KR20190005532A - Mat using germanium layer for massage, and manufacturing method for the same - Google Patents

Abstract

The present invention relates to a mat using a germanium layer and a method for manufacturing the same. The present invention provides a mat including: a case member (110) including a sheet peripheral part (120) which is formed by surrounding the center of a cover surface with a sheet space part (140) if a case peripheral part (130) is formed along a rectangular circumference to surround a cover surface of an upper side and a bottom surface of a lower side and corresponds to an opened space part; and a germanium sheet unit (150) which is arranged in the sheet peripheral part (120) to have a honeycomb pattern and includes a raw material layer (151) and a germanium powder layer (152) formed by attaching germanium powder to an upper side of the raw material layer (151) through a silk printing method and expanding germanium by adding an expandable agent. Accordingly, the present invention can provide a mat internal/external structure which is functionally optimized in a mat provided for a purpose of sleeping or taking a rest and can provide an arrangement structure for improving circulation of blood vessels, which is maximized, and activation of metabolism to an upper side of the mat. In addition, since oxygen can be smoothly supplied into a human body and metabolism can be expedited through a single operation of a germanium layer or a complex operation of a germanium layer and a neodymium magnet and a natural healing effect can be provided, a blood circulation effect and thus a pain alleviating effect can be provided.

Description

TECHNICAL FIELD [0001] The present invention relates to a mat using a germanium layer, a method of manufacturing the mat,

The present invention relates to a mat utilizing a germanium layer to provide a structure for providing a mat inner and outer structure that is optimized for providing a health mat and for providing a structure for providing a blood circulation improvement and an activation of metabolism maximized on the inside of the mat, More particularly, the present invention relates to a method of manufacturing a magnetic field sensing device, which is based on an optimized inner and outer structure of a mat, and is capable of generating a triple magnetic force in addition to a magnetic force through differential arrangement of neodymium magnets, The present invention relates to a mat using a germanium layer and a method of manufacturing the mat using the germanium layer to improve blood circulation and activation of metabolism to maximize far infrared rays and anion generation effect by germanium.

Recently, various kinds of mats have been released for the purpose of living healthily. Such mats are mainly composed of general cushioning mats having a heating function having a certain elasticity and mats having functional materials added thereto with an emphasis on various functions .

However, the above conventional conventional mats can not achieve a beneficial effect by merely adding a functional substance, but also functions to promote blood circulation and activation of metabolism. It is difficult to manifest a beneficial effect on the human body merely by the heating function alone. to be.

Korean Patent Registration No. 10-0519786 entitled "Health-assistant mat having a cooling and heating function" Korean Patent Registration No. 10-0728393 entitled " Four-Seasons Health Aid Mat with Variable Assembly Function " Korea Patent Registration Publication No. 10-0332531 "Health Mat" Korean Patent Registration Bulletin No. 10-1245030 "Loess Health Mat"

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a mat interior and exterior structure that is functionally optimized in a mat provided for use such as sleeping or relaxing, A mat utilizing a germanium layer to provide an array structure for providing activation, and a method of manufacturing the same.

In addition, the present invention provides oxygen smoothly in the human body by the action of the germanium layer alone or by the action of the germanium layer and neodymium magnet, promotes the metabolism and induces the natural healing power, thereby improving the blood circulation effect and the pain relieving And a method of manufacturing the same.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, when the upper cover surface and the lower bottom surface of the mat using the germanium layer according to the embodiment of the present invention are formed by surrounding the case frame 130 around a square, A case member 110 having a sheet rim portion 120 formed by being surrounded by the sheet space portion 140 and corresponding to an open space portion; Germanium powder is attached to the upper surface of the monolayer 151 and the upper surface of the monolayer 151 by a silk printing method, and a foaming agent is added to foam the germanium A germanium sheet unit 150 including a formed germanium powder layer 152; . ≪ / RTI >

At this time, in the mat using the germanium layer according to another embodiment of the present invention, the inside of the case member 110 is formed with a multifunctional foam 160, and a rectangular shape formed inside the sheet rim 120, It is preferable that many hexagonal germanium sheet units 150 are arranged in a honeycomb pattern.

In addition, in the mat using the germanium layer according to another embodiment of the present invention, the sheet edge part 120 is formed in a rectangular angular shape, and the left corner of the square corner area 4 is extended leftward, It is preferable that the corner is formed in a shape extending to the right side.

In addition, in the mat utilizing the germanium layer according to another embodiment of the present invention, it is preferable to use conductive monocasting nylon (MC nylon) as the sheet rim portion 120.

In addition, in the mat utilizing the germanium layer according to another embodiment of the present invention, the neodymium magnet group formed by inserting into the neodymium magnet layer before forming the germanium powder layer 152 in the monopole layer 151 (154); .

In the mat using the germanium layer according to another embodiment of the present invention, the Neodymium magnets constituting the Neodymium magnet group 154 are arranged such that the vertical and horizontal directions of the N and S poles are alternately arranged It is preferable to arrange them in the form of

In the mat using the germanium layer according to another embodiment of the present invention, the first vertical magnet 154a having the N pole and the S pole at the lower portion constituting the neodymium magnet group 154, On the contrary, due to the arrangement of the second vertical direction magnets 154b having the N pole at the lower portion and the S pole at the upper portion, due to the magnetic force in the horizontal direction which does not occur in the same direction, It is preferable that a triple magnetic force of magnetic forces mutually connected in the lateral direction is generated.

In order to accomplish the above object, a method of manufacturing a mat using a germanium layer according to an embodiment of the present invention includes a sheet frame 120, a case 130, and a case member 140 having a sheet space 140 110); The multifunction foam 160 is formed by sequentially stacking at least one of the water blocking layer 161, the heat insulating reflection layer 162, the temperature control layer 163, the electromagnetic wave shielding layer 164 and the cover layer 165 ; A third step of positioning the multifunctional foam 160 inside the case member 110; And a germanium sheet unit (150) including a germanium powder layer (152) formed by foaming germanium by adding a foaming agent to the upper surface of the monolayer (151) 150) is formed by arranging the multifunctional foam 160 in a honeycomb pattern on the inside of the sheet edge portion 120 of the case member 110 on the cover layer 165 of the multifunctional foam 160; . ≪ / RTI >

A mat using a germanium layer according to an embodiment of the present invention and a method for manufacturing the same provide functionally optimized inner and outer structures of a mat provided for use such as sleeping or relaxing, It is possible to provide an arrangement structure for providing blood circulation improvement and activation of metabolism.

In addition to this, a mat using the germanium layer according to another embodiment of the present invention and a method for manufacturing the same may further include a step of supplying oxygen to the human body through the germanium layer alone or by the action of the germanium layer and the neodymium magnet, And by inducing natural healing power, it has an effect of providing the blood circulation effect and the pain relieving thereby.

1 is a view showing a mat 100 utilizing a germanium layer according to an embodiment of the present invention.
2 is a view showing a laminated structure of the multifunctional foam 160 which is filled in the case member 110 of the mat 100 using the germanium layer of FIG.
3 is a drawing showing that the germanium sheet unit 150 according to the first embodiment and the germanium sheet unit 150b according to the second embodiment used in the mat 100 utilizing the germanium layer of FIG. 1 are actually fabricated to be.
FIG. 4 is a view showing a stacked structure of germanium sheet units 150, 150a and 150b according to the first to third embodiments used in the mat 100 utilizing the germanium layer of FIG.
5 is a view for explaining a differential arrangement of Neodymium magnet groups 154 inserted in a germanium sheet unit of a mat 100 utilizing a germanium layer according to an embodiment of the present invention.
FIG. 6 is a view showing a mat 100 actually made using a germanium layer according to an embodiment of the present invention.

The present invention can be variously modified and may have various embodiments, and specific embodiments will be described in detail with reference to the drawings. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another.

For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be construed as ideal or overly formal in meaning unless explicitly defined in the present application Do not.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a mat using a germanium layer according to the present invention and a method of manufacturing the same will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a view showing a mat 100 utilizing a germanium layer according to an embodiment of the present invention. 2 is a view showing a laminated structure of the multifunctional foam 160 which is filled in the case member 110 of the mat 100 using the germanium layer of FIG.

Referring to FIG. 1, a mat 100 using a germanium layer includes a case member 110, a sheet rim 120, a case rim 130, a sheet space 140, Unit 150. The < / RTI >

When the case cover 110 is formed by surrounding the upper cover surface and the lower bottom surface of the case frame 130 around a square, the case member 110 is formed at the center of the cover surface with a space portion 140, And a sheet edge portion 120 corresponding to the sheet edge portion.

2, a plurality of hexagonal germanium sheet units 150 are formed in a square region formed inside the sheet edge portion 120 of the upper portion of the case member 110 And may be formed into a honeycomb pattern.

The sheet edge 120 is formed in a rectangular shape, and the four corners of the rectangular corner area may be formed such that the left edge extends leftward and the right edge extends rightward.

The case rim 130 may have a rectangular shape, and rectangular corner areas may be curved.

The seat frame 120 and the case frame 130 may be formed of a material protruding from the case member 110 and having a wear resistance higher than that of the case member 110.

More specifically, the sheet rim 120 and the case rim 130 may be made of monocasting nylon (MC nylon) so as to withstand shock and abrasion. MC nylon is an engineering plastic molded by chemical change at atmospheric pressure by injecting nylon monomer mixed with reaction catalyst into a mold. It is useful for molding of large parts and has excellent properties compared to general extruded nylon products. It is a polymer nylon which is widely used for machine parts (wheel, etc.) and industrial materials. In particular, since the surface is soft and stronger than metal, it has an excellent buffering characteristic, superior self-lubricating (abrasion resistance), excellent overall mechanical strength, and long durability life.

Particularly, the mono-cast nylon (MC nylon) used as the material of the sheet edge portion 120 is formed of a neodymium magnet group 154 in the germanium sheet unit 150 formed in the sheet space portion 140 by using a conductive material The magnetic force g1 from the neodymium magnets constituting the neodymium magnet group 154 is transferred to the magnetic body to activate the iron content of the ferromagnetic substance in the blood to improve the blood circulation and the metabolism Can be doubled.

The conductive MC nylon utilizes the fact that the ground carbon fibers are uniformly dispersed in the MC nylon to form a conductive network and have electrical conductivity. In other words, the electrical resistance of conductive MC nylon can be from 10 ^-3 to 10 ^-2 S / cm.

That is, in the present invention, the carbon fibers uniformly dispersed in MC nylon are uniformly dispersed in MC nylon with a diameter of 25 to 65 mu m and a length of 10 to 30 m / m, which is much longer than the diameter. These carbon fibers are excellent in electrical conductivity, and carbon fibers having a length longer than the diameter are dispersed and arranged in the MC nylon, so that mutual contact is easy and uniform heat can be generated and the conductivity is good, Can directly irradiate the far-infrared ray generated from the infrared ray, and can be utilized as a surface heating sheet which can give vitality to the human body.

Meanwhile, the plurality of germanium sheet units 150 formed in the sheet space portion 140 may be formed in a continuous sheet form as shown in FIG. 5A or in the form of individual units as shown in FIG. 5B.

2, the multifunctional foam 160 includes at least one of a spheric barrier layer 161, an adiabatic reflective layer 162, a temperature control layer 163, an electromagnetic wave shielding layer 164, and a cover layer 165 Or more can be sequentially formed.

Here, the water blocking layer 161 is laminated on the lower bottom surface of the case member 110 to block the snakes, and a copper plate or an aluminum or silver foil plate having a purity of 99% or more can form the lower surface.

The adiabatic reflective layer 162 is a heat resistant sheet formed between the water blocking layer 161 and the temperature control layer 163. The adiabatic reflective layer 162 reflects heat or cool air emitted from the temperature control layer 163 upward Thereby doubling the heat or cold effect and preventing the heat from leaking to the bottom.

The temperature control layer 163 is provided as an array of Peltier elements to perform a heat generation function and a cold / warm function, so that it is possible to perform adjustment within a predetermined temperature range by an external remote controller or a controller.

The electromagnetic wave shielding layer 164 shields electromagnetic waves harmful to the human body generated in the temperature control layer 163. The electromagnetic wave shielding layer 164 includes a first electromagnetic shielding layer, a polyester nonwoven fabric A shielding fiber layer coated with copper and nickel powder mixed with an adhesive, and a second electromagnetic wave shielding layer formed of a lattice patterned copper foil on the shielding fiber layer.

The first electromagnetic shielding layer may be composed of 65 weight parts of synthetic resin (urethane resin) binder and 35 weight parts of lacquer essence. The yellowish juice and lacquer juice containing the urushiol ingredient used in the present invention is a raw material excellent in electromagnetic wave shielding ability to such a degree that it is used as a kind of stealth raw material which is light, has strong adhesive force and completely absorbs electromagnetic waves. Yellow crunchy juice and lacquer juice are materials that act as an electromagnetic wave shielding agent in which the urushiol component completely absorbs electromagnetic waves, and its content can be 20 to 45 parts by weight.

The addition of less than 20 parts by weight of Crassulaceae juice and Lacquer essence may result in less expected electromagnetic wave shielding role.

In another embodiment of the present invention, the electromagnetic wave shielding layer is formed by mixing graphite, an electromagnetic wave absorbing shielding compound, a binder synthetic resin, and a plasticizer and water at a ratio of 5: 5, , The magnetic loss agent and the electromagnetic wave absorber are mixed in a ratio of 6: 2: 2 to 6: 1: 3, the magnetic loss agent is composed of ferrite, and the electromagnetic wave absorbent is composed of steelmaking sludge and pulp iron oxide powder.

In this case, the mixture to be mixed with water may be composed of 40 parts by weight of graphite, 40 parts by weight of electromagnetic wave absorbing shielding compound, 15 parts by weight of synthetic resin for binder, and 5 parts by weight of softening plasticizer.

On the other hand, the mixture can be further mixed with mica, toluene, and oxygen catalyst.

Mica is added as a kind of minerals to improve the removal efficiency of volatile organic compounds by generating negative ions. The addition amount is preferably 5 to 10% by weight based on the total weight of the mixture.

Torumalin is a ceramic that emits far-infrared rays, and its amount to be added is preferably 3 parts by weight or less based on the total weight of the mixture in relation to the urethane coating layer 153 described later.

The oxygen catalyst is an additive for removing fungi such as pathogenic Escherichia coli O-157, salmonella and the like and fungi such as black fungus and blue fungus. The content of the additive is 2 parts by weight or less and functions even in the absence of light It is preferable to use an oxygen catalyst. Even if the content exceeds 2 parts by weight, there is no problem with the performance, but it is preferable that the content is 2 parts by weight or less considering economical aspects.

The cover layer 165 may be made of a ceramic coated vinyl material or a fluororesin-containing vinyl material having airtightness and thermal stability.

3 is a drawing showing that the germanium sheet unit 150 according to the first embodiment and the germanium sheet unit 150b according to the second embodiment used in the mat 100 utilizing the germanium layer of FIG. 1 are actually fabricated to be. FIG. 4 is a view showing a stacked structure of germanium sheet units 150, 150a and 150b according to the first to third embodiments used in the mat 100 utilizing the germanium layer of FIG. 5 is a view for explaining a differential arrangement of Neodymium magnet groups 154 inserted in a germanium sheet unit of a mat 100 utilizing a germanium layer according to an embodiment of the present invention. FIG. 6 is a view showing a mat 100 actually made using a germanium layer according to an embodiment of the present invention.

3A and 4A illustrate a germanium sheet unit 150 according to a first embodiment of the present invention. The germanium sheet unit 150 according to the first embodiment may be formed by successively stacking an arcuate layer 151, a germanium powder layer 152, and a urethane coating layer 153 sequentially from the bottom to the top.

The monolayer 151 may be formed of a cloth material, a nonwoven fabric, or the like having flexibility and air permeability. The shape of the monolayer 151 is not particularly limited and may be cut into a certain shape according to a product to be applied.

More specifically, the monolayer 151 is made of a thin material having a thin thickness, and is flexible and easy to handle due to the flexible condition, and is free from inconvenience or inconvenience, so that it can be easily applied to any object needed .

A germanium powder layer 152 which is printed and laminated by a silk printing method is formed on the upper surface of the monolayer 151.

The silk printing ink for forming the germanium powder layer 152 here is preferably 500 to 700 mesh germanium powder using a liquid adhesive, and more preferably 500 mesh germanium powder is preferably used. This is because, in the case of germanium powder of 500 mesh or less, it is difficult to mix uniformly with the liquid adhesive since the particles are large, and when the silk screen printing method is performed on the monolayer 151, And powder of 700 mesh or more has no significant difference in the action effect compared to the additional cost of micronization.

More specifically, when the conventional germanium layer is formed by electrodeposition method, there is also a problem in fabric flexibility and there is a problem in the method of bonding with a bond because the bond is lost by washing.

Accordingly, in the present invention, germanium powder is attached to the monolayer 151 by a silk printing method, and a germanium is foamed by adding a foaming agent, and the upper portion is coated with the urethane coating layer 153 to a thickness of 0.1 to 0.2 mm, .

In other words, the germanium powder layer 152 is interposed between the upper part of the fabric 151 and the urethane coating layer 153, and is made of a material having buffering properties, a material having excellent thermal conductivity, or a functional material capable of radiating far- A foaming agent may be added to the silk printing ink.

In another embodiment of the present invention, in addition to the foaming agent, it is provided as a material having a buffering property such as a synthetic resin material, a rubber material, a sponge or the like, or as a material having a far infrared ray emissivity such as minerals, charcoal, ceramics and loess, Gel or the like, or may be formed by appropriately mixing these materials or may be constituted by a multilayer structure.

The urethane coating layer 153 uses a polyurethane coating to provide the flexibility of the germanium powder layer 152 formed on the top of the fabric 151 and contains 55% to 65% of toluene, And 12% to 20% of an anionic powder are mixed with polyurethane.

The introduction of toluene in such amounts is an appropriate amount considering the adhesiveness while increasing the softness of the polyurethane, and the introduction of the tourmaline and anionic powder into the powder takes into account the functionality of the tourmaline and anionic powder, So as not to be adversely affected.

In the case of tourmaline alone, the anion generation ability is not relatively high. However, when mixed with the minerals generating other anions, the amount of anions generated can be increased, and anionite powder containing a capnite can be used .

Referring first to FIGS. 3B and 4B, there is shown a germanium sheet unit 150a according to a second embodiment of the present invention. In the germanium sheet unit 150a according to the second embodiment, the neodymium magnets 154a and 154b constituting the neodymium magnet group 154 are horizontally arranged in the germanium sheet unit 150 according to the first embodiment Can be added. That is, the germanium sheet unit 150a may include a neodymium magnet group 154 in addition to the monolayer 151, the germanium powder layer 152, and the urethane coating layer 153.

Since the monolayer 151, the germanium powder layer 152 and the urethane coating layer 153 are the same as the germanium sheet unit 150 according to the first embodiment in Fig. 1, the neodymium magnet group 154 is specifically described See you.

Neodymium magnet group 154 may be inserted into the neodymium magnet layer prior to forming germanium powder layer 152 in monolayer 151. [

Here, each Neodymium magnet constituting the Neodymium magnet group 154 is arranged in such a manner that the N-pole and the S-pole vertically and horizontally (see FIG. 5) 154 of the neodymium magnet group 154 as well as the germanium powder layer 152 deposited by the silk printing method as the upper region of the monolayer 151 constituting the side of the Neodymium magnet group 154 ), The effect of supplying oxygen to the human body by the germanium powder contained in the germanium powder increases the effect of inducing the natural healing power by promoting the metabolism. As a result, the massage effect such as the blood circulation effect and the pain relieving thereby can be increased have.

More specifically, the first vertical magnet 154a having the N pole and the lower S pole constituting the Neodymium magnet group 154 as shown in FIG. 5A, and the first vertical magnet 154a having the N pole at the lower portion and the S pole Due to the arrangement of the second vertical direction magnets 154b forming the same direction, the magnetic forces of the upper, lower, g1), the iron content of the ferromagnetic body in the blood can be activated, thereby improving blood circulation and activating metabolism according to the effect of acupressure.

In addition, the infusion of far-infrared rays and anion generating effect by germanium or the like into the skin of a contacted subject is maximized by the generation of triple magnetic force, thereby providing effects such as blood circulation due to promotion of metabolism and pain relief.

Here, the neodymium magnets constituting the neodymium magnet group 154 may have a thickness of 0.5 to 0.6 mm, and preferably have a magnetic force of 300 to 400 gauss.

In this case, the germanium sheet unit 150a of Figs. 3B and 4B can increase the pain relief and blood circulation effect 2.5 times as compared to the germanium sheet unit 150 of Figs. 3A and 4B.

4C is a view showing a germanium sheet unit 150b according to the third embodiment of the present invention. 4C, the germanium sheet unit 150b according to the third embodiment is similar to the germanium sheet unit 150b according to the second embodiment except that the germanium sheet unit 150b is formed of the monolayer 151, the germanium powder layer 152, the urethane coating layer 153), and neodymium magnet group 154, but there is a difference in the location of neodymium magnet group 154.

That is, the neodymium magnet group 154 is fixed between the urethane coating layer 153 and the germanium powder layer 152 using an impregnation agent, thereby forming the impregnation layer 152a. The impregnation agent used here is a germanium powder layer Lt; RTI ID = 0.0 > 152 < / RTI >

The impregnant contains radiant materials that emit far infrared rays and anions. Radiant materials that emit far infrared rays and negative ions are made by mixing various kinds of mineral powders with silicon. Examples of mineral stones include tourmaline, germanium, platinum, and silver , Keelite stone, kyungmyeong injection, glacier stone, rock, and dragonite. Such a spinning material is applied to form an additional spinning layer, which may be evenly formed throughout the impregnation layer 152a.

In this case, the urethane coating layer 153 not only provides the flexibility of the germanium powder layer 152 formed on the upper end of the fabric 151, but may further include germanium powder.

A method of manufacturing the urethane coating layer 153 according to another embodiment of the present invention will be described. That is, the urethane coating layer 153 is prepared by mixing three or more kinds of polyols selected from polyols having a molecular weight of 700 to 2300, a chain extender, a catalyst, a foaming agent, water and additives, and germanium powder. Thereafter, an isocyanate prepolymer is prepared by mixing three or more kinds of polyols selected from polyols having a molecular weight of 900 to 2300 and isocyanate prepolymer, mixing the isocyanate prepolymer with the polyol base at a temperature of 50 to 70 캜, It is possible to provide a urethane flexible foam having improved durability.

The urethane coating layer 153 further includes germanium powder to smoothly supply oxygen to the human body by the germanium powder in both the upper and lower layers of the impregnated layer 152a as well as the impregnated layer 152a, And the effect of causing the natural healing force is amplified by the neodymium magnet constituting the Neodymium magnet group 154 inside the impregnated layer 152a, thereby to provide the germanium sheet unit 150b according to the second embodiment The blood circulation effect increased by 1.2 times.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: mat with germanium layer
110: Case member
120: sheet edge portion
130: Case edge portion
140: Seat space part
150, 150a, 150b: germanium sheet unit
151: Single layer
152: germanium powder layer
152a: Impregnated layer
153: urethane coating layer
154: Neodymium magnet group
154a, 154b: neodymium magnet
160: Multifunctional foam
161: Water blocking layer
162: adiabatic reflective layer
163: Temperature control layer
164: electromagnetic wave shielding layer
165: cover layer

Claims (8)

When the upper cover surface and the lower bottom surface are formed so as to surround the case rim 130 around the square, the sheet rim 140 is formed at the center of the cover surface, A case member 110 having a body 120; And
And is formed in a honeycomb pattern by being aligned with the sheet edge part 120. A germanium powder is attached to the upper side of the monolayer 151 and the upper side of the monolayer 151 by a silk printing method, A germanium sheet unit 150 comprising a germanium powder layer 152; Wherein the germanium layer is formed of a metal.
[2] The apparatus according to claim 1, wherein the inside of the case member (110)
And a plurality of hexagonal germanium sheet units 150 are aligned and formed in a honeycomb pattern in a rectangular region formed inside the sheet edge portion 120 of the upper portion. Used mat.
The seat according to claim 2, wherein the seat frame portion (120)
Wherein the left corner and the right corner of the quadrangular corner area are formed to have a left extension and a right extension, respectively.
The seat according to claim 3, wherein the seat frame portion (120)
A mat utilizing a germanium layer characterized by the use of conductive monocasting nylon (MC nylon).
The method according to claim 1,
A neodymium magnet group 154 formed by insertion into a neodymium magnet layer before forming the germanium powder layer 152 in the monolayer 151; Further comprising a germanium layer.
The method of claim 5,
Each Neodymium magnet constituting the Neodymium magnet group 154,
And the upper and lower sides and the left and right directions of the N pole and the S pole are arranged in an intersecting arrangement with each other.
The method of claim 5,
A first vertical magnet 154a constituting the Neodymium magnet group 154 having an N pole at the bottom and an S pole at the bottom thereof and a second vertical magnet 154b having an N pole at the bottom and an S pole at the top, 154b are arranged in the same direction so that a triple magnetic force of a magnetic force which is mutually connected in the upper direction, the lower direction and the lateral direction of each magnet is generated due to the magnetic force in the horizontal direction which does not occur in the case of forming the same direction. The mat utilizing.
A first step of manufacturing a case member 110 having a sheet rim portion 120, a case rim portion 130 and a sheet space portion 140;
The multifunction foam 160 is formed by sequentially stacking at least one of the water blocking layer 161, the heat insulating reflection layer 162, the temperature control layer 163, the electromagnetic wave shielding layer 164 and the cover layer 165 ;
A third step of positioning the multifunctional foam 160 inside the case member 110; And
A germanium sheet unit 150 comprising a germanium powder layer 152 formed by foaming germanium by adding a germanium powder in a silk printing manner to the upper side of the monolayer 151 and the upper side of the monolayer 151, A fourth step of forming a multifunctional foam 160 on the cover layer 165 of the multifunctional foam 160 by arranging it in a honeycomb pattern inside the sheet edge portion 120 of the case member 110; ≪ RTI ID = 0.0 > 1, < / RTI >

Images