JP2011122290A - Stainless steel embroidery yarn and method for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a stainless steel embroidery yarn prepared by twisting a 35-45 μm stainless steel yarn together with a 70-80 denier polyester fiber machine embroidery yarn, and a method for the same. <P>SOLUTION: The stainless steel embroidery yarn is prepared by unitedly twisting the 35-45 μm stainless steel yarn together with the 70-80 denier polyester fiber machine embroidery yarn. The method for producing the stainless steel embroidery yarn comprises introducing the 70-80 denier polyester fiber machine embroidery yarn into a specific tube body, further unitedly twisting the same with the 35-45 μm stainless steel yarn in a single wrapping and twisting them to constitute the stainless embroidery yarn. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention relates to a stainless steel embroidery twisted yarn and a method thereof, and more particularly to a stainless steel embroidery twisted yarn and a method thereof for twisting a 35 to 45 μm stainless steel yarn in a polyester fiber machine embroidery yarn of 70 to 80 denier.

In the past, the majority of embroidery yarns used by embroiders everywhere in the world were natural fibers spun from fibers such as silk, cotton, hemp and wool. After the industrial revolution, chemical fibers were developed according to technological progress, and in the embroidery industry, yarns made by blending artificial silk, artificial cotton, nylon, polyester, etc. began to be used as surface yarns for embroidery. However, the base yarn mainly includes cotton having no functionality, artificial cotton, and blended yarn.

Patent Document 1 posts a method for processing a functional embroidery product and presents a functional embroidery product using a functional deep color biocarbon. It mainly uses deep-colored biocarbon with the functionality of bamboo charcoal, charcoal (Bincho charcoal), and other types of biocarbon, or yarn spun with functional fibers as embroidery or base yarn. The woven fabric is used as the back base fabric for the embroidery surface.

At the time of embroidery, embroidery thread or base thread that does not have general functionality is embroidered as embroidery thread or base thread, instead of thread that is spun by deep-colored biocarbon with functionality or fiber with functionality. Do. In addition, a woven product woven with deep-colored biocarbon having functionality or fibers having functionality can be set on the back of the embroidery surface to perform embroidery. Further, the cloth or fabric is processed into clothes, daily life, health, and health supplies, and the functions of deep-colored biocarbon having functionality and fibers having functionality can be maximized. In this way, the range of use of fibers and knitted fabrics having functionality such as biocarbon is expanded to form a processing method for functional embroidery products.

Patent document 2 posts a high-intensity fluorescent fiber and its manufacturing method. The fiber has characteristics that do not adversely affect the human body, have high luminance for a long time, and emit multicolor light. This fiber can be applied to embroidery threads and clothing, and can provide a fluorescent fiber having the characteristics of emitting light of multiple colors with high brightness for a long time.

Japanese Patent Application Laid-Open No. H10-228688 posts a fiber that is discolored by adding temperature-changing pigment to the fiber and temperature, photosensitivity, odor, and moisture. It is a completely new chemical fiber that is formed through the process of spinning and drawing by adding a discoloration pigment at the time of melt spinning under special conditions. The fiber has resistance to washing with water, is resistant to friction, has a three-dimensional effect, and has the effect of changing color due to temperature, photosensitivity, odor, and humidity depending on the difference in the color-change pigment added. This fiber is used in many textiles such as embroidery, clothes, curtains, ribbons, etc. and forms high added value.

As described above, various materials are added to the embroidery material in the prior art. However, at present, stainless steel does not exist as the material of the embroidery thread used in the embroidery industry, whether it is machine embroidery or manual embroidery. On the other hand, the stainless steel thread has an excellent function of preventing electromagnetic waves, preventing static electricity, and absorbing sound. Nevertheless, in the embroidery industry, the embroidery thread material used in all types of machine embroidery does not have a stainless steel material, which is very regrettable. Therefore, the present inventor has developed a stainless embroidery twisted yarn and a method thereof according to the present invention after extensive verification by experiments.

Taiwan Patent Publication No. 200724741 Taiwan Patent Notice No.564268 Taiwan Patent Notice No. 156380

The problem to be solved by the present invention is to provide a stainless steel embroidery twisted yarn and a method for solving the problem that stainless steel is not included in the material of embroidery yarn currently used.

In order to solve the above problems, the present invention provides the following stainless steel embroidery twisted yarn and method thereof. The stainless steel embroidery twisted yarn is composed of a 70 to 80 denier polyester fiber machine embroidery thread and a 35 to 45 μm stainless steel thread to constitute the stainless steel embroidery twisted yarn, and the polyester fiber machine embroidery thread is more preferably 75 denier. is there. The stainless steel thread is more preferably 40 μm, and the manufacturing method of the stainless steel embroidery twisted thread is to introduce a polyester fiber machine embroidery thread of 70 to 80 denier into a specific tube, and further to a 35 to 45 μm stainless steel thread and a single package. In this method, twisted and twisted to form a stainless embroidery twisted yarn, the specific tube is a special twisted tube, the polyester fiber machine embroidery yarn is more preferably 75 denier, and the stainless steel yarn is more Preferably, it is 40 μm.

The stainless steel embroidery twisted yarn and method therefor have the following effects.
<A> Stainless steel thread added to polyester fiber machine embroidery thread according to the present invention is a new material unprecedented in embroidery thread, and can bring unprecedented development and unlimited business opportunities to the cultural industry.
<B> The embroidery thread formed by adding a stainless steel thread to the polyester fiber machine embroidery thread according to the present invention is non-toxic and has the function of preventing electromagnetic waves, and the stainless steel thread has a unique metallic gloss, This green material also has an antistatic function.
<C> Stainless steel, which is a natural material, is an alloy containing 12% or more of chromium, and a thin film is formed on the surface. The thin film has a protective action, isolates air and moisture, and acid / alkali. It is possible to prevent the erosion caused by, and to extend the storage period of the woven product with embroidery.
<2> According to the present invention, by adding a stainless steel thread to a polyester fiber machine embroidery thread, the embroidery thread and the embroidery knitted fabric formed thereby have a higher tension.
<E> The present invention is applied to manual embroidery and machine embroidery, and can be applied to any machine embroidery machine.

3 is a flowchart of the present invention. FIG. 3 is a schematic diagram of Step A of the present invention. FIG. 4 is a schematic diagram of the present invention step B. FIG. 3 is a schematic diagram of Step C of the present invention.

The best mode for carrying out the present invention will be described in detail below with reference to the drawings.

The stainless steel embroidery thread provided by the present invention is formed by twisting a polyester fiber machine embroidery thread of 70 to 80 denier and a stainless steel thread of 35 to 45 μm.

The present invention provides a method for producing a stainless steel embroidery twisted yarn, in which a polyester fiber mechanical embroidery thread of 70 to 80 denier is introduced into a specific tube, and further twisted in a single package method with a stainless steel thread of 35 to 45 μm. And twist to form a stainless steel embroidery twisted yarn. The polyester fiber machine embroidery thread is more preferably 75 denier and the stainless steel thread is more preferably 40 μm.

FIG. 1 is a flowchart of the present invention, and FIG. 2 is a schematic diagram of Step A. In step A, first, a polyester fiber machine embroidery thread 1 of 70 to 80 denier is introduced into a specific first tube 2.
The first tubular body 2 is a special twisted yarn pipe. In step B shown in FIG. 3, the polyester fiber machine embroidery thread 1 on the first pipe 2 and the 35 to 45 μm stainless steel thread 4 on the second pipe 3 are simultaneously sent to another third pipe 5. In Step C shown in FIG. 4, the steel pipe 5 is sent out from the third tubular body 5, and after passing through the process of twisting and twisting by a single package method, it is further sent to the machine embroidery thread spool 6 to complete the stainless embroidery thread 7 of the present invention.

In addition, the diameter of the stainless steel fiber of the present invention is 550 μm to 28 μm and the length is 40 mm to 120 mm, but the best size suitable for the bobbin case operation inside the machine embroidery machine was determined by performing the tests one by one. . Further, test embroidery was performed on a machine thread embroidery machine using a soft rhombus mesh cloth as a base cloth material with a thread of 140 μm to 28 μm using No. 9 and 11 needles for sewing machines. Thus, the obtained optimum range value of the present invention is 35 to 45 μm, and the optimum value revealed by the test is 40 μm.

In the following, an experimental record table of actual tests conducted with the optimum value of 40 μm of the present invention will be posted.

The major difference between Tables 1, 2, 3 and 4 is the operating speed, which differs between 350 and 1000 revolutions. In the experimental data performed at 1000 revolutions, a slight increase in the number of stitches is observed, but still within an allowable range, and the probability of thread cutting is very small, which is advantageous for mass production by a machine embroidery machine.

The above-mentioned names and contents of the present invention are only used for explaining the technical contents of the present invention, and do not limit the present invention. Equivalent applications based on the spirit of the present invention, or conversion, replacement, and increase / decrease of parts (structure) are all included in the protection scope of the present invention.

The present invention has the novelty that is a requirement of the claims, has sufficient progress compared to conventional similar products, has high practicality, meets the needs of society, and has a great industrial utility value .

1 polyester fiber machine embroidery thread 2 first tube 3 second tube 4 stainless steel thread 5 third tube 6 machine embroidery thread winding 7 stainless embroidery twisted thread

Claims (7)

Stainless steel embroidery twisted yarn
A stainless steel embroidery twisted yarn comprising a polyester fiber mechanical embroidery yarn of 70 to 80 denier and a 35 to 45 μm stainless yarn. The stainless steel embroidery twisted yarn according to claim 1, wherein the polyester fiber machine embroidery yarn is 75 denier. The stainless steel embroidery twisted yarn according to claim 1, wherein the stainless steel yarn is 40 µm. The manufacturing method of stainless steel embroidery twisted yarn is to introduce 70-80 denier polyester fiber machine embroidery thread into a specific tube, and further twist with 35-45 μm stainless steel thread, single-wrap method, twist, A method for producing a stainless steel embroidery twisted yarn, comprising forming a stainless steel embroidery twisted yarn. The method for producing a stainless steel embroidery twisted yarn according to claim 4, wherein the specific tube is a special twisted yarn tube. The method for producing a stainless steel embroidery twisted yarn according to claim 4, wherein the polyester fiber machine embroidery yarn is 75 denier. The method for producing a stainless steel embroidery twisted yarn according to claim 4, wherein the stainless steel thread is 40 µm.