adaptive system (e.g., a guide wire reel). After the yarns pass through the air deforming nozzle, the multicomponent yarn is taken up by winding a fancy yarn (multicomponent yarn) composed of a plurality of components on a bobbin. The multicomponent yarn can be stretched, fixed, shrunk and/or trimmed again prior to winding. A yarn processing machine for performing a false twist method or a false twist deformation method is further known. This method is also known as the torsion crimping method. In this case, the filament yarn obtains a so-called false _ between two pairs of cylinders (i.e., a conveying system and a take-up system) by a twisting unit, and the false twist is heated by the thermoplastic filaments. I00736.doc -6 - 1286169 Yarn is fixed in its capillary line. After cooling, the latent torsional force has a ~ effect and causes the fancy yarn to be crimped. One of the disadvantages of known yarn processing machines is that the fancy yarns produced have a structure. However, in order to manufacture various types of fabrics, the two yarns have an irregular structure. For example, this may have the effect that the fancy yarn produced or the fabric woven with the fancy yarn gives an impression of the manual action. Furthermore, the structure of the fancy yarn to be manufactured cannot be changed flexibly enough during the manufacturing process. A so-called Fancyflex system is further disclosed in the European patent application EP 01 117 809. This type of fancy flexible system is an eight-wire guide that produces the yarn material of the yarn to be processed in successive irregular time intervals. This yarn material is again supplied in a jerk mode to the path of the yarn to be treated. This causes the tension of the yarn to be treated to be abruptly interrupted, causing interference in the path of the line which causes a certain effect in the treated yarn. SUMMARY OF THE INVENTION It is an object of the present invention to provide a 'line processing# method and a yarn processing piece for manufacturing a fancy yarn by deformation, the yarn, the line method and the yarn processing machine avoiding the first The disadvantages of the 刖 technology, and in particular can be used to make fancy yarns with irregular structures. This project is achieved by the yarn processing method of the independent request item and the yarn processing machine. The appended claims represent preferred embodiments of the invention. In the yarn processing method for producing a fancy yarn from at least one filament yarn according to the present invention, the filament yarn has a yarn tension of one with a filament of 100736.doc!286169

The path of the line is supplied to a deformation unit. The filament yarn is deformed by the deformation unit. The basic component of the filament yarn tension is generated by (in the case of (4) configuring the transmission system in front of the deformation unit in the path of the line and configuring a yarn feeding system after the deformation unit. The line guiding device (ie, the conveying system and The yarn feeding system) operates at a different (four) speed to produce the basis component of the filament yarn tension of the path of the thread. According to the invention, the filament yarn tension is produced in each case by repeatedly producing the filament yarn material. And repeatedly decreasing over time, the filament yarn material is repeatedly supplied to the path of the wire before the filament yarn is supplied to the deformation unit. For example, the tension of the filament yarn may be in each case. Suddenly briefly tightening the filament yarn in the path of the wire (ie, the initial increase in filament tension compared to the base component) and repeatedly decreasing. When the filament yarn is fed again, the filament yarn The tension suddenly disappears, which leads to the manufacture of the raw material of the filament yarn and the supply of the path to the thread. Since the filament yarn passes through the deformation unit with various filament yarn tensions, the fancy yarn produced has a basis Filament yarn Structure of force that is more or less strongly deformed. The structure of the chemical yarn can be flexibly manufactured by using the method according to the invention. The reduction of the tension of the filament yarn can be arbitrarily determined by a suitable control system. Regularly adjusted. Thus a new fancy yarn can be made. A variable distribution of the material can be produced, ie a variable distribution of filament yarns over the length of the finished fancy yarn. The finished fancy yarn can have a flame Effect or cumulative effect, making it possible to manufacture a completely new type of material. The filament yarn tension change module is preferably inserted before the heater to deflect the path of the wire along the direction of travel of the line and form a supply of the wire. The yarn tension change module is inserted in front of a cooler and/or in a region of a cooler and/or after a cooling device, the deflection of the wire supply is angled to an angle of αβ. These measures can increase the stability of the process and affect the tension of the thread in the middle. The yarns to be treated have different widths and various tension peaks which are particularly effective in affecting the yarn to be treated. Preferably, the thread tension is reduced at irregular time intervals and/or different strengths, thereby achieving the effect of giving an impression that the structure of the finished fancy yarn is apparently randomly changing. The filament yarn material is particularly preferably supplied to the deformation unit. Passing through a heater before. Different portions of the filament yarn have different residence times in the heater due to varying filament yarn tension. The irregular effect of the fancy yarn made in accordance with the present invention is The filament yarn to be treated is heated to a different strength to strengthen 'this results in varying degrees of thermoplasticity of the filament yarn. The variant according to the invention comprises false twist deformation. By means of this deformation method, the finished fancy yarn can be used A particularly significant irregular effect is achieved. After the diamond 7G, at least the line (preferably the filament line) can be additionally supplied with a path of the length of the yarn: the line of the yarn tension. In this case, The outer yarn of the non-toothed yarn of the anti-filament yarn tension (the filament yarn tension change mode) and the additional supply of the filament yarn preferably pass through the entire manufacturing process. The yarn leaving the deformation unit is intertwined with the supplied yarn. The yarn processing machine according to the present invention is arranged to be composed of at least one filament yarn processing machine comprising at least one deformation unit and a plurality of yarn processing machines placed on the yarn processing machine; 7 | j first gshi A wire guiding device is provided such that the length 4, :: / line can pass through the z-shaped single turn with a path having a thread tension of the filament. In accordance with the present invention, the yarn processing machine has a plurality of filament yarn tension varying modules disposed in the path of the yarn processing machine in the path of 100736.doc 1286169. In this case, the filament yarn tension change module is arranged to repeatedly reduce the filament yarn tension over time by repeatedly producing a filament yarn material in each case, wherein The filament yarn material is repeatedly supplied to the path of the yarn before being fed into the deformation unit at different time intervals and/or over-transfer amounts. The line guiding means comprise at least one transfer system and a yarn feed system which can have different rotational speeds whereby a basis component of the φ 纟 filament yarn tension can be produced. The yarn processor according to the invention is arranged for carrying out the method according to the invention. The advantages of the method according to the invention are thus carried out by a yarn processor according to the invention. The filament yarn tension change module is placed in the forward direction of the filament with deflection under the heater and/or before the cooler and/or in the cooler region or after the cooler to improve the process or yarn quality. The false twist deformation 70 particularly advantageously comprises a fancy flexible unit as a filament yarn tension change module. Almost any filament tension distribution can be generated in a computer controlled manner using a flexible system. This makes it possible to simply produce the desired irregularities in the finished fancy yarn. The drawings in the drawings are highly schematic representations of the subject matter according to the invention, and should be understood as being presented in a manner that allows the components of the subject matter of the invention to be clearly displayed. . Figure 1 is a schematic view showing the path of the center line of the yarn processing machine according to the present invention. The filament yarn 1 first passes through the conveying system 2. At the end of the online path, the filament yarn passes through the yarn feeding system 3. The filament yarn may, for example, comprise a 100736.doc 1286169 partially oriented yarn (ρ〇γ) made of polyethylene terephthalate (PET), which consists of 36 filaments and has 100 The fineness of dernier. The yarn feeding system can have the same structure as the conveying system. In order to produce a basis component of the filament yarn tension, the filament yarn 1 is supplied from the conveying system 2 at a speed lower than the speed at which the yarn feeding system 3 removes the filament yarn 1 or the finished fancy yarn from the manufacturing process. Manufacturing process. The path of the line is further deflected by various steering rods 4. After the filament yarn 1 has passed through the conveyor system, the filament yarn passes through a steering rod 4, _ and then directly through the filament yarn tension change module 5, which is preferably a fancy flex unit (Fancyflex unit) ). In the filament yarn tension varying module 5, the path of the line has an acute angle whereby the filament yarn is returned to the other steering rod 4 before being supplied to the heater 6. In Fig. 1, the filament yarn tension varying module 5 is horizontally positioned (deflected in the line traveling direction). The filament yarn tension varying module 5 can also be placed before the cooler 7, and/or in the region of the cooler 7, and/or after the cooler 7. In these areas, the line supply travels along the line and/or at α < The angle is deflected. A plurality of filament yarn tension varying modules 5 can also be used. Since the run-off of the supply of filament yarn material in the path of the line can be affected, these different configurations can have an effect on the structure of the finished fancy yarn. The heater 6 is mounted together with the subsequent cooler 7. After the filament yarn has passed through the heater 6 and the cooler 7, the filament yarn 1 is fed to the deformation unit 丨〇. Fig. 2 shows an example of the tension of the filament yarn when the method according to the present invention is not carried out. The tension curve 20 (i.e., a portion of the time curve of the filament yarn tension) is drawn in a coordinate system including the tension shaft 21 and the time axis 22. The tension curve 20 is characterized by the base tension and different heights in irregular time intervals. I00736.doc 1286169 1 Filament yarn 2 Transfer system 3 4 5 6 7 10

Yarn feeding system Steering rod Filament yarn tension change module Heater Cooler Deformation unit Tension curve 21 Tension shaft 22 Time axis

100736.doc -14-

Claims (1)

Patent Application No. I28L6I69111207, Replacement of Chinese Patent Application (January 1996) X. Patent Application Range: A yarn processing method for manufacturing a fancy yarn from at least one filament yarn (1) using a false twist method Which comprises the following process steps: - supplying the filament yarn G) to a deformation unit (1〇) in a path having a thread tension of a filament; - deforming the deformation unit (1〇) The filament yarn (1) is characterized in that the filament yarn tension is repeatedly produced by repetitively feeding the path to the wire before the filament yarn # is supplied to the deformation unit (10). a filament yarn material which is repeatedly reduced over time, wherein the filament yarn material is deflected in a filament yarn tension varying module (5) preceding the heater (6) along the direction of travel of the strand And/or the filament yarn material travels along the line or at a temperature of 0. The angle is deflected in a filament yarn tension varying module (5) in the region of the cooler and/or the cooler (7) and/or after the cooler (7). The yarn processing method according to claim 1, characterized in that the filament yarn tension _ is reduced at irregular time intervals and/or at different strengths. 3. The yarn processing method according to claim 1, characterized in that After the deforming unit (1〇), at least one thread, preferably one filament thread, is additionally supplied in a path having a line of constant filament yarn tension and interlaced with the yarn obtained from the deforming unit. A yarn processing machine configured to manufacture a fancy yarn from at least one filament yarn (1), comprising: - at least one deformation unit (10), and 100736-960105.doc 1286169 - a plurality of a thread guiding device (2, 3, which is arranged such that the filament yarn (1) can pass through the deformation unit (1〇) in a path having a line of filament yarn tension, The yarn processing machine is characterized in that: the yarn processing machine has a filament yarn tension changing module The filament yarn tension changing module (5) is placed in front of the deforming unit (10) along the path of the line, and is placed in the yarn processing machine with one of the lines deflected in the traveling direction of the line Before one heater (6) and/or after cooling φ (7) and/or in the region of the cooler (7) and/or after the cooler (7), wherein: the filament yarn The thread tension varying module is arranged to repeatedly reduce the filament yarn tension over time by repeatedly producing a filament yarn stock in each case, wherein the filament yarn is supplied to Before the deformation unit (1 〇), the filament yarn material is repeatedly supplied to the path of the thread. 5. The yarn processing machine of claim 4, characterized in that the filament yarn tension change module ( 5) Includes a fancy flexible unit (Faneyflex unh) 〇100736-960105.doc 2-