KR20140104660A - Panties manufacturing method for promoting the circulation of blood and the panties thereof - Google Patents

Abstract

The present invention relates to a method for manufacturing underpants having the function of facilitating the circulation of blood by emitting anions via far infrared rays and underpants manufactured thereby. More particularly, a far infrared ray radiating part (10) is formed by attaching a far infrared ray radiating material in the shape of dots through dot printing on the inner surface of underpants (2), wherein the far infrared ray radiating material is manufactured by mixing far infrared ray radiating material A in the form of powder and far infrared ray radiating material B in a liquid state. Far infrared ray radiating material A is manufactured by pulverizing pegmatite into powder of 0.35 to 1 μm, maturing the pegmatite powder in the presence of Bacillus species SSA3 and under a temperature of 35 to 45°C for 10 to 20 days, drying the pegmatite powder, and then mixing the pegmatite powder with a resin binder for adhesion in a ratio of 100 : 4 to 5 parts by weight. Far infrared ray radiating material B is manufactured by primarily pulverizing 50% of sericite, 30% of mordenite, and 20% of Yiwangshi stone among natural minerals into powder, pulverizing the minerals again into 30 nm using a nanopulverizer, and mixing the mineral with water in a ratio of 2:8. Excellent anion radiating effects by far infrared rays can be obtained by only wearing the underpants, and thus health can be enhanced through facilitated circulation of blood.

Description

TECHNICAL FIELD The present invention relates to a method of manufacturing a panty having a blood circulation promoting function and a panty manufactured by the same,

The present invention relates to a method for manufacturing a panty having a blood circulation promoting function and a panty manufactured thereby, and more particularly, to a method for manufacturing a panty having a blood circulation promoting function, Far infrared ray emitting material having excellent anion releasing effect by far-infrared rays is manufactured, and the far-infrared ray emitting material is adhered to the inner side of the panty by dot printing in the form of a dot by mixing the far- The present invention relates to a method of manufacturing a panty having a function of promoting blood circulation and a panty manufactured by the same, which is superior in health promoting effect by promoting blood circulation than conventional ones by releasing anion by high-efficiency far-infrared rays only by wearing panties.

In general, panties and underwear are worn so that they come in direct contact with the body from the innermost part of the body part.

Such conventional underwears are simply made of cloth materials such as cotton fabrics. In recent years, they have been developed as functional underwears for promoting health by adding various functions such as far infrared ray irradiation, antibacterial and deodorization to cloth materials.

For example, in Patent No. 10-726162, pegmatite is pulverized and aged in a strain, and then added to the natural fiber or synthetic fiber during the dyeing process, thereby promoting the health promotion of the human body by the radical abduction.

In addition, various techniques are known in which far-infrared radiation, jade and other minerals having charcoal, antibacterial and deodorizing function, and the like are crushed and adhered to or coated on the surface of the cloth to thereby realize the benefits of various human bodies by far-infrared radiation.

However, the above-mentioned prior arts have disadvantages in that the separate treatment process for maximizing the far-infrared radiation efficiency of the far-infrared radiation material is excluded and its action and effect are inferior, and since the far-infrared radiation material is added in one form, The effect of the active ingredient can not be maximized, so that the function of obtaining the benefit of the human body by the far-infrared ray emission as a whole is limited.

That is, the far-infrared ray emitting material maximizes the far-infrared ray emitting efficiency of the far-infrared ray emitting material by selecting a good material having excellent far-infrared ray emitting efficiency, combining the processing of the material, proper mixing ratio and mixing state, .

In addition, since the far-infrared ray emitting material is not effectively adhered to the cloth material, the above-mentioned prior art technique is easily detached from the cloth during use, so that the operation effect can not be continuously maintained.

In addition, the above-described prior art has a limitation in that the far-infrared radiation material can not be intensively adhered to the contact portion of the body, thereby failing to maximize the benefits of the human body.

The present invention was made to solve the above problems of the prior art, and it is an object of the present invention to provide a method of producing a far infrared ray emitting material in powder form using pegmatite and a far infrared ray emitting material in liquid form using sericite, mordenite, : 2 to prepare a far-infrared ray emitting material excellent in anion emission effect by far-infrared rays, and the far-infrared ray emitting material is adhered to the inside of the panty by dot printing by dots printing, The present invention is intended to provide an excellent health improving effect by promoting blood circulation as compared with the prior art.

The present invention aims to maximize the reliability of use because the far infrared ray emitting material is adhered to the inner surface of the panty in the form of a dot to prevent the far infrared ray emitting material from being detached during use.

In the present invention, the pegmatite powder is pulverized in the form of powder of 0.35 to 1 탆, and the pegmatite powder is aged for 10 to 20 days in the presence of Bacillus species SSA3 and at a temperature of 35 to 45 캜 Obtaining a far-infrared ray emitting material A in the form of powder mixed with 100: 4 to 5 parts by weight of a binder resin for bonding; In the natural minerals, 50% of sericite, 30% of mordenite and 20% of quartzite are first pulverized in powder form and then pulverized to 300 nm by using a wet type nano-crusher to obtain a liquid form having a solid to water ratio of 2: 8 Obtaining far-infrared radiation material B; Mixing the powdery and far-infrared far-infrared ray emitting materials A and B in a ratio of 8: 2, and adhering them in the form of dots by dots printing to the body contacting part of the inner side of the panties;

The pegmatite is pulverized in the form of powder of 0.35 to 1 탆 into the lower part and the genital part which are located in the front lower part of the waist and the lower part of the waist of the wearer on the inner surface of the panty, Far infrared ray emissive material A (Bacillus species SSA3) in powder form mixed with an adhesive resin binder in an amount of 100: 4 to 5 parts by weight after being aged for 10 to 20 days under the condition of Bacillus species SSA3 and temperature of 35 to 45 And 50% of sericite, 30% of mordenite and 20% of quartzite in natural minerals were pulverized in a powder state and then pulverized to 300 nm by using a wet nano grinder to obtain a liquid phase having a ratio of solid to water of 2: 8 Infrared radiation material B mixed in an amount of 8: 2 is dot-printed by a dot-printing method. .

When the panty according to the present invention is for men, the far infrared ray radiating part is formed of a waist portion located at the waist of the wearer and a lower portion positioned at the front lower portion of the waist portion and a portion contacting the male testicles.

In the present invention, far-infrared radiation material in the form of powder using pegmatite (gyeongseok) and far-infrared radiation material in liquid form using the minerals of sericite, mordenite and quartzite are mixed at a mixing ratio of 8: 2, And the far infrared ray emitting material is adhered to the inner surface of the panty by dots printing in the form of a dot so that the anion release by the high efficiency far infrared rays only by the wearing of the panties can improve the health by the blood circulation promotion .

That is, the far-infrared ray emitting material is selected from good materials having excellent far-infrared ray emitting efficiency, and the far-infrared ray emitting efficiency of the far-infrared ray emitting material is maximized by integrating processing, proper blending ratio, Anion release by far-infrared rays provides better health-promoting effect by accelerating blood circulation than in the past.

In addition, hygienic management with antimicrobial and deodorizing function is excellent.

Further, since the far infrared ray emitting material is adhered to the inner surface of the panty in the form of a dot to prevent the far infrared ray emitting material from being detached during use, the service life can be maintained for a long time, thereby maximizing the reliability of use.

1 is a perspective view showing an example of a panty manufactured by the present invention;
Figure 2 is an internal front view of Figure 1;
3 is a side sectional view of Fig.

First, a method of manufacturing a panty having a blood circulation promotion function according to the present invention will be described.

In the present invention, far-infrared ray emitting materials in the form of powder using pegmatite (gyeongseok) and far-infrared ray emitting materials in liquid form using the minerals of sericite, mordenite and quartzite are mixed at a mixing ratio of 8: 2, A far-infrared ray emitting material is manufactured, and the far-infrared ray emitting material is adhered to the inner surface of the panty by dots printing in the form of a dot.

That is, the present invention relates to a method for producing a pegmatite powder by pulverizing pegmatite in a powder state of 0.35 to 1 탆 and then subjecting the pegmatite powder to aging for 10 to 20 days in the presence of a Bacillus strain (SSA3) And then dried to obtain far-infrared ray emitting material A in powder form.

At this time, 100 to 4 to 5 parts by weight of a resin binder for bonding is added to the far-infrared ray emitting material A in powder form.

The pegmatite is called a gigantic creature rock, and it is a colored radioactive substance and an ore capable of pharmacological action is called gingelite pegmatite in particular. Such pegmatite is a single radiator material, and it is far infrared radiation and antibacterial deodorization Features are excellent.

Such pegmatite (gyeongseok) is processed into a powder form in order to increase the anion release effect by far-infrared rays and adhere in the form of dots by dot printing described later, and the temperature and time of the Bacillus strain are optimized and aged. Substance A is obtained.

The present invention also relates to a method for producing a natural mineral which comprises pulverizing 50% of sericite, 30% of mordenite and 20% of quartzite in a powder state and then pulverizing the same into 300 nm by using a wet type nanorodger to obtain a solid matter- Infrared radiation material B in the form of a liquid.

It is preferable that the sericite, mordenite, and quinquioxane are mixed in a mixing ratio of the sericite, mordenite, and quinolite of 5: 3: 2 as natural minerals having high anion release effect by far-infrared rays.

In addition, the sericite, mordenite, and quinquaisone are pulverized in a nano state in order to increase the anion release effect by far-infrared rays and adhere in the form of dots by dot printing described later, as well as wet treatment to obtain a ratio of solid to water of 2: 8 Infrared radiation material B in a liquid form.

Then, far infrared ray emitting materials A and B in the form of powders and liquid phases were obtained as described above, and far-infrared ray emitting materials A and B in the form of powder and liquid were mixed in an 8: 2 ratio. So that they are manufactured by adhesion.

According to the manufacturing method of the present invention, the far infrared ray emitting material is adhered to the inner surface of the panty in the form of dots, and is in intimate contact with the body, thereby promoting the blood circulation of the human body by the anion radiating effect by far infrared rays. (Bacillus species SSA3) and aged for 10 to 20 days under the temperature condition of 35 to 45 ° C, and then dried to obtain an adhesive resin binder and 100: 4 To 5 parts by weight of powdered far-infrared ray emitting material A, 50% of sericite, 30% of mordenite and 20% of quartzite in natural minerals were pulverized in powder form, And a far infrared ray emitting material B in a liquid form in which the ratio of solid matter to water is 2: 8 is mixed, and the far-infrared ray emitting material A in the form of powder and the far- The radiation material B 8: Since the proper combination to a second printing form by the dot form is done to further maximize the effects by the far-infrared emitting negative ions times the health promoting effects of the blood flow.

That is, the far-infrared ray emitting material is selected by selecting good materials (pegmatite, sericite, mordenite, quartzite) excellent in the far-infrared radiation efficiency and processing it in a state of aging, liquid or powder, proper mixing ratio, Since the far-infrared radiation efficiency of the far-infrared radiation material is maximized and it adheres to the inner surface of the panty, the effect of promoting blood circulation is more excellent than that of the prior art due to the release of anion by high-

As shown in FIGS. 1 to 3, the panty of the present invention manufactured by the above-described manufacturing method has a waist portion 3 located on the waist of the wearer on the inner surface of the panty 2, The pegmatite powder is pulverized in the presence of Bacillus species SSA3 and at a temperature of 35 to 45 DEG C after the pegmatite powder is pulverized into a powdered state of 0.35 to 1 mu m with the lower abdomen part 4 and the reproductive- Far infrared ray emitting material A in powder form mixed with an adhesive resin binder in an amount of 100: 4 to 5 parts by weight for 10 to 20 days under aged condition for 10 to 20 days, 50% of sericite, 30% of mordenite, % Were pulverized in a powder state and pulverized to 300 nm using a wet-type nano-pulverizer to prepare a far-infrared emissive material B having a ratio of solid to water of 2: 8 in an amount of 8: 2. due to Dots to form a primary abduction radiating part 10 which emits negative ions.

At this time, when the panties are for men, a far infrared ray radiating part 10 in which far infrared ray radiating material is adhered in a dots form to a part 5 of the men's pouch which is in contact with the testicles is formed as shown in the drawing, .

It is needless to say that the shape and shape of the pants can be applied to various shapes such as a triangular shape as well as a rectangular trunk shape as shown in the drawings.

The panties 2 according to the present invention have a waist portion 3 located at the waist of the inner side of the panty, a lower abdomen portion 4 located at the front lower portion of the waist and a genital contact portion, Infrared radiation part 10 in which the far-infrared radiation material is adhered in the form of dots is formed in the part 5 of the test bag 6 in contact with the testicles 6 so that the anion emission by the far-infrared rays of the far-infrared radiation part 10 It promotes the blood circulation in the main part of the body, thereby maximizing the health promotion effect.

Further, the far-infrared ray emitting material of the primary abduction radiator 10 may be obtained by pulverizing pegmatite in a powder state of 0.35 to 1 탆, and then, in the presence of Bacillus species SSA3 and at a temperature of 35 to 45 캜 The emulsion was aged for 10 to 20 days and then dried and mixed with 100: 4 to 5 parts by weight of binder resin binder. The powdered far-infrared ray emulsion A was mixed with 50% sericite, 30% mordenite and 20% The powder was pulverized to 300 nm by using a wet-type nano-pulverizer, and the far-infrared emissive material B in a liquid form, in which the ratio of solid to water was 2: 8, was mixed. B ratio of 8: 2, it is possible to maximize the effect of anion release by the far-infrared rays, thereby further maximizing the health promotion effect by promoting blood circulation in the main body part.

In addition, since the far-infrared radiation material is adhered to the inner surface of the panty 2 in the form of a dot, it is possible to prevent the far-infrared radiation material from being detached, so that the service life can be maintained for a long time.

2: panties
3: waist portion
4: lower abdomen part
5: The area where the testicles come in contact
10: far infrared ray radiation part

Claims (3)

The pegmatite powder is aged for 10 to 20 days in the presence of Bacillus species SSA3 and at a temperature of 35 to 45 DEG C, Infrared radiation material A in the form of a powder mixed with 100: 4 to 5 parts by weight of a resin binder for a resin;
In the natural minerals, 50% of sericite, 30% of mordenite and 20% of quartzite are first pulverized in powder form and then pulverized to 300 nm by using a wet type nano-crusher to obtain a liquid form having a solid to water ratio of 2: 8 Obtaining far-infrared radiation material B;
The far-infrared ray emitting materials A and B of the powder and liquid form are mixed in an amount of 8: 2, and they are adhered to the body contact part of the inner side of the panty by dots printing in the form of dots. Gt;
A pegmatite is placed on the inner surface of the panty 2 at a waist portion 3 located at the waist of the wearer and a lower abdomen portion 4 positioned at the front lower portion of the waist portion and a genital contact portion, The pegmatite powder is aged for 10 to 20 days in the presence of Bacillus strain SSA3 and at a temperature of 35 to 45 DEG C and then dried to obtain 100 to 4 to 5 parts by weight of an adhesive resin binder A mixture of powdered far-infrared ray emitting material A and natural minerals 50% of sericite, 30% of mordenite and 20% of quartzite were first pulverized in powder form and then pulverized to 300 nm with a wet type nano- Infrared radiation material B having a ratio of water of 2: 8 is blended in a ratio of 8: 2 is dots-printed to form a primary abduction radiation portion 10, Panties having a liquid circulation promoting function.
3. The method of claim 2,
In the case where the panty 2 is male, the far infrared ray radiating part 10 includes a waist part 3 located at the waist of the wearer, a lower part 4 positioned at the lower front of the waist and a part (5) having a blood circulation promotion function.

Images