JPH057123U - Fan - Google Patents

Abstract

(57) [Summary] [Objective] An object of the present invention is to provide a fan using a fibrous ion exchanger having a gas adsorption capacity, which is produced by graft polymerization. [Structure] A gas adsorption sheet 6 composed of a fibrous ion exchanger formed by irradiating an organic polymer compound with ionizing radiation and then introducing an ion exchange group by graft polymerization, and the gas adsorption sheet 6. A fan including a fan main body 2, 12 and 32 to which the sheet 6 is attached.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

  The present invention relates to a fan, and particularly has a function of effectively removing odorous components. The present invention relates to a fan, a fan, and the like.

[0002]

[Prior art]

  Air pollution has been a relatively old problem as a cause of destruction of the natural environment and deterioration of the living environment Has been debated. The recent trend is that as living standards improve That is, there is an interest in improving habitability in the area. Therefore, it used to be the atmosphere Destruction of the natural environment due to the toxicity of pollutants has become a major issue, but recently, the bad odor has been improved. Closed up because it impairs suitability.

[0003]   In general, malodorous components such as ammonia, trimethylamine, hydrogen sulfide, etc. Since even a small amount has a large effect, efficient removal technology is required.

[0004]   Especially in the living spaces of ordinary households and workplaces, cigarette smoke, toilet odor, or There is a demand to easily remove malodorous components such as the rotten smell of fish.

[0005]   As a method of removing such malodorous components, chemical cleaning using acid or alkali is used. The purification method, the adsorption method using an adsorbent, the oxidation method using a catalyst and an oxidant, the combustion method, etc. are known. ing. Of these methods, except for the adsorption method, a large amount of space is used in a relatively large workplace. It is suitable for treating qi and is not suitable for small businesses or ordinary households. This is This is because the equipment is large and the operation is complicated, and dangerous chemicals are used.

[0006]   In the adsorption method, zeolite, alumina, etc. are used in addition to typical activated carbon as an adsorbent. It is suitable for small businesses and general households because it is easy to operate and does not take up space. .

[0007]

[Problems to be solved by the device]

  Granular activated carbon has been used since ancient times, and recently activated carbon fiber has been developed. Have improved adsorption performance, but polar substances such as ammonia and trimethylamido There is a problem that the effect of removing malodorous components such as odor is not so high. These stinks Minerals are the main components such as toilet odors and rotten fish odors that often cause problems in ordinary households. .

[0008]   Also, adsorbents using activated carbon etc. are inferior in portability and handleability. If odor components that are locally generated cannot be easily and quickly removed There is a problem.

[0009]   The present invention was created in view of the above circumstances, and the purpose of the present invention is to graft Fan using a fibrous ion exchanger with gas adsorption capacity manufactured by polymerization To provide the equipment.

[0010]

[Means for Solving the Problems]

  In order to achieve the above object, the present invention provides a fan body having a plurality of skeletons, and the fan body. A fan, such as a fan or a fan, having a sheet attached to the main body of the utensil, After irradiating the organic polymer compound with ionizing radiation, Composed of fibrous ion exchanger formed by introducing ion-exchange groups It is characterized by that.

[0011]

[Action]

  According to the present invention, a fiber having a gas adsorbing ability is provided on one or both sides of a fan by the above means. -Like ion exchanger is provided, so odorous components existing in the room are adsorbed and efficiently Can be removed. In addition, the fan of the present invention is a portable device originally possessed by the fan. Since the bandability and handling are not impaired, it is possible to easily remove locally generated odorous components. One can be quickly removed.

[0012]

【Example】

  Embodiments of a fan tool according to the present invention will be described below with reference to the drawings.

[0013]   FIG. 1 shows an embodiment of a fan which is an example of the fan tool of the present invention. The fan 1 is a fan body 2 And a gas adsorbing sheet 6 adhered to one side of the fan body 2 with an adhesive. Has been done. The fan main body 2 extends from the base 3 and the tip of the base 3 in a substantially radial manner. And a plurality of skeletons 4 and an outer edge 5 that connects the tips of these skeletons 4 to each other. Is made. The fan body 2 is formed by molding plastic or processing bamboo Has been done.

[0014]   The gas adsorption sheet 6 is made of a fibrous ion exchanger and is made of an organic polymer compound. After irradiation with ionizing radiation, ion-exchange groups can be introduced by using graft polymerization. It is manufactured by.

[0015]   Examples of ionizing radiation used here include α, β, γ, ultraviolet rays, and electron beams. Although not limited, γ rays and electron beams are relatively suitable for the present invention.

[0016]   Examples of organic polymer compounds include polyolefin-based and halogenated polyolefin. Systems are suitable for the present invention, but are not limited to this range.

[0017]   In addition, a fibrous shape is suitable for the shape of the organic polymer compound. It is also possible, and woven fabrics and nonwoven fabrics, which are molded bodies of fibers, are particularly suitable.

[0018]   After irradiating the organic polymer compound with ionizing radiation, it has an ion-exchange group. And / or by graft-polymerizing a polymerizable monomer that can be converted to an ion-exchange group. There are two ways to contact the material and the monomer: when the monomer is a solution and when it is a vapor. The former is called liquid phase graft polymerization and the latter is called gas phase graft polymerization. Both are possible.

[0019]   Compared with liquid phase graft polymerization, gas phase graft polymerization completes the reaction simply by reducing the pressure. Since the unreacted monomer after that can be removed, the washing step is easy. Especially in the present invention Although it has good liquid retention and is difficult to wash like the fibrous woven and non-woven fabrics used, Gas phase graft polymerization is economically extremely advantageous for the reaction. In addition, the gas phase graft weight When the reaction is concentrated, the reaction proceeds concentrated near the surface of the base material. In the case where the diffusion rate from the surface is rate-determining, the gas-phase Raft polymerization is more advantageous.

[0020]   The polymerizable monomer having an ion exchange group includes acrylic acid and methacrylic acid. Having a carboxyl group, such as styrene sodium sulfonate Some have anion group and some have anion-exchange property such as arylamine. Acrylonitrile is a polymerizable monomer that can be converted into an ion exchange group. , Acrolein styrene, chloromethyl styrene, glycidyl methacrylate, bi There is, for example, nilviridine, but it is not limited to this range. For ion exchange group A known method can be used for the conversion.

[0021]   The ion exchange group may be a cation exchange group such as a sulfone group, a phosphate group, or a carbohydrate group. Those having a H-type and / or salt type of a xyl group are suitable in terms of adsorption rate and adsorption capacity. is doing. As the anion-exchange group, a quaternary ammonium group or a quaternary lower amine group is used. The OH and / or salt form of the phenyl group is suitable. Single ion-exchange group depending on usage It is possible to appropriately select whether or not to use them.

[0022]   According to the fan of the present embodiment, the fibrous gas adsorption sheet having the ion exchange group is a tab. In order to absorb smoke and odor components of coconut and remove them effectively, Effective for improving the boundaries.

[0023]   2 shows another embodiment of the fan according to the present invention, in which the constituent elements of FIG. 1 are shown. Components having the same functions and functions as those of the above are denoted by the same reference numerals and the description thereof will be omitted.

[0024]   The fan 11 in this embodiment includes the fan main body 2 and both surfaces (front surface and It is composed of gas adsorption sheets 6 and 6 which are attached to the back surface) with an adhesive. Previous The gas adsorbing sheet 6 is made of a fibrous ion exchanger as in the above-mentioned embodiment. The method for producing the fibrous ion exchanger is exactly the same as that in the above-mentioned embodiment.

[0025]   According to the fan of this embodiment, two gas adsorption sheets are attached to both sides of the fan body. Therefore, the ability to adsorb odorous components is further improved as compared with the above-mentioned embodiment.

[0026]   3 and 4 show another embodiment of the fan according to the present invention, in which the fan 21 is a fan. The body 12 and the gas adsorbing sheets 6 attached to both sides of the fan body 12 with an adhesive. 6 and 6. The fan body 12 in this embodiment has a relatively thick base portion. 13 and a plurality of thick-walled skeletons 14. And the tip of the skeleton 14 The outer edge connecting the two is not formed. The gas adsorption sheet 6 is the same as that shown in FIGS. It is similar to the example.   According to the fan of this embodiment, the two gas adsorption sheets 6 and 6 are provided on both sides of the fan body 12. Since the fan body 12 has a relatively thick skeleton 14 while being attached to the As shown in FIG. 4, a space S for introducing outside air is formed between the gas adsorption sheets 6 and 6. To be done. Therefore, there are four gas adsorption surfaces, and the ability to adsorb odorous components is high, The gas component can be quickly adsorbed and removed.

[0027]   Next, an embodiment of a fan, which is another example of the fan tool according to the present invention, will be described with reference to FIG. To do.

[0028]   The fan 31 includes a fan body 32, and a fan attached to one or both sides of the fan body 32. It is composed of a suction sheet 6. The fan main body 32 has a plurality of skeletons 34, and It is composed of a pivot pin 35 that connects these at the bottom of the skeleton 34. The above The gas adsorption sheet 6 is formed from the same fibrous ion exchanger as in the embodiment of FIGS. 1 to 4. Has been done.

[0029]   According to the fan of the present embodiment, while having the advantage that the fan is originally excellent in portability, , The fibrous gas adsorption sheet with ion-exchange groups adsorbs odorous components and efficiently It is effective in improving the environment.

[0030]

[Effect of device]

  As is clear from the above description, according to the fan of the present invention, the organic polymer compound is used. After irradiating the object with ionizing radiation, the ion exchange group is introduced by using graft polymerization. Since a fibrous ion exchanger having a gas adsorption capacity formed by Adsorb tobacco smoke and odor components existing indoors and remove them efficiently. It is possible to improve the living environment. The fan of the present invention is portable and easy to use. It is easy to handle and easily and quickly removes locally generated odorous components. be able to.

[Submission date] May 27, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content] [Detailed description of the device]

[0001]

[Industrial applications]

  The present invention relates to a fan, and particularly has a function of effectively removing odorous components. The present invention relates to a fan, a fan, and the like.

[0002]

[Prior art]

  Air pollution has been a relatively old problem as a cause of destruction of the natural environment and deterioration of the living environment Has been debated. The recent trend is that as living standards improve That is, there is an interest in improving habitability in the area. Therefore, it used to be the atmosphere Destruction of the natural environment due to the toxicity of pollutants has become a major issue, but recently, the bad odor has been improved. Closed up because it impairs suitability.

[0003]   In general, malodorous components such as ammonia, trimethylamine, hydrogen sulfide, etc. Since even a small amount has a large effect, efficient removal technology is required.

[0004]   Especially in the living spaces of ordinary households and workplaces, cigarette smoke, toilet odor, or There is a demand to easily remove malodorous components such as the rotten smell of fish.

[0005]   As a method of removing such malodorous components, chemical cleaning using acid or alkali is used. The purification method, the adsorption method using an adsorbent, the oxidation method using a catalyst and an oxidant, the combustion method, etc. are known. ing. Of these methods, except for the adsorption method, a large amount of space is used in a relatively large workplace. It is suitable for treating qi and is not suitable for small businesses or ordinary households. This is This is because the equipment is large and the operation is complicated, and dangerous chemicals are used.

[0006]   In the adsorption method, zeolite, alumina, etc. are used in addition to typical activated carbon as an adsorbent. It is suitable for small businesses and general households because it is easy to operate and does not take up space. .

[0007]

[Problems to be solved by the device]

  Granular activated carbon has been used since ancient times, and recently activated carbon fiber has been developed. Have improved adsorption performance, but polar substances such as ammonia and trimethylamido There is a problem that the effect of removing malodorous components such as odor is not so high. These stinks Minerals are the main components such as toilet odors and rotten fish odors that often cause problems in ordinary households. .

[0008]   Also, adsorbents using activated carbon etc. are inferior in portability and handleability. If odor components that are locally generated cannot be easily and quickly removed There is a problem.

[0009]   The present invention was created in view of the above circumstances, and the purpose of the present invention is to graft Fan using a fibrous ion exchanger with gas adsorption capacity manufactured by polymerization To provide the equipment.

[0010]

[Means for Solving the Problems]

  In order to achieve the above object, the present invention provides a fan body having a plurality of skeletons, and the fan body. A fan, such as a fan or a fan, having a sheet attached to the main body of the utensil, After irradiating the organic polymer compound with ionizing radiation, Composed of fibrous ion exchanger formed by introducing ion-exchange groups It is characterized by that.

[0011]

[Action]

  According to the present invention, a fiber having a gas adsorbing ability is provided on one or both sides of a fan by the above means. -Like ion exchanger is provided, so odorous components existing in the room are adsorbed and efficiently Can be removed. In addition, the fan of the present invention is a portable device originally possessed by the fan. Since the bandability and handling are not impaired, it is possible to easily remove locally generated odorous components. One can be quickly removed.

[0012]

【Example】

  Embodiments of a fan tool according to the present invention will be described below with reference to the drawings.

[0013]   FIG. 1 shows an embodiment of a fan which is an example of the fan tool of the present invention. The fan 1 is a fan body 2 And a gas adsorbing sheet 6 adhered to one side of the fan body 2 with an adhesive. Has been done. The fan main body 2 extends from the base 3 and the tip of the base 3 in a substantially radial manner. And a plurality of skeletons 4 and an outer edge 5 that connects the tips of these skeletons 4 to each other. Is made. The fan body 2 is formed by molding plastic or processing bamboo Has been done.

[0014]   The gas adsorption sheet 6 is made of a fibrous ion exchanger and is made of an organic polymer compound. After irradiation with ionizing radiation, ion-exchange groups can be introduced by using graft polymerization. It is manufactured by.

[0015]   Examples of ionizing radiation used here include α, β, γ, ultraviolet rays, and electron beams. Although not limited, γ rays and electron beams are relatively suitable for the present invention.

[0016] Examples of organic polymer compounds include polyolefin-based and halogenated polyolefin. Systems are suitable for the present invention, but are not limited to this range.

[0017]   In addition, a fibrous shape is suitable for the shape of the organic polymer compound. It is also possible, and woven fabrics and nonwoven fabrics, which are molded bodies of fibers, are particularly suitable.

[0018]   After irradiating the organic polymer compound with ionizing radiation, it has an ion-exchange group. And / or by graft-polymerizing a polymerizable monomer that can be converted to an ion-exchange group. There are two ways to contact the material and the monomer: when the monomer is a solution and when it is a vapor. The former is called liquid phase graft polymerization and the latter is called gas phase graft polymerization. Both are possible.

[0019]   Compared with liquid phase graft polymerization, gas phase graft polymerization completes the reaction simply by reducing the pressure. Since the unreacted monomer after that can be removed, the washing step is easy. Especially in the present invention Although it has good liquid retention and is difficult to wash like the fibrous woven and non-woven fabrics used, Gas phase graft polymerization is economically extremely advantageous for the reaction. In addition, the gas phase graft weight When the reaction is concentrated, the reaction proceeds concentrated near the surface of the base material. In the case where the diffusion rate from the surface is rate-determining, the gas-phase Raft polymerization is more advantageous.

Examples of the polymerizable monomer having an ion exchange group include those having a carboxyl group such as acrylic acid and methacrylic acid, those having a sulfone group such as sodium styrene sulfonate, and those having an anion exchange property such as arylamine. There are those having, also, as the convertible polymerizable monomer in the ion-exchange groups include acrylonitrile, acrolein styrene, chloromethylstyrene, glycidyl methacrylate, it is vinyl pin-lysine, etc., it is not limited to this range Absent. A known method can be used for conversion into an ion exchange group.

[0021]   The ion exchange group may be a cation exchange group such as a sulfone group, a phosphate group, or a carbohydrate group. Those having a H-type and / or salt type of a xyl group are suitable in terms of adsorption rate and adsorption capacity. is doing. As the anion-exchange group, a quaternary ammonium group or a quaternary lower amine group is used. No The OH and / or salt form of the radical is suitable. Single ion-exchange group depending on usage It is possible to appropriately select whether or not to use them.

[0022]   According to the fan of the present embodiment, the fibrous gas adsorption sheet having the ion exchange group is a tab. In order to absorb smoke and odor components of coconut and remove them effectively, Effective for improving the boundaries.

[0023]   2 shows another embodiment of the fan according to the present invention, in which the constituent elements of FIG. 1 are shown. Components having the same functions and functions as those of the above are denoted by the same reference numerals and the description thereof will be omitted.

[0024]   The fan 11 in this embodiment includes the fan main body 2 and both surfaces (front surface and It is composed of gas adsorption sheets 6 and 6 which are attached to the back surface) with an adhesive. Previous The gas adsorbing sheet 6 is made of a fibrous ion exchanger as in the above-mentioned embodiment. The method for producing the fibrous ion exchanger is exactly the same as that in the above-mentioned embodiment.

[0025]   According to the fan of this embodiment, two gas adsorption sheets are attached to both sides of the fan body. Therefore, the ability to adsorb odorous components is further improved as compared with the above-mentioned embodiment.

[0026]   3 and 4 show another embodiment of the fan according to the present invention, in which the fan 21 is a fan. The body 12 and the gas adsorbing sheets 6 attached to both sides of the fan body 12 with an adhesive. 6 and 6. The fan body 12 in this embodiment has a relatively thick base portion. 13 and a plurality of thick-walled skeletons 14. And the tip of the skeleton 14 The outer edge connecting the two is not formed. The gas adsorption sheet 6 is the same as that shown in FIGS. It is similar to the example.

According to the fan of the present embodiment, two gas adsorption sheet 6 and 6 while being attached to both sides of the fan body 12, fan body 12 has a relatively thick the outline 14 Therefore, as shown in FIG. 4, a space S for introducing the outside air is formed between the gas adsorption sheets 6 and 6. Therefore, there are four gas adsorption surfaces, and the ability to adsorb odorous components is high, and the odorous components can be quickly adsorbed and removed.

Next, a description will be given of an embodiment of a fan which is another example of a fanning device according to the present invention with reference to FIG.

The fan 31 is composed of a fan body 32 and a gas adsorption sheet 6 attached to one or both sides of the fan body 32. The fan main body 32 is composed of a plurality of skeletons 34 and a pivot pin 35 that connects the skeletons 34 at a lower portion of the skeletons 34. The gas adsorption sheet 6 is formed of the same fibrous ion exchanger as in the embodiment of FIGS.

According to fans of this embodiment, while possess the advantage of excellent inherent portability fan, fibrous gas adsorption sheet having an ion exchange group adsorbed odor components which was efficiently removed, Effective in improving the environment.

[0031]

[Effect of device]

  As is clear from the above description, according to the fan of the present invention, the organic polymer compound is used. After irradiating the object with ionizing radiation, the ion exchange group is introduced by using graft polymerization. Since a fibrous ion exchanger having a gas adsorption capacity formed by Adsorb tobacco smoke and odor components existing indoors and remove them efficiently. It is possible to improve the living environment. The fan of the present invention is portable and easy to use. It is easy to handle and easily and quickly removes locally generated odorous components. be able to.

[Brief description of drawings]

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] May 27, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Name of device] Fan tool

[Scope of utility model registration request]

[Brief description of drawings]

FIG. 1 Implementation of a fan which is a kind of fan according to the present invention
It is an exploded perspective view showing an example.

FIG. 2 is another fruit of a fan which is a kind of fan according to the present invention.
It is an exploded perspective view showing an example.

FIG. 3 is a further example of a fan which is a kind of fan according to the present invention.
FIG. 3 is an exploded perspective view showing an embodiment of It

FIG. 4 is a plan view of the assembled fan shown in FIG.
It

FIG. 5: Implementation of a fan, which is a kind of fan according to the present invention
It is a side view which shows an example.

[Explanation of symbols] 1,11,21 fan 2,12 fan body 3,13 base 4,14,34 6 Gas adsorption sheet 31 fan 32 Fan body 35 pivot pin

Claims (3)

[Scope of utility model registration request] 1. A fan, such as a fan or a fan, comprising a fan body having a plurality of skeletons and a sheet attached to the fan body, wherein the sheet is an organic polymer. A fan tool comprising a fibrous ion exchanger formed by irradiating a compound with ionizing radiation and then introducing an ion exchange group using graft polymerization. 2. The fan tool according to claim 1, wherein the sheets are attached to both surfaces of the fan tool body. 3. The fan tool according to claim 2, wherein the skeleton has a thick wall, and a gap for introducing outside air is formed between the sheets.