KR20150096208A - Anti Birus Pillow Cover - Google Patents

Abstract

A manufacturing method of an antimicrobial pillow cover comprises: an antimicrobial cotton yarn manufacturing step (S100) for manufacturing an antimicrobial cotton yarn by penetrating an antimicrobial material or a deodorizing material to a cotton yarn; a step (S200) of forming fluff by a pillow cover unit (1) and manufacturing a pillow cover fabric (1) which is not formed with fluff on an extension unit (3) of the both sides of the pillow cover unit (1), by cross knitting a ground yarn and a pile yarn constituted of the cotton yarn on a false twisted yarn; and a step (S300) of forming one repetitive bonding means (5) selected from a button, a zipper, a Velcro, or a string on the extension unit (3) of the pillow cover fabric (1).

Description

A method of manufacturing a pillow cover having antibacterial and deodorizing function and an antibacterial and deodorant pillow cover,

The present invention relates to a method of manufacturing a pillow cover having antibacterial and deodorizing function and an antibacterial pillow cover.

The disposable sanitary pillow cover is a disposable pillow cover for use in a pillow in a steam room or a sauna. The pillow cover is made of 20 ppm of pure silver nano solution, 10 ppm of perfume, And a nonwoven fabric layer (10) immersed and immersed in water, wherein the pillow cover has a double-sided tape or a Velcro tape attached to one edge thereof.

The method for producing an antimicrobial fiber using the radiation graft polymerization method and the step of irradiating the fiber with radiation (step 1) include: A step (step 2) of carrying out a graft polymerization reaction by bubbling a radiation absorbed fiber and a monomer dissolved in a suitable solvent into a reactor and adding a suitable metal salt; And a step (step 3) of immersing the fiber polymerized by step 2 in a solution in which antimicrobial metal ions are dissolved (step 3).

Registration Practice 20-0393765: The towel which coated, added and chemically bonded the photocatalyst (titanium dioxide) and silver (Ag +) which have excellent antibacterial and deodorant function is sprayed directly on the towel with the photocatalyst (TiO2) and silver It is coated on the surface of the towel, and a towel showing antibacterial and deodorizing effect is posted.

The conventional antimicrobial pillow cover has a problem in that it is inconvenient to handle the towel in the process of immersing the antimicrobial material after the production of the towel so that the antimicrobial (or deodorizing) property is lowered and the manufacturing process is complicated or the manufactured towel is immersed. Further, in the step of yarn (cotton yarn), there is a problem in that it takes a long time to manufacture in the step of impregnation and drying in the case of silver nano coating, and uniform impregnation and uniform quick drying are difficult.

The present invention relates to an antibacterial deodorant pillow which is excellent in antibacterial property by using a towel made of yarn excellent in hygroscopicity and feel by using pillow cover paper made of cotton yarn or blended cotton yarn and having a fluff formed thereon, And a method for manufacturing a cover.

The present invention relates to an antimicrobial pillow cover manufacturing method which is superior in productivity and antibacterial effect by uniform impregnation and uniform quick drying (hot air heating) by infiltrating an antimicrobial material into a pillow cover paper (towel paper) And an antibacterial deodorant pillow cover.

The present invention introduces the infiltration and heating and drying method using a centrifugal force and a high pressure so that the antibacterial liquid can be uniformly infiltrated into the inside and outside of the cotton yarn of the wound bobbin by thickly winding the cotton yarn, The present invention provides a method for manufacturing an antibacterial deodorant pillow cover and an antibacterial pillow cover which are excellent in productivity, persistence of antimicrobial activity and antibacterial property by uniformly heating or uniformly drying the composition in a short time until deep inside.

An antibacterial deodorization yarn manufacturing step (S1000) for producing antimicrobial cotton yarn by infiltrating the cotton yarn with antibacterial deodorant material;

The ground yarn and the pile yarn constituted by the cotton yarn are cross-knitted for the weft yarn so that the napkin is formed by the pillow cover portion 1 and the extension portion 3 on both sides of the pillow cover portion 1 is provided with a pillow Fabricating the cover fabric 1 (S2000);

(S3000) of forming one repeatable engaging means (5) selected from buttons, zippers, velcro or straps on the extension (3) of the pillow cover fabric (1)

The antibacterial and deodorizing yarn manufacturing step (S1000) comprises an antibacterial material infiltration step (S100) for infiltrating the cotton yarn with an antibacterial material and a deodorant infiltration step (S200) for infiltrating the deodorant material on the cotton yarn. Wherein the pillow cover is made of a synthetic resin.

According to the present invention, by using a towel made of yarn excellent in hygroscopicity and feel by using a pillow cover paper made of cotton yarn or blended cotton yarn and formed with napping yarn and having antibacterial property, A method of manufacturing an antibacterial deodorant pillow cover is provided.

According to the present invention, it is possible to perform homogeneous impregnation and uniform quick drying (hot air heating) by infiltrating antimicrobial material into the pillow cover paper (towel paper), thereby achieving productivity and antibacterial effect. A method of manufacturing a pillow cover and an antibacterial pillow cover are provided.

According to the present invention, it is possible to uniformly infiltrate the cotton yarn of the bobbin, which is laminated by a thick layer of cotton yarn, to the inside and outside, by introducing the infiltration and heat drying method using centrifugal force and high pressure, A method of manufacturing an antibacterial pillow cover excellent in productivity, persistence of antibacterial activity and antimicrobial activity by uniformly heating or uniformly drying in a short time to the inside as well as outside in case of high temperature drying can be provided.

According to the present invention, it is possible to produce an antibacterial deodorant pillow cover using a towel which has antibacterial property even after washing repeatedly after the production of the pillow cover since the antibacterial solution is infiltrated by pressurized centrifugal penetration in the state of yarn (cotton).

1 (a), (b), (c) and (d) are views showing the construction of an antibacterial deodorant pillow cover according to an embodiment of the present invention.
2 is a flow chart of a method for manufacturing an antibacterial deodorant pillow cover according to an embodiment of the present invention.
3 (a) and (b) are flow charts of a method for manufacturing an antibacterial deodorant pillow cover according to an embodiment of the present invention (an antibacterial and deodorizing yarn manufacturing process).
FIG. 4 is an overall view of an apparatus for manufacturing an antibacterial deodorant pillow cover according to an embodiment of the present invention. FIG.
5 (a) and (b) are a perspective view and a plan view of a cylinder and an impeller, respectively, of an apparatus for producing an antibacterial deodorant pillow cover according to an embodiment of the present invention.
6 is a block diagram of a pressure compensating gradient type impeller according to an embodiment of the present invention.
FIG. 7 is a schematic view of a pressure-compensating auxiliary blade-type impeller according to an embodiment of the present invention; FIG.
8 is a view illustrating the construction of a through hole and a permeable bobbin according to an embodiment of the present invention;

In the present invention, a towel (towel) is a rectangular cotton product which is woven fluff with cotton or cotton cloth (including cotton yarn or cotton blend yarn) used for wiping moisture or sweat on the face or body, and is also referred to as a towel. Characteristics are good because of the absorbent and ventilation of the file. Depending on the application, there are bath towels with a large standard for bathing, normal sized washcloths, and towel hanger chiefs in their pockets. Towel fabrics that are woven for towels have a characteristic of absorbing moisture well. In the present invention, a cotton yarn is a concept including a cotton blend yarn such as a cotton (P / C) blended with a cotton yarn (containing more than 99% cotton) and polyester fiber. Cellulose-based fibers include cotton, hemp, rayon and the like.

Titanium dioxide photocatalyst is the most commonly used titanium dioxide (TiO2) in photocatalyst. This is because titanium dioxide has good acid resistance, alkali resistance, and is harmless to human body. The titanium dioxide photocatalyst is an n-type semiconductor, and when it receives ultraviolet rays (400 nm), it forms an electron and an electron hole to form a hydroxyl radical (OH-) having a strong oxidizing power. And superoxide. Hydroxy radicals and superoxide decompose organic compounds into water and carbon dioxide. In this way, air pollutants are oxidized and decomposed into harmless water and carbon dioxide, and the organic compounds, which are contaminants in water, are decomposed into water and carbon dioxide. Since bacteria are also organic compounds, they are oxidized and decomposed by the strong oxidizing action of the photocatalyst and sterilized. Photocatalyst Titanium dioxide becomes a material having hydrophilic function when it receives light. When the oxo compound on the surface of the titanium dioxide photocatalyst receives light, it reacts with moisture in the air and changes into a hydroxy radical to become hydrophilic.

The solid state silver we see in our daily lives is silver-white or light-gray. However, under 20nm, it becomes golden colored. Nano silver (silver nano) is a compound word of nano-technology and silver, and has a strong antibacterial and sterilizing mechanism. If you look at the characteristics of nanosilver more specifically, nanosized silver will have a powerful sterilizing power. According to the research report, 650 kinds of bacteria and viruses can be sterilized, and they are also very effective against fungi. In addition, nanosilver is a therapeutic agent for various inflammations, and has a very strong therapeutic effect on burn salt, gastroenteritis and oral salt. But it has not yet been approved as a treatment. In addition, nanosilver is harmless to the human body, and has germicidal power which is several times stronger than that of chlorine series, but is harmless to human body. Generally, in the case of pure nano silver, even if it is eaten by humans, there is no abnormality in the human body. And nano silver can be mass-produced and its application range is very wide. Nanosilver has the best price / performance ratio compared to other disinfectants

In order to apply the above-mentioned photocatalyst titanium dioxide or nanosilver to a towel, a binder that serves to fix them is required. As the binder, an organic binder or an inorganic binder may be used. Specific examples of the organic binder include acrylic, urethane and the like, and the inorganic binder includes a silica-based binder and the like. Preferably, an organic or inorganic composite binder is used in which an organic binder and an inorganic binder are mixed.

Metal ions in the composition of the photocatalyst solution are added for antibacterial adsorption and deodorization, and the metal includes zinc and copper. More specifically, it is preferable to mix zinc and copper in a weight ratio of 1: 1, and the content of the metal ion is preferably 0.3 to 0.7 wt% of the total photocatalyst composition. If the addition amount of the metal ion is less than 0.3 weight% of the total photocatalyst solution composition, the function is deteriorated. If the addition amount exceeds 0.7 weight%, there may be a problem in the reaction between the components. Titanium dioxide photocatalyst, nanosilver, binder and metal ions are mixed into distilled water.

In the present invention, "graft polymerization" is a method of polymerizing a monomer (B) n into a linear polymer obtained by polymerizing (monomer) A to polymerize another monomer (B) (-A-) n is called B graft polymerization, and the resulting product is called graft polymer. Generally, a radical (rarely ion) active site is formed on the stem polymer by irradiation, and the polymerization of monomer B is induced by this. It is used as a means of polymer modification.

Hereinafter, an antibacterial pillow cover manufacturing method and an antibacterial pillow cover according to an embodiment of the present invention will be described. 2 is a flow chart of a method of manufacturing an antibacterial deodorization pillow cover according to an embodiment of the present invention, and FIG. 3 is a sectional view of an antibacterial deodorant pillow cover according to an embodiment of the present invention. 4 is a view showing the entire construction of an antibacterial and deodorizing pillow cover manufacturing apparatus according to an embodiment of the present invention, and Fig. 5 (a, b 6 is a block diagram of a pressure compensating gradient type impeller according to an embodiment of the present invention, and FIG. 7 is a perspective view of a pressure compensating type impeller according to an embodiment of the present invention. FIG. 8 is a perspective view of a pressure-compensated auxiliary vane type impeller according to an embodiment of the present invention. FIG.

As shown in FIGS. 1 to 7, a method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention is a method of manufacturing a pillow cover having antibacterial deodorizing function by infiltrating an antibacterial deodorant into a cotton yarn, (S1000), and a ground yarn and a filament yarn constituted by the cotton yarn are cross-knitted for weft yarns so that a napkin is formed by the pillow cover part (1), and the extension part (3) of both sides of the pillow cover part A step S2000 of producing a pillow cover fabric 1 without a nap on the pillow cover fabric 1 and a step S2000 of forming a pillow cover fabric 1 on which the pillow cover fabric 1 is provided with a repetitive combination of buttons, And forming the means 5 (S3000). The step of fabricating the antibacterial and deodorizing yarn (S1000) comprises a step of infiltrating the antibacterial material into the cotton yarn (S100) and a step of infiltrating the deodorant material into the cotton yarn (S200).

1 to 7, in the method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, the step of infiltrating the antibacterial material S100 is carried out in the first liquid tank 10 (S10) for producing an antibacterial liquid containing an antimicrobial substance and a bobbin (B) having a cotton yarn wound thereon and having a permeable and permeable body on an operating plate (15) And a bobbin fixing step (S20) in which the layer is extruded and fixed to the operating cylinder (20) having the through-hole permeability positioned at the bottom.

Next, the antibacterial liquid of the first liquid tank 10 is supplied to the inner space of the operating cylinder 20 through the inflow pipe 30 at a high pressure by using a pump, Pressure infiltration step (S30) in which the antibacterial liquid penetrates into the cotton yarn while passing through the outer surface of the thread wound on the bobbin (B). A drainage step S40 for draining the antibacterial solution present in the working space 91 or the working cylinder 20 formed by the housing 90 and the drainage step S40 for draining the antibacterial solution present inside the working cylinder 20, A centrifugal dehydration step S50 for dehydrating the surface of the bobbin B by the centrifugal force is performed by rotating the combined operation cylinder 20 and the bobbin B by the second RPM. Next, a high-temperature drying step (S60) for drying the cotton yarn of the bobbin (B) is carried out using the heater (50) or the hot air.

1 to 7, in the method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, the high pressure infiltration step (S30) of the antibacterial material is performed by using a pump While the antibacterial liquid of the first liquid tank 10 is supplied to the inner space of the operating cylinder 20 through the inflow pipe 30 at a high pressure and the rotating plate 15 and the penetration- And the bobbin B is wound around the bobbin B from the inside of the operating cylinder 20 by centrifugal force generated by rotation of the antibacterial liquid and high pressure generated by the pump by rotating the combined body 20 and the bobbin B with the first RPM, Pressure centrifugal infiltration method in which the antimicrobial solution penetrates into the cotton yarn while being escaped to the side, and the first RPM is preferably smaller than the second RPM.

As shown in FIGS. 1 to 7, in the method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, the step (S10) of producing an antimicrobial liquid includes a titanium dioxide photocatalyst, A nanosilver antimicrobial solution comprising nanosilver (nano siln) and an inorganic binder selected from the group consisting of acrylic and urethane selected from the group consisting of organic binder and silica, metal ion composed of at least one of zinc and copper ions, .

1 to 7, in a method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, the step of infiltrating the deodorant material (S200) comprises a step of providing a deodorant liquid (S210) High-pressure centrifugal infiltration step S220, a second drainage step S230, a second high-temperature heating step S260, and a bobbin desorption step S270.

1 to 7, in the deodorizing liquid providing step S210, the first valve V1 is closed to shut off the connection between the first liquid tank 10 and the inlet pipe 30, The valve V2 is opened to make the second liquid tank 210 storing the deodorant liquid communicate with the inflow pipe 30. [ The deodorizing liquid of the second liquid tank 210 is supplied to the inner space of the operating cylinder 20 at a high pressure through the inflow pipe 30 by using a pump in the deodorizing liquid high pressure centrifugal infiltration step S220, The rotatable unit 40 rotates the rotation plate 15 and the opaque permeable working cylinder 20 and the bobbin B with the third RPM to rotate the deodorant liquid in the centrifugal force and the high pressure The deodorizing liquid is infiltrated into the cotton yarn as it goes out from the inside of the operating cylinder 20 to the outer side surface of the thread wound on the bobbin B. The deodorizing solution existing in the working space 91 or the working cylinder 20 formed by the housing 90 is drained in the second drainage step S230.

1 to 7, in the second centrifugal dewatering step S240, the rotating plate 15, the actuating cylinder 20 and the bobbin (B) combined body are rotated by the fourth RPM And the yarn of the bobbin (B) is dehydrated by the centrifugal force. Next, a second high-temperature heating step (S260) for heating the cotton yarn of the bobbin (B) by using the heater (50) or the hot air, a bobbin removing step of removing the bobbin from the operating cylinder S270). The deodorizing liquid is composed of a polymerization initiator, a deodorant monomer, and water, and the deodorizing liquid penetrated into the cotton yarn in the second high temperature heating step (S260) can be graft polymerized to be integrated with the cotton yarn.

1 to 7, in a method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, in a high-temperature drying step (S50), a high- Air or hot air is compressed by the compressor 61 and supplied to the internal space of the operating cylinder 20 at a high pressure through the inflow pipe 30 while the inside of the working space 91 is depressurized by the vacuum pump 65, It is preferable that the hot yarn of the bobbin B is dried at a high temperature while the hot air in the bobbin B escapes to the outer surface of the thread wound around the bobbin B. [

1 to 7, in the method for manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, the operating cylinder 20 and the inflow pipe 30 are integrally communicated, The hose H1 and the inflow pipe 30 are sealed in the oil chamber 35 so as to be rotatable relative to each other or relatively rotatably sealed in the oil chamber 35 while the operating cylinder 20 and the inflow pipe 30 are communicated with each other .

As shown in FIGS. 1 to 7, in the method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, in the hollow, through-hole, and permeable working cylinders 20, And two or four impeller blades 26 are formed on the outer surface of the impeller shaft 25 so as to be elongated in the longitudinal direction to form the impeller shaft 25 on the operating cylinder 20 ) In the radial direction.

5 to 7, in the method of manufacturing the pillow cover having the antibacterial deodorizing function according to the embodiment of the present invention, the edge lines 26a (26a) formed by the impeller shaft 25 and the impeller blades 26 And the inclined angle of the edge line 26a is set to be opposite to the rotational direction of the impeller shaft as shown in FIG. 4, so that the antibacterial liquid is raised by the rotation, It is preferable to make the pressure of the lower part uniform.

5 to 7, in the method of manufacturing the pillow cover having the antibacterial deodorizing function according to the embodiment of the present invention, the auxiliary spiral blade 27 is formed on the outer peripheral surface of the impeller shaft 25, 6, the direction in which the auxiliary helical wing 27 surrounds the impeller shaft 25 upward is preferably opposite to the rotational direction of the impeller shaft 25.

5 to 7, in the method of manufacturing a pillow cover having an antibacterial deodorizing function according to an embodiment of the present invention, a first spiral portion 20a is formed on the outside of the upper portion of the operation cylinder 20 And an inner thread corresponding to the first thread portion 20a is formed on the inner surface of the pressure fixing means 25 for fixing the uppermost bobbin B,

1 to 7, in a method of manufacturing a pillow cover having an antibacterial and deodorizing function according to an embodiment of the present invention, the nappy is formed by ground yarns, and the extension of the pillow cover fabric 1 The button 3 is provided with a button 3a and two or three buttons are arranged at regular intervals so that the user can adjust the fastening length of the extension 3. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but on the contrary, ≪ RTI ID = 0.0 > and / or < / RTI >

It is to be understood that the appended claims are intended to supplement the understanding of the invention and should not be construed as limiting the scope of the appended claims.

10: liquid tank
15: Rotating plate
20: Operation cylinder
30: Inflow pipe
40:
50: heater
90: Housing
91: Workspace
B: Bobbin

Claims (10)

An antibacterial deodorizing yarn manufacturing step (S1000) for producing an antibacterial cotton yarn by infiltrating the cotton yarn with antibacterial deodorant material;
The ground yarn and the pile yarn constituted by the cotton yarn are cross-knitted for the weft yarn so that the napkin is formed by the pillow cover portion 1 and the extension portion 3 on both sides of the pillow cover portion 1 is provided with a pillow Fabricating the cover fabric 1 (S2000);
(S3000) of forming one repeatable engaging means (5) selected from buttons, zippers, velcro or straps on the extension (3) of the pillow cover fabric (1)
The antibacterial and deodorizing yarn manufacturing step (S1000) comprises an antibacterial material infiltration step (S100) for infiltrating the cotton yarn with an antibacterial material and a deodorant infiltration step (S200) for infiltrating the deodorant material on the cotton yarn. Wherein the pillow cover is made of a synthetic resin. The method according to claim 1,
The step of infiltrating the antibacterial material (SlOO)
A step (S10) of producing an antibacterial liquid contained in the first liquid tank (10) and producing an antibacterial liquid containing an antibacterial substance;
A layer is extrapolated and fixed to a penetration-permeable working cylinder 20 in which a cotton yarn is wound and bobbins B having a permeable and permeable body are placed upright on the operating plate 15 Bobbin fixing step (S20);
The antibacterial liquid of the first liquid tank 10 is supplied to the inner space of the operating cylinder 20 through the inflow pipe 30 at a high pressure by using a pump and is discharged from the inside of the operating cylinder 20 B) an antibacterial material high-pressure infiltration step (S30) in which the antibacterial liquid penetrates into the cotton yarn while being pulled out to the outer surface of the thread wound around the yarn;
A drainage step (S40) for draining the antimicrobial liquid present in the working space (91) or the working cylinder (20) formed by the housing (90);
A centrifugal dewatering step S50 of rotating the rotary plate 15, the operation cylinder 20 and the combined bobbin B by the second rotating unit 40 by a second RPM to dehydrate the yarn of the bobbin B by centrifugal force, ;
A high temperature drying step (S60) of drying the cotton yarn of the bobbin (B) using the heater (50) or the hot air;
Wherein the antimicrobial deodorizing function is applied to the pillow cover. 3. The method of claim 2,
The high-pressure infiltration step (S30)
The antibacterial liquid of the first liquid tank 10 is supplied to the internal space of the operating cylinder 20 at a high pressure through the inflow pipe 30 by using a pump, 15 and the through-hole permeable working cylinder 20 and the bobbin B are rotated by the first RPM so that the antimicrobial liquid is rotated from the inside of the operating cylinder 20 by the high pressure generated by the centrifugal force and the pump, B), the antimicrobial solution penetrates into the cotton yarn while being pulled out to the outer side of the yarn thread wound around the yarn,
Wherein the first RPM is smaller than the second RPM. 3. The method of claim 2,
In the step (S10) of producing the antibacterial solution,
A titanium dioxide photocatalyst, an inorganic binder selected from an organic binder or a silica-based material selected from the group consisting of nano silver (ver. Nano) and acryl and urethane, a metal ion composed of at least one of zinc and copper ions, Wherein the nano silver antibacterial solution is prepared by dissolving the antimicrobial deodorizing agent in water. 3. The method of claim 2,
The deodorant permeation step (S200)
The first valve V1 is closed to shut off the connection between the first liquid tank 10 and the inlet pipe 30 and the second valve V2 is opened to introduce the second liquid tank 210 storing the deodorant liquid Providing a deodorizing liquid (S210) communicating with the tube (30);
The deodorizing liquid of the second liquid tank 210 is supplied to the inner space of the operating cylinder 20 at a high pressure through the inflow pipe 30 by using a pump, And the bobbin (B) combined body is rotated by the third RPM so that the deodorizing liquid is discharged from the inside of the operating cylinder 20 by the centrifugal force generated by rotation and the high pressure generated by the pump, B), the deodorant liquid is permeated into the cotton yarn while passing through the outer surface of the yarn wound around the yarn thread,
A second drainage step S230 for draining the deodorizing solution existing in the working space 91 or the working cylinder 20 formed by the housing 90;
A second centrifugal dehydration step S240 for dehydrating the surface of the bobbin B by the centrifugal force by rotating the rotary plate 15, the actuating cylinder 20 and the bobbin (B) )Wow;
A second high temperature heating step (S260) of heating the cotton yarn of the bobbin (B) using the heater (50) or the hot air;
A bobbin removing step (S270) for detaching the bobbin having the cotton yarn from the operating cylinder 20;
Wherein the antimicrobial deodorizing function is applied to the pillow cover. 6. The method of claim 5,
Characterized in that the deodorizing liquid is composed of a polymerization initiator, a deodorant monomer and water, and the deodorizing liquid penetrated into the cotton yarn in the second high-temperature heating step (S260) is subjected to a graft polymerization reaction to integrate with the cotton yarn. A method of manufacturing a provided pillow cover. 3. The method of claim 2,
In the high-temperature drying step (S50)
The high pressure high temperature air or hot air stored in the air tank 60 is compressed by the compressor 61 and supplied to the internal space of the operating cylinder 20 through the inlet pipe 30 at a high pressure, The pressure is reduced by the pump 65,
Wherein the high temperature air inside the operating cylinder (20) is passed through the outer surface of the thread wound on the bobbin (B) to dry the face yarn of the bobbin (B) at high temperature. The method according to claim 3 or 5,
An impeller shaft 25 arranged in parallel in the longitudinal direction is fixedly formed inside the operating cylinder 20 in the hollow, penetrating and permeable state by a fixing rod 26,
2 to 4 impeller blades 26 are formed on the outer surface of the impeller shaft 25 in the longitudinal direction,
Pressurized in a radial direction by the antibacterial solution in the working cylinder 20
The inclination angle (angle A) formed by the impeller shaft 25 and the edge line 26a formed by the impeller blade 26 is 1 to 10 degrees, and the inclined direction of the edge line 26a is And the antimicrobial liquid is raised by rotation to make the pressure of the upper part and the lower part uniform. 3. The method of claim 2,
The nap is formed by ground yarns,
The extension portion 3 of the pillow cover fabric 1 is provided with a button 3a and two or three buttons are arranged at regular intervals so that the user can control the fastening length of the extension portion 3. [ Wherein the antimicrobial deodorizing function is applied to the pillow cover. An antimicrobial deodorant pillow cover prepared by any one of the methods of claims 1 to 7.

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