JP3223578U - Blower mechanism with deodorization function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a blower mechanism that easily exhibits a deodorizing effect and is less likely to deteriorate. A blower mechanism according to the present invention has a deodorizing function. (1) A part or all of constituent parts includes a powdered natural mineral, and the powdered natural mineral is a natural radiation. Uranium or thorium that exhibits an ionization promoting effect due to (2) a paint is applied to some or all of the constituent parts, and the paint is uranium or thorium that exhibits an ionization promoting effect due to natural radiation (3) A deodorizing seal is affixed to a part of the component, and the deodorizing seal includes uranium or thorium that exhibits an effect of promoting ionization by natural radiation. Powdered natural mineral is attached. [Selection] Figure 1

Description

  The present invention relates to a blower mechanism with a deodorizing function, and more particularly, to a blower mechanism that can effectively deodorize a space that can be sealed, such as an automobile, a room, or a refrigerator.

  According to the Ministry of Health, Labor and Welfare “Summary of National Health and Nutrition Survey Results”, the proportion of people who smoke regularly is 30.2% for men and 8.2% for women. It is about one-fourth of. Non-smokers are sensitive to the smell of the smoker's cigarette, and if the smoker smokes nearby, the smell may be uncomfortable and the smoker smokes the cigarette in the room Non-smokers will feel uncomfortable even if they enter.

  Cigarettes contain components such as hydrogen sulfide, nicotine, and nitrogen compounds in addition to harmful components such as ammonia, tar, and acetaldehyde. When a smoker smokes a cigarette in a sealed space, the above-mentioned components are mixed and adsorbed in various places in the sealed space, so it is difficult to deodorize the smell of this cigarette.

  As a document disclosing a method for effectively removing the odor of cigarettes, for example, Patent Document 1 (Japanese Patent Laid-Open No. 2009-250463) discloses an air cleaner for cleaning contaminants such as dust and tobacco floating in an indoor space. Is disclosed. The air cleaner disclosed in Patent Document 1 includes a dust collection filter for removing dust and pollen in room air and a deodorization filter for removing room odor, and circulates room air by providing a fan. Thus, contaminated air can be purified.

  Moreover, although the malodor of the above-mentioned cigarettes has been regarded as a problem in the past, artificially created aromas such as softeners, detergents and perfumes can be cited as odors that are newly regarded as problems in recent years. These scents may be received favorably if they are reasonably fragrant, but if the scent is excessive, it is called “scent damage” and is becoming a social problem. People suffering from “scent damage” may cause dizziness, nausea and a decline in thinking ability due to the chemicals contained in the scent. If this situation goes too far, it may cause chemical sensitivity.

  The above-mentioned softeners, detergents and perfumes are often used to deceive body odors and animal odors, so if these fragrances are not used at all, the perfume damage itself can be eliminated, but the original scent is removed. The problem with odor cannot be completely wiped out because it can no longer be deceived. From this situation, it can be said that the scent that is currently sought is a completely odorless state where there is no scent at all, rather than a specific good scent that everyone will receive.

  For example, Patent Document 2 (Japanese Patent Laid-Open No. 2017-75068) discloses a cylindrical activated carbon having a through hole extending from one end to the other end of a cross section as a document disclosing a technique for creating an odorless state. By using the activated carbon disclosed in Patent Document 2, odor molecules can be adsorbed on the surface of the activated carbon, and an odorless state can be created.

JP 2009-250463 A JP 2017-0775068 A

  However, since the air cleaner disclosed in Patent Document 1 is large-sized, it is difficult to install when the installation space is limited as in an automobile. Moreover, since the air cleaner disclosed in Patent Document 1 is required to replace the deodorizing filter by using it for a certain period of time, it is troublesome to replace the filter. Moreover, the activated carbon disclosed in Patent Document 2 does not necessarily have a strong ability to adsorb odor molecules, and it is difficult to feel the deodorizing effect. In addition, when the odor molecules are adsorbed on the surface of the activated carbon, the deodorizing function is gradually lowered. Therefore, it is troublesome to perform the work for recovering the deodorizing function of the activated carbon every month, and the maintenance is expensive and troublesome. For this reason, in the use of automobiles, aroma-based deodorants are dominant in the market. Such aroma-based deodorants have greatly different tastes depending on the person. Therefore, when an aroma-based deodorant different from the preference is used in an automobile, it causes the above-mentioned fragrance.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a blower mechanism that easily exerts a deodorizing effect and that does not easily deteriorate the deodorizing effect.

  In order to achieve the above object, the air blowing mechanism of the present invention has a deodorizing function, and part or all of the parts constituting the air blowing mechanism contain a powdered natural mineral, and the powdery Natural minerals are characterized by containing uranium or thorium that exhibits the effect of promoting ionization by natural radiation.

  Another blower mechanism having a deodorizing function of the present invention has a paint applied to some or all of the parts constituting the blower mechanism, and the paint is uranium or thorium that exhibits an ionization promoting effect by natural radiation. It contains a powdery natural mineral containing

  Another blower mechanism having a deodorizing function of the present invention has a deodorant seal attached to a part of the parts constituting the blower mechanism, and the deodorant seal is an uranium that exhibits an ionization promoting effect by natural radiation. Or the powdered natural mineral containing thorium is adhered.

It is a perspective view which shows the outline of the ventilation mechanism of Embodiment 1 of this invention. It is a perspective view which shows the outline of the ventilation mechanism of Embodiment 3 of this invention. It is a perspective view which shows an example of the ventilation mechanism of this invention.

  In the following, features and structures of preferred embodiments of the present invention will be described with reference to the drawings.

<Embodiment 1>
FIG. 1 is a perspective view showing an outline of a blower mechanism according to Embodiment 1 of the present invention. As shown in FIG. 1, the blower mechanism 1 of the present embodiment is a small electric fan that can be held by hand. This small electric fan covers the outer surface of the blower unit 3 so that the user does not touch the handle unit 2, the blower unit 3 that is rotatably provided on the handle unit 2, and the blower unit 3. The outer frame 4 and the rotation part 5 which rotates the ventilation part 3 are provided.

  In the blower mechanism 1 of the present embodiment, the plastic component constituting the blower section 3 or the outer frame 4 includes a powdered natural mineral, and this powdered natural mineral is uranium or thorium that exhibits the effect of promoting ionization by natural radiation. It is characterized by being. By including a natural mineral powder containing uranium or thorium having such a function, natural radiation is emitted from the blower mechanism 1, and the cluster molecules that cause malodor can be decomposed and nano-ionized. With this natural mineral powder, it is possible to deodorize all kinds of odors such as cigarette odor caused by smoking, animal odor generated from pets such as dogs and cats, urine odor, washing softener, perfume and fragrance. .

  Here, as a method of containing the powdered natural mineral in the blowing unit 3 or the outer frame 4, the powdered natural mineral is mixed with the resin component in the previous stage of resin molding of the blowing unit 3 or the outer frame 4. The method of letting it be mentioned. By using this method, it is possible to uniformly mix the powdered natural mineral into the blowing section 3 or the outer frame 4. Here, the resin used for resin molding is nylon resin, polyethylene resin, polypropylene resin, polybutylene resin, polyester resin, polyurethane resin, polyacrylic resin, styrene butadiene resin, vinyl resin, polycarbonate resin, polysulfone resin, polyethersulfone. One selected from the group consisting of resin, polyvinyl butyral resin, polyvinyl formal resin, polyvinyl acetate resin, polystyrene resin, styrene divinylbenzene resin, fluororesin, acrylic resin, silicon resin, epoxy resin, amino resin, and phenol resin Although it is above, it is not limited to them. When at least one ceramic selected from aluminum, aluminum nitride, silicon nitride, silicon carbide, and metal oxide is used as the material for the blower section 3 or the outer frame 4, it is powdered at the stage of molding the ceramic. It is preferable to incorporate natural minerals. Moreover, additives, such as a coloring agent, can also be mixed as components other than said powdery natural mineral.

  By using natural minerals containing uranium or thorium as a deodorizing method, the present inventor can generate ion pairs from fragrant gases irradiated with α rays, β rays, γ rays, etc. emitted from the natural minerals. And as a result, it has been found that it exhibits a deodorizing effect by a chemical reaction through radical generation and ion-molecule reaction. The average particle size of the natural mineral powder containing uranium or thorium is not particularly limited, but is preferably 0.1 μm or more and 10 μm or less, more preferably 1 μm or more and 8 μm or less, and further preferably 2 μm or more and 5 μm or less. .

  Here, in this embodiment, although the case where the powdered natural mineral is contained in both the ventilation part 3 and the outer frame 4 is demonstrated, from a viewpoint of exhibiting a deodorizing effect effectively, ventilation is carried out. A powdered natural mineral is preferable at a portion that is a passing position in the blowing direction in the mechanism 1. In consideration of such a viewpoint, the rotating unit 5 may include a powdered natural mineral, or the blowing unit 3. Alternatively, it does not matter if either one of the outer frames 4 contains a powdered natural mineral. On the other hand, even if the handle portion 2 contains a powdered natural mineral, the deodorizing effect is difficult to obtain because this portion is different from the wind direction generated by the blower mechanism 1. Of course, all the parts which comprise the ventilation mechanism 1 may contain the powdered natural mineral.

  The natural minerals containing uranium or thorium used here include carbonate apatite, chalcopyrite, hematite, monazite, turquoise, ambrogolite, barisher stone, labdofane, phosphated uranium, phosphate copper uranium, phosphorus One or more selected from the group consisting of heavy earth uranium, phosphorus aluminum uranium, arsenite uranium, bezelite, and xenotime are preferred. Among these, monazite, apatite, fluorapatite, chlorapatite, hydroxyapatite, or carbonate fluorapatite is more preferable, and monazite ore, apatite, fluorapatite, barley stone, or north stone is more preferable.

  Furthermore, it is preferable that a photocatalytic substance is contained in the blower 3 or the outer frame 4. By including a photocatalytic substance, the decomposition rate of molecules that cause malodor can be improved. In other words, by selectively changing the ionic and radical molecules produced by the interaction of the fragrant gas with α-, β-, and γ-rays emitted from monazite ore in one direction, Gas can be promptly converted to unscented gas. For this purpose, it is considered that a photocatalytic substance should be present in the vicinity of ions or radicals generated by collision of radiation such as α rays, β rays, and γ rays with a fragrant gas. When the photocatalytic substance plays a role like an ion scavenger or a radical scavenger, it is considered that the photocatalytic substance can lead to the direction of promoting a chemical reaction due to the activity and reaction selectivity of the photocatalytic substance. Here, as the photocatalytic substance, titanium oxide is preferable, and an oxide of a platinum group metal such as platinum, palladium, radium, yttrium, rhodium, ruthenium, or the like may be used as necessary. By including such a photocatalytic substance, it becomes possible to strongly decompose molecules that cause malodor in combination with the ionization effect by the above-mentioned ore powder. The average particle size of the photocatalytic substance is not particularly limited, but is preferably 0.1 μm or more and 10 μm or less, more preferably 1 μm or more and 8 μm or less.

  The air blowing mechanism 1 of the present invention has the effect of promoting the ionization of natural radiation by the monazite ore powder and the deodorizing effect by the catalytic function of the photocatalyst, so there is no concern about clogging as in the case of the conventional deodorizing filter. There is an advantage that it is unnecessary and can exert a deodorizing effect over a long period of time. For this reason, since the ventilation mechanism 1 of this embodiment has a semipermanent deodorizing effect duration and is excellent in durability performance, the number of replacements can be significantly reduced as compared with the conventional deodorizing agent, and the running cost is reduced. It becomes possible to do. Moreover, since the ventilation mechanism 1 of this embodiment is a fan with a deodorizing function which can be held as shown in FIG. 1, it can be easily carried and used even in a narrow space. This makes it possible to deodorize any place where the person feels an unpleasant odor without worrying about others.

<Embodiment 2>
The present embodiment is the same as the first embodiment except that the method for containing a powdered natural mineral is different from the first embodiment. Since there is no difference in appearance between Embodiment 1 and Embodiment 2, the drawings of this embodiment are omitted. In Embodiment 1, the deodorizing effect was exhibited by including a powdered natural mineral in part or all of the parts constituting the air blowing mechanism 1, but in this embodiment, the parts constituting the air blowing mechanism 1 are A paint is applied to a part or all of the paint, and the paint contains a powdered natural mineral containing uranium or thorium that exhibits an effect of promoting ionization by natural radiation.

  The deodorizing function can be added to the air blowing mechanism 1 by applying a coating material containing a powdered natural mineral to the air blowing mechanism 1 and drying it as in the present embodiment. By using this method, there is an advantage that the deodorizing function can be imparted even to the air blowing mechanism 1 that does not originally have the deodorizing function. The paint used here is at least one paint selected from the group consisting of water-based acrylic paints, water-based alkyd polyester paints, water-based polyurethane paints, water-based fluororesin paints, water-based epoxy paints, and silicone-modified acrylic paints. In addition to the above-mentioned powdery natural minerals and photocatalytic substances containing uranium or thorium, various additives such as colorants, dyes, printing inks, thermoplastic resins, thermosetting resins, etc. May be added as appropriate. By adding these additives, the hue of the blower mechanism 1 can be adjusted, and other necessary functions can be added.

  The proportion of the monazite ore powder in the solid content contained in the paint is preferably 1% to 30%, more preferably 2% to 20%, and even more preferably 3% to 10%. % Or less. By including the monazite ore powder at such a solid content concentration, it becomes possible to effectively decompose molecules that cause malodor.

  Although the thickness of a coating film here is not specifically limited, It is preferable that they are 0.1 mm or more and 1 mm or less, More preferably, they are 0.2 mm or more and 0.8 mm or less. By setting it as such thickness, it becomes possible to exhibit the deodorizing function of the powder of monazite ore effectively. If the thickness of the coating film is too thin, the monazite ore powder is exposed to the surface and the touch feeling is lowered, which is not preferable. On the contrary, the thickness of the coating film can be reduced as much as possible in the form where a feeling of touch is not required. It is preferable to form a coating film having an appropriate thickness in terms of improving the ease of handling.

<Embodiment 3>
FIG. 2 is a perspective view illustrating an outline of the air blowing mechanism according to the third embodiment. As shown in FIG. 2, the present embodiment is the same as the first embodiment except that the method for containing the powdered natural mineral is different from the first embodiment. That is, in Embodiment 1, the deodorizing effect was exhibited by including a powdered natural mineral in part or all of the parts constituting the blower mechanism, but in this embodiment, the parts constituting the blower mechanism 1. A deodorant seal 6 is affixed to a part of the odorant seal, and the deodorant seal 6 is characterized in that a powdered natural mineral containing uranium or thorium that exhibits an effect of promoting ionization by natural radiation is adhered.

  In the present embodiment, as shown in FIG. 2, a total of three deodorant seals 6 are attached to the blades constituting the air blowing unit 3, one by one. The size of the deodorant seal 6 is not particularly limited because it can be appropriately changed depending on the application, but is preferably a 1 cm × 6 cm rectangular seal, for example. By setting it as such a shape, a deodorizing function can be acquired, without inhibiting the ventilation function of the ventilation mechanism 1. FIG. By attaching the deodorant seal 6 in this manner, a deodorizing function can be easily added to the blower mechanism 1. The number and shape of the deodorant seal 6 are not particularly limited, but the deodorizing effect can be increased in proportion to the mounting area of the deodorant seal 6. You may affix on either one side of the front and back of the blade | wing which comprises the ventilation part 3, and may affix on both surfaces of the front and back of the blade | wing which comprises the ventilation part 3. In addition, the blade | wing which comprises the ventilation part 3 here also includes a whirlwind fan, a sirocco fan, and a ventilation louver.

(Usage form)
In Embodiments 1 to 3, the case of a small electric fan has been described as an example of the air blowing mechanism, but the present invention can also be applied to an ordinary electric fan as shown in FIG. Even when a deodorizing function is imparted to a normal electric fan, the three types of methods of the first to third embodiments can be used, that is, whether the component itself constituting the electric fan itself contains a powdered natural mineral. Either a method of applying a paint containing a powdered natural mineral to a component constituting a fan or a method of applying a deodorizing seal containing a powdered natural mineral to a component constituting a fan Can be used. Moreover, as a ventilation mechanism, it is not restricted to an electric fan, A deodorizing function can be provided also to an indoor air conditioner, the vent of a vegetable room of a refrigerator, a car air conditioner, etc.

  In particular, by giving a deodorizing function to a car air conditioner, natural minerals containing uranium or thorium can decompose the cluster molecules into activated small molecules. Thereby, the vibration transmitted from the speaker can be transmitted to the driver without distortion. As a result, the sound quality of radio and stereo in the interior of the vehicle becomes clearer, and an acoustic sound environment can be realized. In addition, since the cluster molecules in the fluid are converted into single small molecules, the heat conversion efficiency is improved and the temperature can be adjusted at a higher speed, so that a high energy saving effect is obtained. Furthermore, the nanometer-sized virus and pathogen can be exposed and destroyed by low-dose radiation emitted from natural minerals containing uranium or thorium attached to the deodorized sheet 1.

  The above description is merely a preferred embodiment of the present invention, and other equivalent structural changes applied to the present specification and the claims of the utility model registration are also included in the scope of the present invention. To do.

DESCRIPTION OF SYMBOLS 1 Blower mechanism 2 Handle 3 Blower part 4 Outer frame 5 Turning part 6 Deodorant seal

Claims (3)

A blower mechanism having a deodorizing function,
Part or all of the parts constituting the air blowing mechanism include powdered natural minerals,
The said powdery natural mineral is a ventilation mechanism containing the uranium or thorium which exhibits the ionization promotion effect by natural radiation. A blower mechanism having a deodorizing function,
The paint is applied to some or all of the parts constituting the air blowing mechanism,
The air blowing mechanism, wherein the paint includes a powdered natural mineral containing uranium or thorium that exhibits an effect of promoting ionization by natural radiation. A blower mechanism having a deodorizing function,
A deodorizing seal is affixed to a part of the parts constituting the air blowing mechanism,
The deodorizing seal is a blower mechanism to which a powdered natural mineral containing uranium or thorium that exhibits an effect of promoting ionization by natural radiation is attached.