KR102173648B1 - Far-infrared emission ball electric mat - Google Patents

Abstract

The present invention relates to an electric mat for emitting far-infrared rays and, more specifically, to an electric mat for emitting far-infrared rays, which includes far-infrared emitting balls. The far-infrared emitting balls are formed by mixing a binder with a mixture of lapillus powder and loess powder. The electric mat for emitting far-infrared rays has a heating means for heating the far-infrared emitting balls. The electric mat including the far-infrared emitting balls containing the lapillus powder and the loess powder has an excellent far-infrared emitting effect and exhibits excellent water resistance and mechanical strength, thereby being applicable to various products and industries.

Description

Electric mat with built-in far-infrared ray emitting ball mixed with chil jewel and loess {FAR-INFRARED EMISSION BALL ELECTRIC MAT}

The present invention relates to a far-infrared ray-emitting electric mat, and more particularly, it has excellent far-infrared ray-emitting effect, and exhibits excellent water resistance and mechanical strength, so it can be applied to various products and industries.

In general, loess is widely distributed in semi-arid areas and covers 10% of the surface. Various enzyme components are contained in this loess, and each of these enzymes plays a role in removing toxins, decomposing power, fertilizer elements, and purification. The most fundamental effect of loess is far-infrared rays wavelength from loess, and far-infrared rays are cells. It not only activates the physiological function of the body, but also has a photoelectric effect that generates heat energy to release harmful substances.The unheated loess is similar to ordinary soil, but once heated (above 60℃) far-infrared radiation (5~15 ㎛) is superior to the energy curve that is most beneficial to the human body, and the central part of the human body maintains a body temperature of 35℃, increases blood flow, and helps relieve fatigue by promoting metabolism.

Using this property of loess, in recent years, loess is produced in a certain size and distributed in pedestrian walkways and trails.

In addition, loess contains fine particles and a lot of oxygen, has excellent purifying ability, deodorization, and degreasing properties.As the function and efficacy of loess is widely known, it is widely known for various types of health equipment and food. It is widely used in the field.

On the other hand, loess balls are manufactured by molding ocher powder in the form of balls.If the loess balls manufactured in the form of balls are used as civil engineering and construction materials, they can be mixed with a finishing material when finishing floors or walls. In addition, it can be used for health equipment and various foods, but conventionally, loess balls were manufactured by binding loess powder with chemical adhesives, mixing ceramic powder with loess powder, or through a separate heat treatment process. The produced loess ball has a problem in that the far-infrared emission effect is insignificant, the mechanical strength such as water resistance and impact resistance is weak, and harmful substances are released or the manufacturing cost is high.

Korean Patent Registration No. 10-0380593 (2003.04.03) Korean Patent Registration No. 10-1202356 (2012.11.12)

It is an object of the present invention to provide a far-infrared-emitting electric mat that can be applied to various products and industries because it has excellent far-infrared emission effect and exhibits excellent water resistance and mechanical strength.

It is an object of the present invention to contain a far-infrared ray emitting ball, the far-infrared ray emitting ball is a far-infrared ray emitting electric mat made by mixing a binder in a mixture consisting of chilboseok powder and ocher powder, the far-infrared ray emitting electric mat is heated the far-infrared ray emitting ball It is achieved by providing a far-infrared emission electric mat, characterized in that the heating means is provided.

According to a preferred feature of the present invention, the far-infrared ray emitting ball is composed of 100 parts by weight of the mixture and 50 to 100 parts by weight of the binder, and the mixture is composed of 100 parts by weight of chilboseok powder and 10 to 900 parts by weight of loess powder.

According to a more preferred feature of the present invention, the far-infrared emission ball further contains 5 to 30 parts by weight of a curing agent based on 100 parts by weight of the mixture, and the curing agent includes a general commercially available curing agent or cement or limestone powder.

According to a more preferred feature of the present invention, the far-infrared ray emitting ball further contains 5 to 10 parts by weight of rare earth powder relative to 100 parts by weight of the mixture.

According to an even more preferred feature of the present invention, the far-infrared emission ball is to be prepared by naturally drying for 120 to 180 minutes at a temperature of 5 ℃ to 105 ℃.

According to an even more preferred feature of the present invention, the loess powder is made by mixing 140 to 160 parts by weight of loess powder having a particle size of 0.005 to 0.1 mm with 100 parts by weight of loess powder having a particle size of 0.000005 to 0001 millimeters.

According to an even more preferred feature of the present invention, the far-infrared emission ball is manufactured in the form of a sphere having a diameter of 2 to 20 millimeters under the condition of rotating for 120 to 180 minutes at a speed of 30 rpm to 500 rpm using a rotary stirrer.

According to an even more preferred feature of the present invention, the far-infrared ray emitting ball further contains 5 to 15 parts by weight of seaweed extract based on 100 parts by weight of the mixture, and the seaweed is made from kelp.

According to an even more preferred feature of the present invention, the far-infrared ray emitting electric mat is applied to a bed, mattress, and bedding to include them.

Since the far-infrared ray emitting electric mat according to the present invention has excellent far-infrared ray emission effect, excellent water resistance and mechanical strength, it shows an excellent effect of providing a mat that can be applied to various products and industries, and releases far-infrared rays and anions, antibacterial , It has the function of imparting deodorization and purification effect.

1 to 3 are test reports showing far-infrared emissivity and far-infrared radiation energy by requesting the far-infrared emission ball manufactured through Example 1 of the present invention to the Korea Institute of Construction Living Environment.
4 is a photograph showing a far-infrared ray emitting ball manufactured through Example 1 of the present invention.
5 to 7 are photographs photographing and showing the appearance of a far-infrared emission electric mat with a far-infrared emission ball interposed therebetween prepared through Example 1 of the present invention.

Hereinafter, a preferred embodiment of the present invention and the physical properties of each component will be described in detail, but this is for explaining in detail enough that one of ordinary skill in the art can easily implement the invention, This does not mean that the technical spirit and scope of the present invention are limited.

The electric mat (hereinafter referred to as "far-infrared emission electric mat") with a built-in far-infrared ray emitting ball in which chilboseok and loess according to the present invention are mixed contains a far-infrared ray emitting ball, and the far-infrared ray emitting ball is composed of chilboseok powder and loess powder. A far-infrared ray emitting electric mat formed by mixing a binder with a mixture consisting of, wherein the far-infrared ray emitting electric mat is provided with heating means such as an electric heating wire for heating the far-infrared ray emitting ball.

The far-infrared ray emitting electric mat manufactured through the present invention is provided with a skin layer and an internal filling layer like a commonly used mat, and is introduced in the process of foaming the internal filling layer so that the far-infrared ray emitting ball can be evenly distributed throughout the mat. It is preferable that a far-infrared ray emitting ball is interposed within the inner filling layer, or a far-infrared ray emitting ball is interposed between the skin layer and the inner filling unit, and then needling so that the far-infrared ray emitting ball is distributed within a certain area.

In addition, the far-infrared ray emitting ball is preferably composed of 100 parts by weight of a mixture consisting of the chilboseok powder and ocher powder and 50 to 100 parts by weight of a binder, and the mixture is composed of 100 parts by weight of chilboseok powder and 10 to 900 parts by weight of loess powder. It is desirable.

The loess powder is made by mixing 140 to 160 parts by weight of loess powder having a particle size of 0.005 to 0.1 millimeters with 100 parts by weight of loess powder having a particle size of 0.000005 to 0001 millimeters, and mixing the loess powder with different particle sizes as described above. Then, the space between the ocher powder having a large particle size is filled with the ocher powder having a small particle size, so that a far-infrared ray emitting ball having excellent mechanical strength can be provided.

At this time, the ocher powder having a particle size of 0.000005 to 0001 millimeters removes foreign substances from the loess collected in nature, and passes through a 0.001 millimeter fine sieve by filtering 5 to 10 times with a fine sieve having a pore size of 0.001 millimeters. The particles are again passed through a fine sieve with a pore size of 0.000005 millimeters and are made of unpassed loess powder particles, and the loess powder having a particle size of 0.005 to 0.1 millimeters removes foreign substances from the loess collected in nature, and the pores are The ocher powder particles that were sieved 5 to 10 times with a 0.1 millimeter fine sieve are passed through a fine sieve with a pore size of 0.005 millimeters to produce unpassed ocher powder particles.

At this time, if the content of the loess powder with a particle size of 0.005 to 0.1 millimeters is less than 140 parts by weight or exceeds 160 parts by weight, the agglomeration between the particles of the loess powder decreases, and the cohesion between particles decreases due to excessive voids, thereby emitting far infrared rays. The mechanical properties of the ball are lowered, the water absorption rate is increased, and the water resistance is lowered, and it is most preferably contained in 150 parts by weight.

In addition, it is preferable that the loess powder is prepared by adding ocher powder having different particle sizes to the agitator at the above content and stirring for 120 to 180 minutes at a speed of 30 rpm to 500 rpm.

The chilboseok powder may contain 10 to 900 parts by weight relative to 100 parts by weight of the loess powder, and not only improves mechanical strength to the far-infrared emission ball, but also provides far-infrared and anion emission, antibacterial, deodorizing and purifying effects. do.

The chilboseok powder of the present invention has the effect of expanding capillaries, preventing cancer, preventing dementia, and activating cells necessary for human activities.

In addition, the existing Chilboseok products are heated to 80 ~ 270℃ to emit 5~30% of far-infrared rays which are beneficial to the human body, but the Chilboseok products of the present invention are excellent products with more than 93% of far-infrared rays at a real life temperature of 40℃.

The chilboseok powder preferably exhibits a particle size of 30 to 200 mesh, and the above effect is insignificant when the content of the chilboseok powder is less than 10 parts by weight, and when the content of the chilboseok powder exceeds 900 parts by weight The formability of the far-infrared ray emitting ball is deteriorated.

At this time, the chilboseok powder is a mineral having seven bright colors such as black, red, brown, red, gray, light gray and green, and the main chemical components are SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , FeO, CaO, MgO, Na ₂ O, TiO ₂ , P ₂ O ₅ and MnO are the main components, and it is composed of quartz, feldspar, biotite, muscovite mica, garnet, apatite, zercon, calcite, chlorite, sericite and other minerals, In the form of energy radiation, the left and right waves, which are torsion waves, are radiated.

In particular, when looking at the compound analyzed for Chilboseok, it contains more than 60% of SiO ₂ , so it has excellent dehumidification effect, and it contains a large amount of activated alumina, so it is rich in minerals and has a purification effect that neutralizes alkali salts contained in cement. Show.

The binder is mixed with 50 to 100 parts by weight based on 100 parts by weight of the mixture consisting of the chilboseok powder and the loess powder, and purified water is preferable as a liquid that binds the loess powder and the chiliflower powder, and the content of the binder is 50 parts by weight. If it is less than part, the binding strength and moldability of the mixture consisting of the loess powder and the cloisonne powder are deteriorated, and if the content of the binder exceeds 100 parts by weight, the mixture becomes too thin and the binding strength and moldability may be reduced.

In addition, the far-infrared ray emitting ball may further contain 5 to 30 parts by weight of a curing agent relative to 100 parts by weight of the mixture, and the curing agent may include a commercially available liquid general curing agent or cement or limestone powder. When the hardener made of powder is contained, the mechanical strength of the far-infrared ray emitting ball is further improved, and when the far-infrared ray emitting electric mat according to the present invention is commercialized as a cushion or bed mattress, the far-infrared ray emitting ball interposed in the far-infrared ray emitting electric mat by the load It serves to suppress deformation or damage.

When the content of the curing agent is less than 5 parts by weight, the above effect is insignificant, and when the content of the curing agent exceeds 30 parts by weight, the moldability of the far-infrared ray emitting ball may be deteriorated.

In addition, the far-infrared emission ball may further contain 5 to 10 parts by weight of rare earth powder relative to 100 parts by weight of the mixture, and if the rare earth powder is contained as described above, the far-infrared ray and anion emission effect of the far-infrared ray emission ball is further improved.

In this case, the rare earth powder preferably exhibits a particle size of 30 to 200 mesh in consideration of the mixability of the loess powder and the cloisonne powder constituting the mixture. If the content of the rare earth powder is less than 5 parts by weight, the above The effect is insignificant, and when the content of the rare earth powder exceeds 10 parts by weight, the above effect is not greatly improved, the mechanical strength of the far-infrared ray emitting ball is lowered, and the manufacturing cost is increased.

At this time, the rare earth components include 19.20% by weight of La (57), 38.87% by weight of Ce (58), 4.24% by weight of Pr (59), 16.79% by weight of Nd (60), and 0.02% by weight of Pm (61 ), 2.64 wt% Sm(62), 0.23 wt% Eu(63), 1.91 wt% Gd(64), 0.40 wt% Tb(65), 1.29 wt% Dy(66), 0.23 wt% Of Ho(67), 0.82% by weight of Er(68), 0.11% by weight of Tm(69), 0.84% by weight of Yb(70), 0.13% by weight of Lu(71) and 1.60% by weight of U, 10.68% by weight It is preferably made of% Th.

The far-infrared emission ball made of the above components may be manufactured in the form of a sphere having a diameter of 2 to 20 millimeters under the condition of rotating for 120 to 180 minutes at a speed of 30 to 500 rpm using a rotary stirrer.

If the far-infrared emission ball is molded during the stirring speed and time as described above, friction or pressing force is generated in the process of rotating together in the rotary stirrer, thereby further improving the mechanical strength of the molded product, and A far-infrared ray emitting ball is provided that is smoothly polished and has excellent marketability.

In addition, the far-infrared ray emitting ball may further contain 5 to 15 parts by weight of seaweed extract based on 100 parts by weight of the mixture, and the seaweed may be made of kelp.

More specifically, the mixture prepared by mixing 5 to 15 parts by weight of seaweed extract with respect to 100 parts by weight of the mixture may be extruded with an extruder and then introduced into a rotary stirrer to form a sphere. At the outlet, while extruding the mixture with seaweed extract through a long extrusion furnace (diameter of 05 to 15 cm) with a circular cross section with the force (pressure of 05 to 5 kg/mm ² ) compressed by the piston of the extruder. It is made through the process of periodically cutting a predetermined length by a rotating blade, inserting it into a rotary stirrer, and rotating agitating for 120 to 180 minutes at a speed of 30 to 500 rpm.If molding is performed for the same stirring speed and time, a number of molded products In the process of rotating together in the rotary stirrer, friction or pressing force is generated to further improve the mechanical strength of the molded product, and the surface of the molded product is smoothed to provide a far-infrared emission ball having excellent marketability.

At this time, the particles constituting the mixture of the seaweed extract are compressed and bonded to each other by the piston of the presser, and the loess powder having a small particle size is put into the space formed between the loess powder having a large particle size, and they are entangled by the seaweed extract. As it is compressed, a far-infrared ray emitting ball with improved bonding strength and improved water resistance is produced while maintaining the useful microorganisms and efficacy of the loess itself.

At this time, the seaweed extract is prepared by mixing 20 to 50 parts by weight of kelp to 100 parts by weight of a binder and heating at a temperature of 90 to 95°C for 10 to 30 minutes.

The seaweed extract prepared through the above process contains a large amount of mucous components, and the binding power of loess powder and chilboseok powder is further improved due to the mucous components, and the mucous components are not well soluble in water, so the water resistance is It is possible to provide an improved far-infrared emission ball.

If the content of the seaweed extract is less than 5 parts by weight, the above effect is insignificant and the mechanical strength of the far-infrared ray emitting ball decreases, and when the content of the seaweed extract exceeds 15 parts by weight, compared to the seaweed extract, loess powder and cloisonne The content of the powder is too low, and the mechanical properties of the far infrared ray emitting ball may be deteriorated.

The far-infrared ray emitting ball manufactured through the above process is naturally dried or put in a dryer and dried for 5 to 10 hours at a temperature of 15 to 30°C. If the drying process made of the above process goes through, the far-infrared ray The ejection ball is hardened and the mechanical properties are further improved.

In addition, the far-infrared emission ball composed of the above components may be prepared by naturally drying for 2 to 4 hours at a temperature of 5 to 105°C, and the far-infrared emission ball dried for the above temperature and time is the loess contained in the far-infrared ray emission ball. Since the powder is hardened, mechanical properties can be further improved.

In addition, the far-infrared ray emitting electric mat according to the present invention may further include a heating means, in which case a conventional heating wire or a heating plate layer applied to the mat may be applied as the heating means, and in the case of the heating wire, Korean Patent Registration No. 10-1067638 You can use the same method that applies to

When the far-infrared ray-emitting electric mat equipped with the heating means as described above is heated to a temperature of 40 to 60°C, a large amount of far-infrared ray is emitted from the far-infrared ray-emitting ball contained in the far-infrared ray-emitting electric mat, so the health of the user can be improved. .

The far-infrared emission electric mat composed of the above structures and components may include products such as cushions, mattresses, mattresses applied to bed or sofas, and bedding such as blankets and rugs, and these products can be applied to various product fields. have.

Hereinafter, a method of manufacturing a far infrared ray emitting ball applied to a far infrared ray emitting electric mat according to the present invention and the physical properties of the far infrared ray emitting ball manufactured through the manufacturing method will be described with examples.

<Production Example 1>

Ocher powder was prepared by mixing 150 parts by weight of loess powder having a particle size of 0.01 mm to 100 parts by weight of loess powder having a particle size of 0.001 mm and stirring at a speed of 750 rpm for 90 minutes.

<Example 1>

50 parts by weight of purified water as a binder was mixed with 100 parts by weight of the mixture consisting of 60 parts by weight of the loess powder and 40 parts by weight of the chilboseok powder prepared through Preparation Example 1, added to an electric stirrer, and stirred for 150 minutes at a speed of 400 rpm to The molded product was molded to have a size of 10 millimeters, and the molded product was put into a dryer and dried at a temperature of 22° C. for 8 hours to prepare a far-infrared ray emitting ball.

<Comparative Example 1>

50 parts by weight of purified water as a binder was mixed with 100 parts by weight of the loess powder prepared through Preparation Example 1, added to an electric stirrer, and stirred at a speed of 400 rpm for 150 minutes to form a diameter of 10 millimeters, and the prepared molding Was put into a dryer and dried at a temperature of 22° C. for 8 hours to prepare a far-infrared loess ball.

The far-infrared emissivity and far-infrared radiation energy of the far-infrared emission ball manufactured in Example 1 were requested to the Korea Institute of Construction Living Environment and the test reports measured by the results are shown in FIGS. 1 to 3 below.

As shown in FIGS. 1 to 3 below, it can be seen that the far-infrared emission ball manufactured through Example 1 of the present invention has excellent far-infrared emissivity and far-infrared radiation energy.

<Example 2>

After mixing and foaming 20 parts by weight of the far-infrared ray emitting ball prepared in Example 1 with 100 parts by weight of polyester, a heating means made of a hot wire is interposed on one side of the inner packing layer and then finished with a skin layer. Thus, a far-infrared ray emitting electric mat was prepared.

<Comparative Example 2>

Proceeding in the same manner as in Example 2, a far-infrared ray emitting electric mat was prepared using a far-infrared ray loess ball prepared through Comparative Example 1 instead of a far-infrared ray emitting ball.

The far-infrared emissivity of the products manufactured through Examples 1 to 2 and Comparative Examples 1 to 2 was measured and shown in Table 1 below.

(However, the mat prepared through Example 2 was measured under the temperature conditions of 30 ℃, 50 ℃, 70 ℃.)

<Table 1>

As shown in Table 1 above, it can be seen that the far-infrared emission ball and the far-infrared emission electric mat manufactured through Examples 1 to 2 of the present invention have excellent far-infrared emissivity.

In addition, it can be seen that the far-infrared emission electric mat manufactured through Example 2 has the highest far-infrared emissivity under the temperature condition of 50°C.

Accordingly, the far-infrared ray emitting electric mat according to the present invention has excellent far-infrared ray emission effect, excellent water resistance and mechanical strength, and thus exhibits an excellent effect of providing a mat that can be applied to various products and industries.

Claims (9)

It contains a far-infrared ray emitting ball,
The far-infrared ray emitting ball is a far-infrared ray emitting electric mat formed by mixing a binder in a mixture consisting of chilboseok powder and loess powder,
The far infrared ray emitting electric mat is provided with a heating means for heating the far infrared ray emitting ball,
The far-infrared emission ball is composed of 100 parts by weight of the mixture and 50 parts by weight of a binder consisting of purified water, 5 to 30 parts by weight of a hardener, 5 to 10 parts by weight of rare earth powder, and 5 to 15 parts by weight of seaweed extract, and 400 rpm using a rotary stirrer. It is manufactured in the form of a sphere with a diameter of 10 millimeters or less under the condition of rotating for 150 minutes at a speed of,
The mixture is composed of chilboseok powder and loess powder of 4:6 parts by weight,
The hardener includes cement or limestone powder,
The loess powder is prepared by mixing 150 parts by weight of loess powder having a particle size of 0.005 to 0.1 mm in 100 parts by weight of loess powder having a particle size of 0.000005 to 0.001 millimeters and stirring at a speed of 750 rpm for 90 minutes,
The rare earth powder exhibits a particle size of 30 to 200 mesh,
It is characterized in that applied to supplements, mattresses and bedding
An electric mat with a built-in far-infrared ray emitting ball that is a mixture of chilboseok and loess. It contains a far-infrared ray emitting ball,
The far-infrared ray emitting ball is a far-infrared ray emitting electric mat formed by mixing a binder in a mixture consisting of chilboseok powder and loess powder,
The far infrared ray emitting electric mat is provided with a heating means for heating the far infrared ray emitting ball,
The far-infrared emission ball is composed of 100 parts by weight of the mixture and 50 parts by weight of a binder consisting of purified water, 5 to 30 parts by weight of a hardener, 5 to 10 parts by weight of rare earth powder, and 5 to 15 parts by weight of seaweed extract, and 400 rpm using a rotary stirrer. It is manufactured in the form of a sphere with a diameter of 10 millimeters under the condition of rotating for 150 minutes at a speed of
The mixture is composed of chilboseok powder and loess powder of 4:6 parts by weight,
The hardener includes cement or limestone powder,
The loess powder is prepared by mixing 150 parts by weight of loess powder having a particle size of 0.005 to 0.1 mm in 100 parts by weight of loess powder having a particle size of 0.000005 to 0.001 millimeters and stirring at a speed of 750 rpm for 90 minutes,
The rare earth powder exhibits a particle size of 30 to 200 mesh,
It is characterized in that applied to supplements, mattresses and bedding
An electric mat with a built-in far-infrared ray emitting ball that is a mixture of chilboseok and loess. delete delete delete delete delete delete delete

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