KR100393036B1 - Ir health system - Google Patents

Abstract

PURPOSE: A foldable infrared body warming apparatus is provided to minimize loss of infrared radiations by efficiently reflecting the infrared radiations emitted from the human body and an infrared heating element incorporated into the apparatus and used as an additional infrared radiation emitter unit to be focused onto a target, thereby considerably increasing the utilization efficiency of the infrared radiations. The foldable infrared body warming apparatus occupies a reduced storage space by providing at least two foldable parts. CONSTITUTION: The infrared apparatus comprises: one or more sets of infrared heating units(19); internal surfaces(18, 20) facing each other with a space(16) disposed therebetween and each having a metal reflecting member adhered thereto; reflection plates(21, 23, 27) provided at the top, bottom and lateral surface, respectively; and at least two folding parts(22) for reducing an area occupied by the apparatus in storage.

Description

Infrared heat insulation health appliance {IR HEALTH SYSTEM}

The present invention relates to an infrared thermal insulation health device, specifically, a thermal insulation health device configured to intensively irradiate infrared rays to the body by using excellent reflection characteristics of infrared and far infrared rays of metals and to dramatically reduce its storage skin.

Recently, products containing far-infrared radiation have been boomed under the name of bio-products, because the fact that far-infrared rays have a very good effect on living organisms in various aspects is being proved one after another empirically and academically.

Infrared rays and far infrared rays (hereinafter referred to as infrared rays) The amount of infrared radiation of the emitter increases as its temperature increases, but the amount of radiation at room temperature is extremely small, and it is only a small amount that it is difficult to make accurate measurements. Infrared emitters that do not have a constant region of 3 to 50 microns, which is a wavelength that can be absorbed well by the human body, cause even radiation. Although not satisfactory, a method of heating an infrared emitter to a high temperature can produce radiation waves similar to the infrared radiation wavelength of the human body, so products using these methods are being used as thermal health products, but a large amount of radiation from the human body Their efficiency is very low, such as being combed, absorbed or lost in other materials or in other directions.

An object of the present invention is to solve this problem, and to minimize the loss of the infrared radiation emitted from the infrared heating element in the mechanism that can be used most efficiently, when used after storage to reduce the volume to a minimum and the weight and By significantly reducing the production cost, it provides a space-infrared folding infrared thermal health care device that can be purchased and used casually even at home.

1 is a cross-sectional structure of a sound-proof infrared reflector composed of a metal reflector and a reinforcement (the shape of the reflector is determined by the shape of the reinforcement. The metal reflector is only attached to its inner surface according to the shape of the reinforcement. Metal reflectors are thin enough to not form the structure by themselves)

2 is a cross-sectional structure of an infrared reflector in which a soft sense member is formed on the inner surface side of the structure to improve the feel of the substrate.

3 is an example of an infrared reflector having a multifunction by adding a magnet or an infrared emitter

4 is a cross-sectional view of an infrared thermal insulation health device made of a vertically extending corrugated column (jabara), which is folded to minimize the volume.

FIG. 5 is a cross-sectional view in the expanded state for use in FIG. 4

6 is a view from above after folding the infrared thermal health equipment (sauna apparatus) in the form of a rectangular box as shown in FIG.

7 is a view from above of FIG. 6

FIG. 8 is a diagram of the sixth view unfolded into a state of use

9 is a view from above of an infrared heat insulating health appliance with a corrugated tube that contracts and expands in the front and back or in the right direction

10 is a view from above of an infrared thermal health care device configured to be folded and unfolded into a curtain

FIG. 11 is a curtain-type infrared thermal insulation health device which allows the infrared heating element to be unfolded and placed at an appropriate position at once. FIG. 11 is a cross-sectional view of the cylindrical infrared thermal insulation health device. Figure showing the angles between the two normals, with normals at two points on the reflector

1; transparent synthetic resin (optional) 3; metal reflective material (reflective layer) 5; adhesive (optional)

7; (vibration absorbing layer and) reinforcement made of fabric or synthetic resin (the shape of the reinforcement is determined by the shape of the structure of the infrared thermal insulation health mechanism of the present invention. The metal reflector is to be attached only to the inner surface according to the shape of the reinforcement) That is, the metal reflector 3 is too thin to form the structure itself)

9; Members (textiles, fibers, ceramics, etc.) formed for the purpose of improving the feel

11; Infrared 13; Permanent Magnet (Acupressure & Permanent Magnet)

15; infrared emitters (optional) 16; space 17; infrared reflectors 18, 20; two inner surfaces facing each other centered on the infrared heating element

19; infrared heating element (heater) 21; ceiling reflector (lid)

22; Foldable portion (folding means) 23; Bottom reflector 25; Wall side reflector 27; Side reflector

29; reflector 31; reflector ring 33; rail

35; infrared emitter in the unfolded state; 37; infrared rays radiated directly from the infrared heating element to the human body; infrared rays radiated from the infrared heating element once reflected by a metal reflector installed inside the apparatus, and directed toward the human body; Infrared rays radiated from the infrared reflecting twice by the metal reflector installed inside the apparatus and then directed toward the human body; human body 43; normal at point a of the metal reflector 45; normal at point b of the metal reflector

For this purpose, according to the aspect of the present invention, the shape of the metal reflector 3 having a thickness that is insecurely unstable is made into a three-dimensional structure by using an infrared reflector 17 formed thereafter to help maintain the shape and bond with the reinforcement 7. In a health appliance comprising at least one set of infrared heaters 19 (Hita) as essential components in a losing warm appliance, the metal reflector 3 of the infrared reflector 17 is directed toward the inner side of the appliance. 7 is installed toward the outer side of the apparatus, and the metal reflector attached to the reinforcement is composed of dry vapor deposition method, wet plating method, adhesive method using adhesive, (heating) compression method, and a combination thereof. It is attached between the metal reflector and the reinforcement as attached by one method selected. Adhesion force A exists, and A is at least equal to or greater than Van der Waals forces, and the thickness of the metal reflective material is 3 mm or less, less than the thickness of the reinforcement material, facing each other centering on the infrared heating element 19. The metal reflective material 3 is installed on at least two inner surfaces 18 and 20 so as to face each other, and the space 16 between the opposite metal reflective materials is a space for accommodating the human body, and the metal reflective material is at least 20% of the entire inner surface. The metal reflecting material is divided into a total area corresponding to the metal reflector, and gold, silver, aluminum, copper, nickel, chromium, stainless steel, zinc, indium, tin, iron, titanium, zirconium, palladium, platinum, compounds thereof, and It is made of one selected from the group consisting of alloys, the metal reflective material provided on the inner surface of the health device is a specific It is installed so that there is at least one pair of two points where each normal established at two points is greater than 90 degrees, and there are folding portions 22 at two or more places of the health apparatus, so that the storage volume can be reduced. Characterized in that the reduced volume of the instrument reduced for the purpose (states of FIGS. 4, 6, 10) is reduced to 50% or less compared to the maximum volume of the instrument expanded for use (states of FIGS. 5, 8). A space utilized folding infrared thermal health instrument is provided.

The metal reflector used in the present invention is so thin that it cannot form a structure formed solely to form the infrared thermal insulation health device, and must be attached to the surface of the reinforcement to maintain its constant shape. The shape is determined by the stiffener. Therefore, the structure is made of a reinforcing material alone and then made by bonding a thin metal reflective material to its inner surface, or by using a reinforcing material to which a metal reflector is attached.

The reinforcing material can be used without any limitation as long as it can form the structure, fabric, non-woven fabric, synthetic film, wood, plastic, corrugated cardboard, honeycomb board, glass, iron, nonferrous metal, ceramic, pulp, synthetic paper and The metal reflector which can be used for this can be used as long as the metal has a high infrared emissivity, but can be used in gold, silver, aluminum, copper, nickel, chromium, stainless steel, It consists of a material selected from the group consisting of zinc, indium, tin, iron, titanium, zirconium, palladium, platinum, compounds and alloys thereof. However, in consideration of the reflectance, it is preferable to select from gold, silver, and aluminum. Here, the reflector may be selected from vacuum physical vapor deposition (PVD- physical vapor deposition), vacuum roll coating, transfer method, and laminating method. , Wet plating method, adhesive method using an adhesive material, (heating) compression method, it can be prepared by one or more methods selected from the rolling method, the reinforcing material to structurally reinforce the metal reflector to maintain its shape stably the skeleton form It may be replaced by a frame such as a framework. Here, the thickness of the metal reflecting material refers to the thickness of only the metal layer made of a pure metal material. However, the reflective material may refer to a pure metal layer but may be used to include a transparent base material on which the metal layer is formed, depending on the configuration thereof. If the metal reflector is lower than 20% of the inner surface, the loss of infrared rays will be too high, which will not satisfy the object of the present invention. In manufacturing the above-mentioned infrared heat insulating health apparatus, the productivity of the reflector will be increased and the production cost will be lowered. In order to supply at a lower price and to reduce its handling and logistics costs, labor costs, etc., some embodiments of the present invention will be described. First, in order to reduce the material cost of metal and reduce its weight, the metal reflector The thickness of 3mm or less is used, preferably in the vacuum roll coating method (PVD-physical vapor deposition) by a non-pollution dry plating method, more preferably in a continuous vacuum plating method (vacuum roll coating method) Sheets of thin films of more than 10 nanometers (nanometers) and less than 3500 nanometers (nanometers) It is coated on a substrate of the shape. In this case, as the substrate on the sheet, a fabric, a film, a plate, or the like may be used, which serves as a reinforcing material for structurally maintaining the shape of the metal reflector. The sheet-like material thus prepared may be used as a metal reflector that is separately installed on the inner surface of the infrared heat insulating health appliance manufactured in the form of the structure, but if the sheet itself is used as the body material of the infrared heat insulating health appliance, Concise, light and inexpensive infrared thermal health equipment could be provided. Of course, at this time the metal reflector should be immersed toward the inner surface of the infrared thermal health care instrument.

The metal reflective material 3 is installed on two inner surfaces facing each other with the center of the infrared heating element facing each other, the space between the metal reflective material is a space for accommodating the human body, the metal reflective material is the entire inner surface The metal reflectors installed on the inner surface of the health appliance are distributed at an area corresponding to at least 20% of them, and the two points where the angles formed by the normals meeting at two specific points of the metal reflectors meet each other are greater than 90 degrees. The reason for this structure is that the infrared radiation emitted from the infrared heating element deflects the human body as shown in FIG. 12 so that the infrared rays are reflected as 38, 39 by the configuration of the metal reflector as described above, so that the human body is eventually absorbed by the human body. This configuration makes it possible to use far infrared rays as effectively as possible. In the above, the thickness of the metal reflector is limited to 3 mm because the thickness of the metal reflector is not only high, but also the inconvenience of manufacturing, packaging, transporting, assembling, and using it due to its weight becomes very inconvenient. to be. In the dry plating method, the thickness of the metal thin film is 10 nanometers or more and 3500 nanometers or less. The reason is that the infrared reflectance becomes too small in the case of 10 nanometers or less, and 3500 nanometers or more. In this case, not only the metal material cost burden but also the production cost due to the dry plating process becomes excessively large. Adhesive 5 may be used between the metal reflector and the reinforcement as shown in FIG. 1, but the adhesive layer 5 may be omitted using a method such as a melt bonding method. Preferably, however, in some cases, some may be provided in an open structure.

In this case, if the temperature inside the infrared thermal health device is sensed and linked with the heater power supply, the radiation intensity control and the temperature control function of the heater may be added. The adhesion force A between the metal reflector and the reinforcement may be added to the metal. If the reflector is plated by dry plating or wet plating, it will appear larger than the vandel vanes force on the basis of the minimum adhesive force that occurs when the metal is plated by dry plating or wet plating. It must be bonded with greater force than this force.

As a simple example, using a vacuum roll coating method on a transparent polyester 100 micron film, about 1500 nanometers of silver is coated as a metal reflective layer material and a reflector substrate is used to measure a 1 meter diameter 1.8 meter cylinder. We made a structure consisting of the bottom, the bottom plate and the top lid. Install a 100-watt infrared heater on the center of the upper lid of the cylindrical structure, and then adjust the temperature according to the health and taste of each individual by setting a power control knob to control power by the user inside or outside the apparatus. As a result of allowing the user to enjoy the infrared bath (infrared sauna), all of the users felt that sweat dropped within about 5 minutes, and they were able to enjoy a pleasant and refreshing sauna. Were dominant.

In comparison with the conventional home sauna apparatuses, it is necessary to use an infrared heater having a capacity of about 1500 Watts or more, and the opinion that the user feels is not so refreshing. In terms of weight, the weight is about 60 kg or more and 150 kg, which is very inconvenient during handling, as well as the logistics cost, the labor cost during delivery and installation, which is a significant part of the present invention. When manufacturing a cylindrical, curtain, corrugated or folding home sauna using the metal reflector formed on the sheet, the cost, weight, logistics cost and labor cost of the product can be greatly reduced. In the present invention, the fold means a specially installed folding means such as a hinge 10 and 11, as shown in FIGS. 10 and 11, when using a very flexible material, such as woven fabric, non-woven fabric, film, sheet, etc. is also used to include a naturally folded portion (folding). In an embodiment, the metal reflector and the reinforcing material may be formed using a material having flexibility and resilience in its shape, or one or more methods selected from curtain type, corrugated tube type, vertical type, assembly type, and multi-stage antenna type. An infrared heat insulating health device, which is configured to reduce its volume during storage, will be provided. As a structural example for achieving the above object, a thin film of silver is coated by a vacuum roll coating method on a polyester fabric. After 1500 nanometer coating, it is used as the body of the curtain type thermal insulation health appliance. The back was formed by the wall on the side of the room 9, the installation as shown in Figure 10 so that the metal thin film consisting of a reflecting member exposed to the interior surface. In this way, it is possible to use the indoor health equipment very efficiently because it can be kept in close contact with the wall when not in use. For reference, home sauna apparatuses according to the prior art have always occupied a floor space and considerable space even when not in use, and thus have been a factor in narrowing the indoor space. It may be able to use the interior decoration by using the exterior and the exterior surface in the reduced state. Products incorporating a metal reflector or function having excellent infrared reflecting function on the inner surface of the bath and its cover or shower booth or its constituent material may also be an embodiment and method of use, and moisture release to these products. When combined with a fan (fan) or the like can be used as a good hair dryer or water droplets on the body after bathing, laundry or food drying equipment, and also as a perm device in the beauty salon, etc., as it is easily thought.

In addition, in order to increase the effect as a health supplement product, the infrared thermal insulation health device, which is configured to have various complex functions such as including a far infrared ray emitting material, a permanent magnet, a pressure protrusion, etc. in addition to the metal reflective material, is also well implemented. It will be an example.

As a base material used in the products made to achieve this purpose, the thin film is vibrated so as not to generate a sound in order to use the metal film formed on the thin PVC film so that it may be bent smoothly in various directions without rusting. It provides a method of forming a soft layer that absorbs light vibrations and sounds in contact with the film so as to prevent as much as possible and absorb sound that may occur. 1, which is made to prevent and absorb light vibration of the base film by using a soft adhesive on the film, or by contacting with a fabric or soft synthetic resin film by a thermal bonding method or by coating with a soft synthetic resin. Soundproof infrared reflectors such as 2 and 3 may be used.

In addition, in order to improve the feel of the substrate having the metal reflective function, at least a portion of the soft touch fabric, fiber, ceramic, synthetic resin, etc. is formed on the inner surface of the structure that can come into contact with the skin. It would be desirable to be made with as few materials as possible causing infrared losses.

Fabrics, fibers, ceramics, synthetic resins and the like used here may have a better effect as the material having an infrared radiation function beneficial to the human body is used.

All of the products mentioned above can be made as decorative objects by adding anti-static function, making the reflective surface into the uneven structure, or making the outer surface include other functions such as photo frame, picture frame, mirror, etc. It will be readily understood that the organic combination can also be composed of various forms of various instruments. In addition, a wide variety of infrared reflecting apparatuses may be manufactured through a method of forming a metal reflective layer, a configuration form thereof, or a method of adding or changing additional functions. However, in this specification, only the simple embodiments have been described in order to easily explain the object of the present invention and the characteristics of the product.

When the apparatus including the metal reflector made as described above is provided, the power consumption of the infrared emitter required by the conventional infrared apparatus is greatly reduced to provide energy saving effect, and the manufacturing cost is also greatly reduced in constructing the metal reflector. You can do it. In addition, the weight can be incomparably reduced, which can greatly reduce the costs of manufacturing, packaging, transporting, installing, moving, and related expenses, such as labor costs. It will be obvious that indoor space can be used more efficiently because the space occupied by the city can be greatly reduced.

Claims (2)

delete Arbitrarily, a set inside a heating mechanism made in the form of a three-dimensional structure using an infrared reflector 17 formed by joining a metal reflector 3 whose thickness is insecurely thin to maintain its shape, followed by a reinforcement 7 to help maintain the shape. In a health appliance comprising at least (set) an infrared heater 19 (an electric heater -electraica heater according to the known art) as an essential component, the metal reflector 3 of the infrared reflector 17 is directed toward the inner side of the appliance. 7 is installed toward the outer side of the apparatus, and the metal reflector attached to the reinforcing member is selected from the group consisting of dry vapor deposition method, wet plating method, adhesion method using an adhesive, (heating) compression method, and a mixed method thereof. The metal reflector and the reinforcement are attached as one selected method. A specified adhesion force A is present, and A is at least equal to or greater than Van der Waals forces, and the thickness of the metal reflector is 3 mm or less, less than the thickness of the reinforcement material, facing each other centering on the infrared heating element 19. The metal reflective material 3 is installed on at least two inner side surfaces 18 and 20 so as to face each other, and the space 16 between the opposite metal reflective materials accommodates the human body, and the metal reflective material is at least 20% of the entire inner surface. The metal reflective material is distributed in the area corresponding to the above, and the metal reflective material is gold, silver, aluminum, copper, nickel, chromium, stainless steel, zinc, indium, tin, iron, titanium, zirconium, palladium, platinum, and the compound thereof. And an alloy selected from the group consisting of alloys, and the metal reflective material provided on the inner surface of the health appliance is characterized by the characteristics of the metal reflective material. It is installed so that there is at least one pair of two points where each normal established at two defined points is greater than 90 degrees, and the reinforcement is fabric, nonwoven fabric, resin film, wood, plastic, corrugated board, honeycomb board, glass And one material selected from the group consisting of iron, nonferrous metals, ceramics, pulp paper, synthetic paper, and mixtures thereof. Space, characterized in that the reduced volume (states of FIGS. 4, 6, and 10) of the instrument has been reduced to 50% or less compared to the maximum volume of the instrument (states of FIG. 5, 8), expanded for use. Foldable infrared thermal insulation health appliance