KR0143432B1 - Copper yarn - Google Patents

Abstract

The present invention relates to a copper yarn (Copper) and a method of manufacturing the same, which gives copper without any objection to the human skin. Sliper), but the diameter of the feed roller top roller is specially manufactured to 35mm. When the slibar and the copper wire are put together, the pressure received by the copper wire in the feed roller surface is increased. When the diameter of the wire is the same), the copper wire is not gripped by the slide bar and is completely gripped and stretched and cut. It is to provide a copper company that does not give any rejection to the skin.

Description

Copper company

1 is a schematic view of the spinning machine of the present invention copper company manufacturing apparatus

Figure 2 is a schematic diagram of the softening machine of the present invention copper company manufacturing apparatus

3 is a perspective view showing a fugitive prevention capacitor used in the present invention

Figure 4 is a perspective view showing a release prevention connector used in the present invention

5 is a process example of coating a far-infrared radiation ceramic on a copper wire used in the present invention.

* Description of the main parts of the drawings

1: Roller top roller 2: Copper wire

3: fiber bundle 4: fugitive prevention capacitor

5: Investigator Cradle 6, 9: Investigation

7: pressure supply roller

The present invention relates to a copper yarn (copper) in which copper (copper) is mixed without giving any objection to the human skin.

Since ancient times, copper has been beneficial to the human body by deodorizing and acting as an antibacterial. Actually, the copper wire itself was present in the form of yarn and yarn or core (core). It is difficult to use because it turns into green rust due to the high copper content, which is mixed with green rust, and it is not good in appearance. Experiments have shown that copper wires are fiberized similarly to the length of natural fibers (mainly cotton, hemp), so that they do not intermittently but intertwine in the yarns. The copper wire should be less than 0.023㎜ in diameter to rub into the skin. Does not the rejection could be seen as a result. Therefore, in the present invention, in order to satisfy this condition, a copper wire having a diameter of 0.03 mm is introduced together with a cotton or fiber bundle into the spinning machine of the spinning process shown in FIG. 1, but the image of the roller and the drawing roller of the spinning machine is added. The roller diameter is increased to 35mm and the roller diameter is larger than 28mm ~ 29mm to increase the gripping force of the copper wire fed with the fiber bundle, and the rotation speed of the drawing roller is 1.4 times faster than the rotation speed of the feeding roller. The copper wire of 0.03mm held together with the inside is stretched and cut by 0.020mm ~ 0.023mm by tensile force in the drawing part roller to obtain the irradiation of mixed copper fiber in the fiber bundle and go through the square spinning process. The copper company expected in the present invention was obtained. In addition, a short fiber copper wire escape prevention condenser was installed between the feeding roller and the drawing roller to prevent the short fiberized copper wire from deviating from the fiber bundle.

The copper wire length mixed in the copper yarn of the present invention is mixed to about 5 mm to 30 mm and appears in the yarn. The copper wire of 0.03 mm diameter used for the first time has an average of 0.023 mm or less, and there is no rejection on the skin, especially the mixed copper wire The weight ratio can be adjusted by irradiation dose and stretching, but it is appropriate that 0.5% of the total weight of the copper company is mixed.

(Measured randomly from Kaper)

In addition, as shown in Fig. 2, the softening machine, which is the preceding step of the spinning process, has the diameter of the upper roller in the feeding roller to 35 mm, which is larger than the diameter of 28 mm to 29 mm in order to reduce the grip force of the copper wire fed together with the fiber bundle. Increasing the rotational speed of the drawing roller by 1.4 times faster than the rotation speed of the feeding roller, and drawing a 0.03mm copper wire gripped with the fiber bundle at the feeding roller by a tension force of 0.020mm ~ 0.023mm in the drawing roller. Irradiation in which copper end fibers coexist is obtained. In addition, a short fiber copper wire escape prevention connector is installed between the input roller and the stretcher roller so that the short fiberized copper wire does not escape from the fiber bundle.

However, the copper wire loss is increased in the softening process when comparing the spinning machine and softening machine, but the result is similar.

In addition, if the copper wire is cut in the carding and blending process except for spinning and softening in the spinning process, more than 70% of the copper wire is lost due to the centrifugal force of various cylinders, and thus the copper yarn expected in the present application can be obtained because there is no stretching. none.

5 shows the process of coating the far-infrared radiation ceramic on the copper wire used in the present invention, while passing the copper wire through a urethane enamel resin solution containing 0.8 µm far-infrared radiation ceramic powder to obtain a copper wire coated with far-infrared radiation ceramics. The above-mentioned copper company emits far-infrared rays and maximizes warmth, antibacterial and deodorization to make health clothing, and the coated copper fiber coated with copper fiber has high melting point in washing and boiling water washing. Because of this, it does not deviate from the copper line and is permanently mixed in the yarn.

As described above, the copper yarn of the present invention has an effect of no rejection by rubbing the skin since the drawn and cut short-fiber copper wire similar to short fibers having a diameter of 0.020 mm to 0.023 mm and a length of 5 mm to 30 mm coexist in the fiber bundle.

Example 1

The top roller (B) and the drawing roller (C) of the spinning machine (A) (1) and (5) have a diameter of 35 mm and a diameter larger than the diameter of 28 mm to 29 mm. A 0.03 mm copper wire (2) is fed together with the fiber bundle (3) to the feeding roller (B) to the feeding roller (B) of the spinning machine (A), which has a rotation speed of 1.4 times faster than the rotation speed of the feeding roller (B). Irradiated stretched and cut copper wire fibers having a diameter of 0.020 mm to 0.023 mm and a short fiber length of about 5 mm to 30 mm are mixed in the fiber bundle (3) by the tension of the stretched roller (C) (6) is obtained. At this time, the stretched and cut short fiberized copper wire passes through the trumpet-type escape prevention condenser 4 so that the stretched and cut short fiberized copper wire is not detached from the fiber bundle 3.

Example 2

The diameter of the upper roller (7) of the feeding roller (E) in the soft rolling process (D) is 35 mm, the diameter of the lower roller is larger than 28 mm to 29 mm, and the rotational speed of the drawing roller (F) is controlled by the feeding roller (E). Tensile force of the drawing roller (F) is drawn by inserting 0.03mm copper wire (2) together with the fiber bundle (3) into the feeding roller (E), which is 1.4 times faster than the rotation speed. By this, an irradiation 9 is obtained in which stretched and cut copper wire fibers having a diameter of 0.020 mm to 0.023 mm and a short fiber length of about 5 mm to 30 mm coexist in the fiber bundle 3. At this time, the short-fiber copper wire drawn and cut passes through the fugitive-resistant connector 8 that both sides are retracted, so that the short-fiber copper wire drawn and cut is not released from the fiber bundle 9.

Claims (1)

A capper yarn comprising 0.5% of the total weight of a copper fiber in a short fiberized copper wire having a diameter of 0.020 mm to 0.023 mm and a length of 5 mm to 30 mm in a cotton or blend fiber bundle.