JPH0211146A - Far infrared radiation radiating low temperature heating drying deodorizing sterilizing device - Google Patents

Abstract

PURPOSE:To execute low temperature heating drying deodorizing sterilization of an article to be irradiated in a box by additionally providing a far infrared radiation radiant layer and a surface electric heating element in a housing box having a cover in which a fan motor and a deodorizing filter and radiating the far infrared radiation with a long wave length band by means of the heating of the heating element. CONSTITUTION:A far infrared radiation radiant layer 7 is formed with a means in a coated condition, a film condition, etc., on the internal side surface of a housing box 1 having a cover. When shoes, clothes, etc., to emit malodors are housed in the housing box 1 and a current flowing to an electric heating element 8 is executed, a temperature in the box is raised to approximately 80 deg.C, and by the air blasting of a fan motor 4, hot air fills the box. A heat ray due to the heating of the electric heating element 8 is heat-absorbed in the far infrared radiation radiant layer 7, and a heat radiation is executed. The malodors, bacteria, etc., generated from the water components, oil components, fat components and other organic substances of the article to be irradiated are resolved and vaporized, absorbed at a deodorizing filter 6, and exhausted from an exhaust port 5. Thus, the diatheses of the malodors, bacteria, etc., generated from the article to be irradiated can be removed.

Description

[Detailed Description of the Invention] The present invention relates to a low-temperature heating drying, deodorizing, and sterilizing device using far-infrared radiation, which can be rented out to customers in various indoor competitions, games, sports fields, etc. such as polling, athletics, and lumberjacking. Deodorizing and sterilizing shoes, shoes, etc. listed below, or deodorizing and sterilizing slippers at hospitals, hotels, inns, etc.
Along with 41F, it imparts anti-mildew, anti-mold, antiseptic, fatty acid effects, etc. to these products, and is also useful for the production of dried fish, dried artificial flowers, etc., or for low-temperature heating and drying of general products. This invention relates to a far-infrared ray radiation low-temperature heating drying demurrage device that can perform sterilization, disinfection, etc.

Conventionally, indoor play/athletic fields, etc., have a variety of rental items, but in polling alleys, etc., there are many rental items, and these shoes are lent to an unspecified number of people. The products are returned with the body odor of each person and HJffl attached to them, and the products that produce bad odors accumulate and cannot be easily deodorized. Furthermore, sterilization without the use of chemicals is difficult to perform. When a new rental property is rented out, deodorization is done using a commercially available deodorizing spray, but sterilization and disinfection are not properly regulated as there are no legal regulations.

As a result, the environment in the on-site sorting area is seriously damaged, workers are exposed to insects, athlete's foot, etc. are attached, and unexpected accidents occur. It can cause a feeling of disgust towards customers. Therefore, it is extremely unhygienic for items to be lent out in incompletely dried, deodorized, and sterilized conditions.

In the present invention, in order to eliminate these unsanitary conditions,
By irradiating various articles with far infrared rays, the unique active action of far infrared rays is used to decompose and vaporize water odor components, oil odor components, etc. and eliminate them, as well as sterilize and disinfect them with far infrared heat rays.
Furthermore, it is an object of the present invention to provide a far-infrared ray radiation low temperature heating drying deodorizing device which can impart antibacterial, antifungal, antiseptic, fatty acid effects, etc. to these articles.

This point is equipped with a covered storage with a far-infrared radiation layer formed inside, a deodorizing filter that is detachably fitted with a fan motor, and a deodorizing filter that is removably fitted to the storage. A planar electric heating element that is electrically controlled is attached, and the heat generated by the electric heating element causes the far infrared ray emitting layer to emit far infrared rays belonging to a long wavelength range, and the object housed in the storage This problem can be solved by providing a far-infrared ray radiation low-temperature heating, drying, deodorizing, and sterilizing device characterized in that the irradiated object is low-temperature heating, drying, deodorizing, and sterilizing the irradiated object by the active action unique to far-infrared rays.

Among infrared light, far-infrared light, which belongs to the long wavelength range, activates water molecules and stimulates plants and animals. llJ,I
It was confirmed that it easily penetrates deep into the cell tissues of living organisms, activates water molecules and proteins, and is extremely useful for the nurturing, growth, survival, etc. of animals and plants.

After appropriately irradiating water molecules with far-infrared rays, the results of a water quality test of activated water using various reagents are: chlorine disappears in a short time, harmful organic matter is inhibited, ammonia disappears, and microorganisms such as bacteria occur. It has been found that it has the effect of preventing It has also been found that water, drinking water, and foods are given good taste, and alcoholic beverages and pickles are given ripeness.

Indeed, by appropriate irradiation with far-infrared rays, the irradiated object can be
Anti-bacterial, anti-mildew, anti-septic, anti-i! It was also confirmed that there were 12 effects.

Some of the far-infrared emitting substances that emit far-infrared rays are
Exist in many.

It is estimated that there are approximately 200,000 types of these radiating substances, but far-infrared radiators with particularly excellent radiation efficiency include ceramic materials, metal oxide materials, carbon-based materials,
Natural stone materials such as Oya stone and Maihan stone exist. In addition to these materials, artificially created far-infrared emitting materials are also selectively used. These far-infrared emitting substances emit far-infrared rays from themselves in the natural world, but when sunlight, warm air, or appropriate heating means are used, the far-infrared rays are absorbed by the far-infrared rays, and the heat rays are reflected. Far infrared rays are efficiently amplified and radiated. However, far-infrared irradiation in the long wavelength range has a favorable effect on animals and plants. This light and heat has affinity and compatibility with water, and has the unique property of activating the subject property, although this is due to some unidentified factors.

Usually sunlight or [1! The wavelength of far-infrared rays emitted by a far-infrared ray emitting material due to air or the like varies depending on its size, radiation area, intensity of light heat, etc., but is approximately 4 to 9 microns. Furthermore, when using appropriate heating means, the wavelength of far infrared rays suitable for the human body, animals and plants is about 4 to 14 microns, but it is also possible to emit far infrared rays belonging to longer wavelength ranges. .

Therefore, in the present invention, a material with good radiation efficiency is selected from the @delivery infrared emitting materials, forms a far infrared emitting layer with it, and amplifies far infrared rays by sunlight, warm air, a heating body, etc., and radiates the far infrared rays. This is a far-infrared ray radiation low-temperature heating 92 drying, desaturation, and sterilization device that utilizes the far-infrared irradiation effect described above.

composition part Next, embodiments of the present invention will be described with reference to the drawings.

In the cross-sectional view of the first (2I), l is a storage, and the storage it
A fan motor 4 connected to a power source is installed in the engine room where the intake port 2 and the air outlet 3 are arranged 17A on one side, and the deodorizing filter 6 is detachably attached by placing it close to the exhaust port 5 on the pond side. Insert. A far-infrared radiation layer 7 is formed inside the storage 1, and near the layer 7, p! ! , a planar electric heating element 8 connected to a power supply whose temperature is controlled by electricity and vI is provided with a dimension of f.

The heat generation temperature of this electric heating element 8 is set to around 100°C. 9 indicates a commercial power source.

The storage 1 is - ultimately, molded from a heat-ray transparent material such as wood or a synthetic resin material, but may also be made from a heat-ray-impermeable material such as aluminum or stainless steel or a composite material thereof. Sometimes it is molded.

The far-infrared radiation layer 7 is coated on the inner surface of the storage container l.
It can be formed by various means such as a film, an attached form, an attached form, etc.

The partial side view shown in FIG. 2 is an example of this, in which the far-infrared radiation W, tt = formed of a three-layer lamination made of thin plates such as aluminum, tin, and stainless steel, and the chain plate 11 is formed. It is fixedly installed on the upper surface of the electric heating element 8 in FIG. A far-infrared radiation layer 7 is formed in place of the far-infrared radiation layer 7 formed on the inner bottom surface of the storage 1. In this case, since the thin plates A and the like are made of a heat ray-opaque material, far-infrared light is not transmitted to the outside of the bottom surface of the storage 1, but is radiated in a concentrated manner to the inside of the storage. In addition, this far infrared radiation plate 1
1, the far-infrared radiation layer 7 may be formed on one side of an aluminum plate, a stainless steel plate, or the like.

Alternatively, if a heat ray-opaque layer is formed over the entire inner surface of the storage N1 and a far-infrared ray emitting layer 7 is formed on the layer surface, all the far-infrared light is concentrated and radiated toward the inside of the storage 1.
The radiation efficiency becomes excellent. In addition, when the housing 1i11 is molded from a heat-ray-opaque material, the far-infrared radiation layer 7 is
It is formed on the inner surface of the storage 1.

The deodorizing filter 6 is formed by sandwiching and molding activated carbon, a moisture absorbent, an adsorbent, etc. in a breathable synthetic resin envelope or the like.
is freely fitted on the end side of the storage 1 in the exhaust direction.

In No. 312, the electric heating element 8 and the chain body 8 have an electric resistance body made of carbon material, and a carbon agent is suitably mixed into a flexible board such as cloth or paper, and the front and back sides of the board are coated with a carbon agent. A synthetic resin plate is pressed and molded, and electrodes 13 and 13" are attached.
Wiring cords 14 and 14' leading to a power source are connected to the electrodes, and a thermos sheet 15 is placed for electric heating control, so that the carbon material emits far infrared rays due to the heat generated by the electric heating element 8. , this kind of electric heating element is utilized.

In the fourth (21), a far-infrared radiation layer 7 is formed on the plate surface of the electric heating lII!:8, and it is possible to increase the far-infrared radiation wavelength.

The one shown in FIG. 5 has a chain 8 attached to the lower surface of the electric heating element 8
and a plate-like body on which far-infrared radiation N7 is formed on the upper surface of the heat ray-opaque layer 16 are superposed and installed on the inner bottom surface of the storage 1, and a plate on which a projectile is placed on the upper surface of the stacked body. The far infrared rays emitted from the far infrared radiation layer 7 are concentrated and radiated inside the storage 1.

6I21 is a laminate in which the heat ray-opaque material 16 on which the far-infrared radiation layer 7 is formed on the upper surface of the electric heating element 8 faces the far-infrared radiation layer 7 on the inner bottom surface of the storage 1. will be installed in ? 1: The heat generated by the air heating element 8 is conducted to the heat ray-opaque layer 16, and the conducted heat is transferred to the far-infrared radiation layer 7.
Heat is absorbed and radiated, and far infrared rays are concentratedly radiated inside the storage compartment l.

The heat ray-opaque layer 16 is formed of a thin plate of aluminum, stainless steel, tin, or the like.

When this heat ray-opaque layer 16 is attached to the entire inside of the storage 1, all the far-infrared heat rays are concentratedly radiated inside the storage 1, and the radiation efficiency can be increased.

Furthermore, if the storage 1 is made of aluminum or stainless steel, which is a heat ray-resistant material, the far-infrared radiation efficiency can be increased in the same way as described above.

No. 7I2I is a cross-sectional view showing the embodiment shown in No. 10, in which the far-infrared radiation layer 7 is formed in the same manner as described above, but as in the above embodiment, from the fan motor 4 to the inside of the storage 1. If air is blown at Hot air, bad odors, etc. inside the storage compartment 1 are taken in all at once through a deodorizing filter 6 disposed near the fan motor 4, and exhausted to the outside of the storage compartment 1 through an exhaust port 17'. Reference numeral 18 indicates an exhaust port, and reference numeral 19 indicates a mounting plate for the article to be irradiated.

By doing so, the article heated by far infrared rays is prevented from being deformed and hardened, but rather is heated and dried with a soft taste.

Effects Since the embodiment of the present invention is constructed as described above, its effects will be described below.

Shoes, clothes, etc. that emit a bad odor are stored in the storage compartment.
Turn on electricity. The inside of storage compartment 1 is normally affected by sunlight, warmth, etc.
Far infrared rays of around 4 to 9 microns are constantly emitted from the far infrared rays emitting layer 7 formed inside the storage compartment 1, but as power is applied, the heat generation temperature of the electric heating element 8 rises, and the temperature inside the cabinet reaches 80°C.
Heat is generated back and forth, and hot air is blown into the refrigerator by the fan motor 4, which then passes through the deodorizing filter 6 and exits the exhaust port 5.
Part of the hot air is discharged to the outside of the upstream warehouse. The heat rays generated by the gas heating element 8 are absorbed by the far-infrared radiation layer 7 formed inside the storage 1, and the heat is radiated. p! By AV & radiation, far infrared light heat of around 4 to 20 microns was emitted to the liquid irradiation object, the far infrared rays were absorbed by the limb irradiation object, and attached to the liquid irradiation object due to the straight and deep heat characteristic of far infrared rays. Aqueous content, oily content, fat content, and foul odors and adhering 4+ll fungi generated from various easily decomposed organic substances in the pond are decomposed and decomposed by the active action unique to far infrared rays as mentioned in the header.
When it becomes vaporized and passes through the deodorizing filter 6 by the air blowing from the fan motor 4, the diluted slight odor is absorbed by activated carbon.
It is absorbed by a moisture absorbent, a hygroscopic agent, etc., becomes a clean gas, and is exhausted from the exhaust port 5. Furthermore, due to the antibacterial, sterilizing, anti-mildew, and fatty acid famine properties unique to far infrared rays.

All predisposing factors such as bad odors and bacteria generated from irradiated objects are removed.

The characteristic odor of the substance itself can be removed in a short period of time.
+ You can easily get used to removing rotten odors, acid odors, etc. In particular, odors from animal substances containing many water molecules can be deodorized within a relatively short time.

The embodiment of the present invention utilizes radiant heat unique to far infrared rays for pond use, and in the case of iris.

It does not damage chlorophyll, pigments, etc., and allows you to grow dried flowers that are close to their original colors.

In addition, the deep penetration of radiant heat unique to far-infrared rays is used as a pond, and it is also possible to cultivate dried fish that are hard to spoil and have a good taste.As described above 6. 1. According to the embodiment of the present invention, it is possible to dry, deodorize, and sterilize foul odors and germ-carrying substances, and also to
It has a wide range of uses in civilian life, including the creation of special storage materials for I-books and general drying.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view of an embodiment of the present invention, Fig. 2 is a partial side view of the main part, Fig. 3 (21 is a perspective view of an electric heating element, 21 is a partial side view of the main parts, FIG. 7 is an open perspective view of the embodiment of FIG. 1, and FIG. 8 is a cross-sectional view of the embodiment of the pond. 1. Storage 10・Plate 2 ・Intake port 11 ・Far-infrared radiation plate 3 ・・
Air outlet 12... Lid body 4... Fan motor 13... Electrode 5... Exhaust port 14... Wiring cord 6... Deodorizing filter 15... Thermostat 7... Far infrared radiation emitting layer 16... Heat ray opaque layer 8 ...Electric heating element 1
7° ・Exhaust port 9...Power supply 18° ・Intake port A...Thin plate 19...'ri plate Fig. 2 Fig. 3

Claims (1)

[Scope of Claims] 1. A covered storage with a far-infrared radiation layer formed inside, a fan motor and a deodorizing filter detachably fitted in the storage, and a fan motor and a deodorizing filter detachably fitted in the storage, A planar electric heating element that is electrically controlled is installed nearby.
The heat generated by the electric heating element causes the far-infrared radiation layer to emit far-infrared rays belonging to a long wavelength range, and the objects to be irradiated stored in the storage are heated and dried at low temperature by the active action peculiar to far-infrared rays. A far-infrared ray radiation low temperature heating drying deodorizing and sterilizing device characterized by deodorizing and sterilizing. 2. The far-infrared radiation low-temperature heating drying deodorizing and sterilizing device according to claim 1, characterized in that a far-infrared radiation layer is formed on the inner wall surface of the storage. 3. The far-infrared radiation low-temperature heating drying deodorizing and sterilizing device according to claim 1, characterized in that a far-infrared radiation layer is formed on the outer surface of a planar electric heating element. 4. The far-infrared radiation low-temperature heating drying deodorizing and sterilizing device according to claim 1, wherein the planar electric heating element is a far-infrared radiation heating element. 5. Claims 1, 2, 3, and 4, characterized in that a heat-ray-opaque layer made of a heat-opaque material is formed adjacent to the far-infrared radiation layer. The far-infrared ray radiation low-temperature heating drying deodorizing and sterilizing device described. 6. Claims 1, 2, 3, 4, and 5, characterized in that the storage is made of a heat ray-opaque material and has a heat ray-opaque layer formed thereon. Far-infrared radiation low temperature heating drying deodorizing sterilization equipment.