KR200405715Y1 - A heating panel having negative ion layer - Google Patents

Abstract

The present invention relates to a heating panel having an anion emitting layer, by forming an anion layer on the surface of the heating panel, which is a heating mechanism, in accordance with the activation of the optimal anion and far-infrared radiation materials at high temperature according to the heating of the heating panel. It is intended to maximize.

The present invention for realizing this, in the heating heating panel (100, 100 ') having a plate-shaped heating element (101) therein, an anion emitting layer containing anion and far-infrared radiation material on both sides of the heating element (101) 102, 104, 112, 113 are provided, the outer surface of the anion emitting layer (102, 104, 112, 113) is characterized in that the coating layer (105, 113) for preventing surface contamination is formed.

Heating panel, negative ion, far infrared ray, radiation, cover

Description

Heating panel with anion emitting layer {A HEATING PANEL HAVING NEGATIVE ION LAYER}

1 is an external view of a heating panel according to a first embodiment of the present invention.

2 is a cross-sectional view of a heating panel according to a first embodiment of the present invention.

Figure 3 is a schematic diagram of the laminated state of the anion emission layer according to the first embodiment of the present invention.

4 is an external view of a heating panel according to a second embodiment of the present invention.

5 is a cross-sectional structure diagram of a heating panel according to a second embodiment of the present invention.

Figure 6 is a schematic diagram of the laminated state of the anion emitting layer according to the second embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100,100 ': heating panel 101: heating element

102: first anion emitting layer 103: mesh layer

104: second anion emitting layer 105: coating layer

110: anion cover body 111: fabric layer

112: anion emitting layer 113: coating layer

The present invention relates to a heating panel, and more particularly, to provide a large number of negative ion radiation effects at the same time as the user by providing an anion emitting layer on a heating panel such as an electric panel used for winter heating. .

In general, an electric heating panel made of a flexible electric mat or a metal plate is used for heating the floor indoors in winter.

However, in the case of such an electric heating apparatus has a beneficial function to the human body other than the heating purpose, the functionality is reduced, rather, due to the heating wire inherent in the heating element may be adversely affected by electromagnetic waves harmful to the human body.

On the other hand, in recent years, products that have anion or far-infrared radiation function have been released to impart functionality to bedding, such as mat, but in general, since anion and far-infrared materials are activated and radiated in abundance only at an appropriate temperature, at room temperature There was a problem that did not produce the desired effect.

The present invention is proposed to improve the above problems in the prior art, by incorporating a radiation structure into a heating heating panel that can achieve a temperature of room temperature in which anion radiating material can be activated in forming anion emitting layer. The purpose is to maximize the thermal effect of the panel and functionality by anion and far-infrared radiation.

The purpose is that in the heating panel for heating, an anion emitting layer containing an anion emitting material is provided on both sides of the heating panel, the outer surface of the anion emitting layer is formed with a coating layer for preventing surface contamination It can be achieved through a heating panel having a negative ion emission layer characterized in that.

In addition, the anion emitting layer is formed by applying an anion emitting material to both sides of the heating panel several times to form a structure in which a plurality of layers are laminated, the fiber surface for forming a panel surface protruding in a mesh form between each anion emitting layer It characterized in that the mesh layer of the grass component is formed.

In addition, the anion emitting layer is provided in a separate cover body surrounding the heating panel, the anion emitting layer is characterized in that each formed on both sides of the fabric layer.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 show a structure in which an anion layer according to a first embodiment of the present invention is integrally stacked on a heating panel, and FIGS. 4 to 6 are provided with an anion layer according to a second embodiment of the present invention. It shows the coupling structure of the removable cover body.

First Embodiment

First, referring to the structure of the heating panel 100 according to the first embodiment of the present invention, the first anion emitting layer made of anion and far infrared emitting materials sequentially on the upper and lower surfaces, respectively, based on the central heating element 101 ( 102, the mesh layer 103 formed by weaving fiberglass in the form of a mesh, the second anion emitting layer 104 made of anion and far infrared emitting material, and the coating layer 105 for preventing contamination of the outer surface are symmetrical. To achieve a laminated structure of the form.

The anion and far-infrared radiating material constituting the first and second anion emitting layers 102 and 104 may be tourmaline, loess, elvan, jade, illite, germanium, precious stone, binchotan, phosphate, etc. In the form of an adhesive composition (solid content 54-56%, viscosity 1000-2500, ph 4-5.5) by mixing with a liquid acrylic binder in an appropriate normal ratio, on both sides of the fiber fabric layer 1a. Application is made by using a brush or roller, spray, or the like once or several times. Particularly, in fact, the radioactive material was manufactured by using tourmaline. The tourmaline is generally called tourmaline, and it is piezoelectric, and when the vertical pressure or shear stress is applied by a human hand or other tool, the surrounding water molecules are hydrogen ion and hydroxyl ion. In this case, it is known that hydrogen ions are attracted to the cathode potential of tourmaline and released into the air in the form of hydrogen molecules.

Charcoal, silver, gold, phytoncide, photocatalyst, herbal extract, antimicrobial agent, etc. may be further added to the anion emitting material as necessary.

In the figure, reference numeral 109 denotes a controller for adjusting the heating temperature of the heating element 101.

In the schematic manufacturing process of the heating panel 100 forming the laminated structure, a paint including anion and far-infrared radiating material on both sides of the heating element 101 is applied to a predetermined thickness using a coating means such as a brush, a roller, and a spray. After coating to dry to form a first anion emitting layer (102).

And, by matching the mesh-like fiberglass in a continuous lattice form thereon to form a mesh layer 103 it is possible to exhibit the elasticity and flexibility of the panel surface.

Subsequently, the second anion emitting layer 104 is formed into a thin film by coating the coating material composed of anion and far-infrared radiation material, and then the outer surface of the water-soluble acrylic system is a material having excellent adhesion and excellent stain resistance and elasticity. The coating layer 105 having an environmental friendliness is formed by selecting and applying a coating agent or a water-soluble EVA (Ethylene-Vinyl Acetate copolymer) coating agent, a water-soluble acrylic urethane-based coating agent, and an inorganic coating agent.

The heating panel 100 of the present invention produced through such a process, due to the coating layer 105 of the outer surface, it is possible to prevent the contamination by microorganisms and the growth of microorganisms, and drink anion close to the alpha wave in the brain Increasing activity and inhibiting serotonin and free histamin help relieve tension, purify blood, activate cells, and increase the amount of r-globlin, an immune component in serum It is possible to prevent the occurrence of atopic skin disease caused by sick house syndrome, especially in urban apartment environment.

In particular, as the inner heating element 101 is warmed, the anion and the far-infrared radiating material can be activated, and the effect of the rich anion and the far-infrared radiation can be exhibited.

Second Embodiment

The heating panel 100 ′ according to the second embodiment of the present invention is provided with an anion layer on the negative ion cover body 110 that can be separated from the central heating element 101 as shown in FIG. 4, and the cover body 110 is provided. In the configuration of the) anion emitting layers 112a and 112b for anion and far-infrared radiation on the upper and lower sides, respectively, based on the fabric layer 111 made of cotton fabrics such as calico, as shown in Figures 5 and 6 And the coating layer (113a, 113b) consisting of a water-soluble acrylic transparent coating or a water-soluble EVA (Ethylene-Vinyl Acetate copolymer) coating, a water-soluble acrylic urethane-based coating, an inorganic coating material that is excellent in fouling resistance and elasticity is formed symmetrically formed .

Reference numeral 108 denotes a Velcro tape attached to the lid side for detachment of the opening.

Since the one side is opened as shown in FIG. 4 so that the anion cover body 110 having such a cross-sectional stacked structure can be attached and detached, the heating element 101 is inserted into the anion cover body 110 as necessary. In order to enjoy the negative ion effect or separate separately, the heating element 101 can be used only for heating purposes.

In addition, the anion cover body 110 of the present invention is exposed to the coating layer 113 to protect the anion emitting layer 112, and when you touch it by hand to feel the texture of artificial leather and environmentally friendly and anion and Far infrared emission effect is to deliver a beneficial effect on the human body.

In particular, when the heating element 101 is inserted into the anion cover body 110 to be used, as the heating element 101 is heated, the negative ions and far-infrared radiation constituting the negative ion emitting layer 112 can be activated. In addition, it can be seen that the effect of the richer anions and far-infrared radiation can be exhibited.

The present invention as described above, by forming an anion layer on the surface of the heating panel, which is a heating mechanism, it is possible to maximize the effect of the activation of the optimal anion and far-infrared radiation in the high temperature state according to the heating of the heating panel itself. .

In particular, by forming the anion emitting layer in a double layer to improve the anion and far-infrared radiation value and the thermal effect of the far-infrared rays can be further improved the thermal insulation efficiency of the panel.

In addition, by providing a mesh forming layer has an advantage of minimizing heterogeneity while maximizing the surface elasticity and maximizing the contact area between the anion emitting layer and the skin.

In addition, when the anion emitting layer is provided as a separate cover body, the cover body can be separated as necessary to use the heating panel, thereby providing convenience for the user.

Claims (5)

In the heating panel (100, 100 ') for heating the plate-shaped heating element 101 provided therein, Both sides of the heating element 101 are provided with anion emitting layers (102,104,112,113) containing anion and far-infrared radiation material, the outer surface of the anion emitting layer (102,104,112,113) coating layer (105,113) for preventing surface contamination Heating panel having an anion emission layer, characterized in that formed. The method according to claim 1, The anion radiation layers 102 and 104 are formed by applying anion and far-infrared radiation material to both sides of the heating element 101 several times to form a plurality of layers integrally formed, and the panel surface protrudes in a mesh form between each anion radiation layer. A heating panel having an anion emitting layer, characterized in that the mesh layer 103 of the fiber glass component to achieve a predetermined shape. The method according to claim 1 The anion emitting layers 112 and 113 are provided in separate anion cover bodies 110 surrounding the heating panel, and the anion emitting layers 112 and 113 are provided on both sides of the fabric layer 111, respectively. One heating panel. The method according to any one of claims 1 to 3, At least one or more components of tourmaline, ocher, elvan, jade, elite, germanium, precious stone, binchotan and phosphate are mixed with the liquid acrylic binder in powder form as anion and far infrared ray emitting material constituting the anion emitting layer (102, 104, 112, 113). Heating panel having an anion emitting layer, characterized in that formed. The method according to claim 1, The coating layer 105, 113 is a heating panel having an anion emitting layer, characterized in that made of any one of a water-soluble acrylic coating, water-soluble EVA coating, water-soluble acrylic urethane-based coating, inorganic coating.

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