KR101150445B1 - Cooling sheet coated cooling composite which containing peppermint oil and fabrication method for it - Google Patents

Abstract

PURPOSE: A cooling sheet applied with a cooling composition containing peppermint oil on patterns is provided to control cooling expression. CONSTITUTION: A cooling sheet is applied with a cooling composition containing 40-50 wt% of peppermint oil, 20-30 wt% of bioceramic powder, and 25-35 wt% of organic binder resin. The bioceramic powder is selected from silica stone, alumina, magnesium, germanium, and barley stone. The organic binder resin is rubber, acrylate resin, and a mixture thereof.

Description

Cooling sheet coated cooling composition which contains peppermint oil as a main component and its manufacturing method

The present invention relates to a cold feeling sheet coated with a cold feeling composition mainly composed of peppermint oil and the like and a method for producing the same.

Recently, a number of functional fabrics have been developed to add additional functions such as antibacterial, cold, warm, heat dissipation to the fabric. In particular, by providing a cold and warm processing agent to the fabric is a trend to develop a technology that allows you to feel the sense of cold appropriately according to the external temperature.

These cold and warm processing agents have a function to protect the body temperature warmly when the outside temperature is low and to lower the body temperature moderately when the outside temperature is high.

In other words, the thermosensitizing agent suppresses heat dissipation of the body temperature by the heat conduction lowering agent contained in the inorganic microcapsule and shows the heat storage of the body temperature to obtain a sense of warmth.

However, the fabric to which such a cold and warm processing agent is applied has a problem in that the material itself changes in phase when a certain temperature range is exceeded, thereby lowering the cooling and cooling efficiency by changing physical properties.

The present invention has been made to solve the above problems, and an object thereof is to provide a cold feeling sheet capable of imparting a feeling of cooling by applying a cold feeling composition mainly containing peppermint oil to a pattern of various designs.

Another object of the present invention is to provide a method for producing the above-mentioned cold feeling sheet.

As an example for achieving the above object, the cold feeling sheet of the present invention is a cold feeling composition comprising 40 to 50% by weight of peppermint oil, 20 to 30% by weight of the bioceramic powder and 25 to 35% by weight of the organic binder resin fabric fabric or clothing To a structural unit in a dot state of 1 mm or less in diameter.

As another example for achieving the above object, the manufacturing method of the cold persimmon sheet of the present invention, weaving a cold feeling composition consisting of peppermint oil 40 to 50% by weight, bioceramic powder 20 to 30% by weight and organic binder resin 25 to 35% by weight Applying to the surface of the fabric or clothing in a constituent unit of a dot state of 1 mm or less in diameter, and drying the fabric fabric or clothing to which the composition is applied by direct heat or hot air in a temperature range of 130 to 150 ° C. It is characterized by comprising.

Hereinafter, the cold feeling sheet of this invention is demonstrated concretely.

The cold feeling sheet of the present invention is applied to the fabric fabric or molded clothing is a cold feeling composition consisting of 40 to 50% by weight peppermint oil, 20 to 30% by weight bioceramic powder and 25 to 35% by weight organic binder resin.

In this case, the cold feeling composition may be applied to a fabric fabric before being molded into clothing or the like, or to an already molded garment. At this time, it is particularly preferable to use a polyamide material having high moisture absorption, such as the yarn constituting the woven fabric or clothing in order to impart an effective cooling to the woven fabric or molded clothing, the cross-sectional structure of the yarn constituting the woven fabric or clothing It has a vertical channel structure, which can increase the expectation of cooling by using a yarn that can be ventilated smoothly. It is preferable to exclude the use of the fabric softener which is added during the processing for producing the fabric fabric or the clothing as it can reduce the hygroscopic effect. In order to use a fabric softener in dyeing and processing of textile fabrics, it is possible to use an ethylene oxide-based fiber softener having good hygroscopic effect.

The cold feeling composition is applied by various methods such as inkjet printing to form a pattern of the desired design, the pattern coated with the cold feeling composition is 1 mm or less in diameter, specifically 0.01 to 1 mm in diameter as shown in FIG. (dot) is preferably composed of aggregates (see Fig. 1). When the components forming the pattern as described above are made in a dot state of 1 mm or less in diameter, the application surface of the cold feeling composition is not sealed and the space for moisture absorption and ventilation can be secured even after the pattern is formed, thereby further improving the cooling function. .

Peppermint oil is an oil obtained by drying, distilling, and cooling the stems and leaves of peppermint and is a main component that imparts a feeling of cold. It is preferable to use one having a purity of 90% or more. Such peppermint oil is included in the range of 40 to 50% by weight in the cold persimmon composition, if the content of the peppermint oil is less than the above range, the cooling effect due to the use of peppermint oil is hard to be sufficiently expressed, and if the content exceeds the above range, the bioceramic powder Since the content is less, there is a tendency that the constituents of the peppermint oil such as menthol and morphological stability can be easily decomposed. In the case of peppermint oil, it is better to use peppermint oil in a concentrated particle state than to increase the content of peppermint oil to further increase the cooling effect. In addition to the peppermint oil, xylitol may be used instead of the above content.

In order to increase the effect of the cooling feeling it is possible to adjust the size of the pattern to which the cold persimmon composition is applied, or to adjust the content of peppermint oil contained in the cold persimmon composition, and by varying the shape of the pattern or the content of peppermint oil, the cooling effect for each body part is different. It is also possible.

The bioceramic powder serves to stably form the applied pattern used in the cold sense composition, and to express various functionalities according to the types of the bioceramic, and the bioceramic powder is silica, silica, One or two or more selected from alumina, magnesium, germanium and elvan can be used in combination. Bioceramic powder is used 20 to 30% by weight in the cold persimmon composition, if the content of the bioceramic powder is less than the above range, the shape stability of the pattern is lowered, if more than the above range tends to decrease the cooling sense function. The bioceramic powder is preferably made of a diameter of 0.5 mm or less, specifically, the diameter of 0.001 ~ 0.5 mm range.

The organic binder resin is used in the cold feeling composition to fix the chilling peppermint oil to the coated surface of the fabric fabric or clothing, the organic binder resin is an ethylene-based rubber (for example, RUBBER WHITE passed the material stability test) 108 NF, NEWPLEX RB-NF (HAYASHI CHEMICAL INDUSTRY) and an acrylate binder (eg, HM-170PB, HM-170NF, etc.) may be used any one of the organic binder resin 25 to 35 in the cold feeling composition It is used by weight, and the content of the organic binder resin is less than the above range, the fixing of the cold persimmon composition is not sufficient, so the fastness to washability tends to be not good, and if the content exceeds the above range, the content of other components will be relatively small. When the content of bioceramic powder decreases, the shape stability of the pattern decreases, and when the peppermint oil decreases, it feels cold. Thereby it tends not to be sufficiently expressed.

On the other hand, baking soda (sodium bicarbonate) excellent in the hygroscopic effect can be used to further enhance the feeling of cooling imparted by peppermint oil. The cooling comfort auxiliary composition including the baking soda may include 35 to 45 wt% baking soda, 25 to 35 wt% bioceramic powder, and 25 to 35 wt% organic binder resin.

As shown in FIG. 2, the cold feeling auxiliary composition may be applied to a predetermined area along the edge edge (outer peripheral surface) of the pattern to which the cold feeling composition is applied in the fabric fabric or clothing. At this time, it can also be applied to the outer circumferential surface of the dot (dot) which is a structural unit forming a pattern as shown in FIG. When applying the cold feeling auxiliary composition as shown in Figure 3 can be obtained as an effect as a new pattern for connecting the individual dots forming the pattern formed by the cold feeling composition coating surface.

That is, the cold feeling auxiliary composition including baking soda is applied to a predetermined area along the edges (outer peripheral surfaces) of the pattern on which the cold feeling composition is applied to the fabric or clothing, or the individual dots constituting the pattern to which the cooling feeling composition is applied. When applied to a predetermined area along the outer circumferential surface, the refrigerant role of peppermint oil is further promoted according to self-moisture absorption of baking soda contained in the cold feeling auxiliary composition.

When the baking soda is used as described above, the deodorizing effect is imparted in addition to the cooling effect due to self-moisture absorption. The improvement of the cooling effect and the deodorization effect may vary depending on the amount of baking soda contained in the cold feeling auxiliary composition and the area to which the cooling feeling auxiliary composition is applied. In addition, according to the content of baking soda in the cold feeling auxiliary composition or the application area of the cold feeling auxiliary composition, the degree of cooling effect improvement and deodorization effect can be adjusted, and the effect can be adjusted differently for each body type or site.

On the other hand, as shown in Figures 4 and 5, it is also possible to express the difference in the amount of use of the cold feeling composition in various colors or concentrations.

Hereinafter, the manufacturing method of the cold feeling sheet of this invention is demonstrated concretely step by step.

First, the composition comprising peppermint oil is applied to a surface of a woven fabric or a molded garment.

To this end, to prepare a cold persimmon composition, it is prepared by mixing 40 to 50% by weight peppermint oil, 20 to 30% by weight bioceramic powder and 25 to 35% by weight organic binder resin. The prepared cold-sensing composition is applied to the surface of the fabric fabric or molded clothing, it is possible to adopt a method such as inkjet printing, printing and foaming printing as a coating means, and by other means the cold-feel composition to the fabric fabric or It is possible to apply to the surface of shaped garments to form designs designed in various ways.

As shown in FIG. 1, the coated surface of the cold feeling composition is composed of an aggregate of individual dots, and the dots are formed in a state of 1 mm or less in diameter, specifically, 0.01 to 1 mm in diameter.

On the other hand, 35 to 45% by weight of baking soda, 25 to 35% by weight of bioceramic powder and 25 to organic binder resin along the outer circumferential surface of a dot, which is an edge of the coated fabric of the fabric or clothing, or a constituent unit of the coated surface. The cooling feeling auxiliary composition consisting of 35% by weight may be applied to a predetermined area, and the application of the cooling feeling auxiliary composition may further improve the cooling feeling of the peppermint oil included in the cooling feeling composition.

The fabric fabric or clothing to which the composition is applied is dried by direct heat or hot air in a temperature range of 130 to 150 ° C. so that the cold feeling composition coated surface is adhered well to the fabric fabric or molded clothing.

In this case, in the case of using the cold feeling auxiliary composition, the first application of applying the cold feeling composition, the second application of the cold feeling auxiliary composition is carried out, followed by drying by direct heat or hot air.

The cold feeling function of the cold feeling sheet according to the present invention will be faster to recognize the feeling of cold as tight products that stick to the body, it will be more effective to apply to clothing, paltosi, hood, stockings, etc. of the seamless products to be molded and knitted.

In order to express the concentration of a specific part or cold feeling composition, or to obtain color as shown in FIGS. 4 and 5, the printing operation and the drying operation of applying the cold feeling composition and the cold feeling auxiliary composition as many times as the chromaticity may be repeated several times. There is a need.

According to the present invention described above, the effect that can provide a sheet to which the peppermint oil is applied to impart a cold feeling can be expected.

According to the present invention, it is possible to apply the cold feeling composition of the concentration adjusted differently according to the body shape or contact site, it can be expected to provide an effect that can provide a cold feeling sheet in which the expression of cold feeling is controlled differently according to the body shape or contact site. .

According to the present invention described above, it is possible to apply a cold feeling composition having a different concentration to the design of the various designs with different colors and chromaticity can be expected to provide an effect that can provide a cold feeling sheet in which the expression of cold feeling is controlled differently.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which simply showed the cold feeling composition application surface (pattern).
FIG. 2 is a view schematically illustrating a shape in which a cooling feeling auxiliary composition is applied along the outer circumferential surface of the cooling feeling composition applying surface (glyph), and FIG. The figure simply shows the shape.
4 and 5 is a different view showing the amount of use of the cold feeling composition through the design of the various colors applied design.
Figure 6 immediately after wearing the clothes made of the fabric fabric to which the cold feeling composition and the cold feeling auxiliary composition of the present invention is applied (a), 10 minutes after wearing (b), 20 minutes after wearing (c) and 30 minutes after wearing (d) It shows the temperature distribution of the body surface after the elapse of time, Figure 7 is a two-hour after wearing clothes made of a fabric fabric to which the cold feeling composition of the present invention is applied (a) and a fabric fabric not applied to the cold feeling composition of the present invention 10 minutes after wearing the manufactured clothes (b) shows the temperature distribution of the body surface.

Hereinafter, the present invention will be described in detail with reference to examples and drawings, but the present invention is not limited to the following examples.

Example  1 to 3.

1) Preparation of cold feeling composition

45% by weight of peppermint oil with a purity of 90% or more, 25% by weight of mixed ceramic powder (average diameter 0.4 mm) in which silicon, alumina and magnesium are mixed as bioceramic powder, and 30% by weight of NEWPLEX RB-4NF, which is rubber as an organic binder resin To prepare a cold feeling composition.

2) Preparation of Cooling Auxiliary Composition

A cold feeling auxiliary composition was prepared by mixing 40% by weight of baking soda, 30% by weight of the same mixed ceramic powder as the bioceramic powder used in the preparation of the cold persimmon composition, and 30% by weight of the same organic binder resin used in the preparation of the cold persimmon composition.

3) application of cold feeling composition and cold feeling auxiliary composition to the surface of fabric fabric

On the knitted fabric [material: nylon] using circular knitting, the said cold feeling composition was apply | coated the motif which consists of dots as shown in FIG. 1 [Example 1]. Further, after the application of the cold feeling composition, the cold feeling auxiliary composition was applied along the outer circumferential surface of the motif and the outer circumferential surface of the dots constituting the motif as shown in FIGS. 2 and 3 using a silkscreen printing apparatus [Example 2 and 3].

The fabric sheet coated with the cold feeling composition and the cold feeling auxiliary composition according to Examples 1 to 3 was hot-air dried in an environment maintained at about 140 ℃ to prepare a cold feeling sheet.

Experimental Example  1. Stability to the skin

The stability to the skin of the cold feeling composition and cold feeling aid composition used in Examples 1 and 3 was measured by the patch method. The cold feeling composition used was measured by diluting to a concentration of 10 to 100% or using the stock solution as it was, and no redness or trouble appeared on the skin.

Experimental Example  2.

The fabric fabric itself which does not apply the cold feeling composition and the cold feeling auxiliary composition to the same fabric fabric as used in Examples 1 to 3 as a comparative example, using the cold feeling sheet prepared by Comparative Examples and Examples 1 to 3 10 minutes, 20 minutes, and 30 minutes after wearing the top prepared by using the fabric fabric according to Example 1 and then wearing the fabric prepared in Example 1 was measured after wearing the prepared top for 10 minutes The result of photographing the change of the surface body temperature by the camera equipped with the infrared heat sensor is shown in FIG. 6, and the fabric of the fabric prepared in Example 1 and the fabric of the comparative example were prepared using the fabric prepared in Example 1 and after 2 hours The photograph after 10 minutes of wearing the tops is shown in FIG. 7. In addition, the difference between the highest temperature portion and the lowest temperature portion of the green box portion (abdomen portion) of the photographs shown in FIGS. 6 and 7 is shown in Table 1 below.

Maximum body temperature (℃) Minimum body temperature (℃) Temperature difference Example 1 Immediately after wearing 31.68 27.26 4.42 Example 1 10 minutes after wearing 30.91 26.45 4.46 Example 1 20 minutes after wearing 30.66 25.16 5.50 Example 1 30 minutes after wearing 29.21 25.05 4.16 Example 1 After 2 Hours of Wear 27.01 18.14 8.87 10 minutes after wearing the comparative example 32.59 28.29 4.30

According to Table 1, in the case of Example 1 of the present invention, it can be seen that the surface body temperature begins to decrease immediately after wearing, and as the wearing time increases, the surface body temperature drops a lot.

Since the maximum body temperature and the minimum body temperature are different from each other because the body temperature distribution is different, it is not possible to compare them collectively. It can be seen that the difference between the body temperature and the minimum body temperature also increases with the wearing time.

In addition, according to ISO 6330 2000. 11B, the same conditions as described above were performed after 30 consecutive washings and net drying (using WOB detergent, non-ionic surfactant tween 80) at 30 ± 3 ℃ conditions, about cycles, and 2 kg. The change in temperature was measured, and the same result was obtained. As a result, it can be seen that the cold feeling composition and the cold feeling auxiliary composition have excellent adhesion to the fabric fabric.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1: Cooling feeling composition coating surface (pattern) 10: Dot
20, 22: cold feeling auxiliary composition coating surface

Claims (10)

Cooling composition comprising 40 to 50% by weight of peppermint oil, 20 to 30% by weight of bioceramic powder and 25 to 35% by weight of organic binder resin is applied to the woven fabric or clothing as a structural unit of a dot state of 1 mm or less in diameter Cool feeling sheet characterized by the above.
The method according to claim 1,
The cold feeling composition is a cold feeling sheet, characterized in that the coated surface of the fabric fabric or clothing is printed in the unit of the dot (dot) state of diameter 1 mm or less.
The method according to claim 1,
The peppermint oil is a cold feeling sheet, characterized in that more than 90% purity.
The method according to claim 1,
The bioceramic powder is a cold feeling sheet, characterized in that one or two or more selected from silica, silica, alumina, magnesium, germanium and elvan.
The method according to claim 1,
The bioceramic powder is cold feeling sheet, characterized in that consisting of a diameter in the range of 0.001 ~ 0.5 mm.
The method according to claim 1,
The organic binder resin is a rubber, acrylate resin, and a mixture thereof.
The method according to claim 1,
Baking soda 35 to 45% by weight, bioceramic powder 25 to 35% by weight, and organic binder resin 25 to 35% along the outer circumferential surface of a dot which is the edge of the coated fabric or clothing composition of the fabric or clothing A cold feeling sheet comprising a cold feeling auxiliary composition composed of% applied to the surface of the fabric fabric or clothing in a predetermined area.
Cooling composition consisting of 40 to 50% by weight of peppermint oil, 20 to 30% by weight of bioceramic powder and 25 to 35% by weight of organic binder resin as a structural unit of a dot state of 1 mm or less in diameter on the surface of the fabric fabric or clothing Applying step,
Drying the fabric or garment to which the composition is applied by direct heat or hot air in a temperature range of 130 to 150 ° C.
Method for producing a cold feeling sheet comprising a.
The method according to claim 8,
The cold feeling composition is a manufacturing method of the cold feeling sheet, characterized in that the coated surface of the fabric fabric or clothing is printed in a dot state (dot) of 1 mm or less in diameter.
The method according to claim 8,
Baking soda 35 to 45% by weight, bioceramic powder 25 to 35% by weight, and organic binder resin 25 to 35% along the outer circumferential surface of a dot which is the edge of the coated fabric or clothing composition of the fabric or clothing A method of producing a cold feeling sheet comprising the step of applying a cooling feeling auxiliary composition consisting of a predetermined area.

Images