JP2005307726A - Wall covering material with zeolite layer on surface and wall covering material with porous body layer on surface - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To increase the capability of decomposing and eliminating a toxic chemical compound by combining zeolite with photocatalyst while the capability of decomposing the toxic chemical compound is increased by titanium oxide in the presence of a weak ultraviolet ray. <P>SOLUTION: Powdery or granular zeolite 2 is adhered to a surface of a base material 1 so as to form a zeolite layer 3. The photocatalyst 4 is adhered, then, to the surface of the powdery/granular zeolite 2 which forms the zeolite layer 3 to form a photocatalyst layer 5. Air can freely get into contact with the photocatalyst 4 forming the photocatalyst layer 5 as well as the powdery/granular zeolite 2 forming the zeolite layer 3. The titanium oxide is a main component of the photocatalyst 4 forming the photocatalyst layer 5. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention includes a wall covering material with a surface zeolite layer formed on the surface, and a porous body layer (for example, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, perlite, or attapulgite). And a wall covering material with a porous porous object layer.

This wall covering is, for example, a sheet of flexible sheet selected from one of paper, cloth, cold water, synthetic resin film, heat insulating film or nonwoven fabric used for wallpaper, or Wall material, ceiling material, ground plate, floor material, plate insulation, packing plate material, ferrous metal plate, non-ferrous metal plate, or industrial plate material It means a plate having shape.

[Conventional technology]
As the wall covering material with the surface zeolite layer, there are the followings in the prior art.
Artificial zeolite is adsorbed and laminated on a sheet-like wallpaper body.
(Japanese Patent Laid-Open No. 2001-336095)

[Problems of conventional technology]
The above prior art has the following problems.
As is well known, zeolite has the following characteristics: (1) humidity adjustment function and moisture prevention function by moisture absorption and desorption in a low humidity atmosphere, and (2) harmful effects such as formaldehyde gas and methyl mercaptan gas in the air. It is excellent in that it has a deodorizing function by adsorption of chemical substances.

  However, since zeolite is an inorganic porous material, there is a limit to its ability to adsorb the harmful chemical substances, so that harmful chemical substances in the living space may not be sufficiently removed over a long period of time. is there.

JP 2001-336095 A

An object of the present invention is to do as follows.
(I). Combining zeolite with a photocatalyst enhances the ability to decompose and remove harmful chemical substances in the air.
(B). Where weak ultraviolet rays are present, titanium oxide further enhances the ability to decompose and remove harmful chemical substances in the air.

(C). By negatively ionizing the fine particles present in the air, the negative ion generating substance can simultaneously obtain (1) a mind and body relaxation effect, (2) a deodorizing action, and (3) an antibacterial action.
(D). By preventing direct contact between the surface layer adhesive and the titanium oxide, the decomposition of the titanium oxide eliminates the adhesive from being decomposed and prevents the titanium oxide from falling off over a long period of time. Increase its durability.

(E). By making it particularly excellent in the property of specifically adsorbing formaldehyde and odorous components, which are indoor environmental pollutants, the indoor air environment can be purified strongly and satisfactorily.
(F). Granulated zeolite is a porous material that has both micropores of several angstrom units of the zeolite itself and macropores of the order of several μm between the granules, thereby improving the ventilation performance. The adsorption performance of harmful chemical substances such as formaldehyde and odorous components, which are indoor environmental pollutants, is sufficiently enhanced by increasing the surface area.

(G). To improve the adsorption capacity and humidity control capacity of harmful chemical substances and to improve the workability and landscape of the wall covering material with a surface zeolite layer and to make it difficult to peel off from the base material.
(H). By increasing the probability that the photocatalyst is exposed from the surface of the adhesive for the surface layer, the effective ratio of the photocatalyst capable of decomposing by contact with harmful chemical substances in the air is increased, and the efficiency and ability of the photocatalysis is increased.
(Li). The ability of the decomposition activity of the photocatalyst is sufficiently increased.

  (Nu). In place of the granular zeolite that is a constituent element of the present invention, when a granular porous object as a superordinate concept including this is used, or diatomaceous earth contained as a subordinate concept in this granular porous object・ When using a granular porous material of one kind of mixture arbitrarily selected from a total of nine kinds of substances of charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, perlite, and attapulgite, or these Mainly composed of a combination of two or more substances selected arbitrarily from a total of 10 substances: zeolite, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, perlite, and attapulgite When using a granular porous object of a mixture of things Oite also achieves the above object (i) to (i).

  In order to solve the above-mentioned problems, the wall covering material with a surface zeolite layer according to the present invention is configured as follows, for example, as shown in FIGS.

  FIG. 1 shows a first embodiment of a wall covering material with a surface zeolite layer according to the present invention, and is a longitudinal front view of a part of the wall covering material with a surface zeolite layer that is continuous to the left and right. FIG. 2 is an enlarged view of a portion II in FIG. FIG. 3 is an enlarged front view of a main part corresponding to FIG. 2, showing a state during the production of the wall covering material with the surface zeolite layer of FIGS. 1 and 2. FIG. 4 is a front view of a production apparatus showing a production process of the wall covering material with a surface zeolite layer in FIGS. 1 and 2.

5 shows Embodiment 2 of the wall covering material with a surface zeolite layer according to the present invention, and is an enlarged view of a portion V in FIG.
FIG. 6 shows a third embodiment of the wall covering material with a surface zeolite layer of the present invention, and is an enlarged view of a portion V in FIG.

The invention of claim 1. See FIG. 1, FIG. 2, FIG. 5, or FIG.
A zeolite or powdery or granular zeolite (2) is fixed to the surface of the substrate (1) to form a zeolite layer (3). The photocatalyst (4) is fixed to the surface of the powdery zeolite (2)... Forming the zeolite layer (3) to form the photocatalyst layer (5).

  The photocatalyst layer (5) forming the photocatalyst layer (5) and the granular zeolite (2) forming the zeolite layer (3) can be freely contacted with air in the atmosphere. It is characterized by that.

O Invention of claim 2. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 2 is characterized in that, in the invention of claim 1, the following characteristic configuration is added.

  The photocatalyst (4) forming the photocatalyst layer (5) is mainly composed of titanium oxide (6).

The invention of claim 3. See FIG. 1, FIG. 2, FIG. 5, or FIG.
Invention 3 of claim 3 is characterized in that in the invention of claim 1 or 2, the following characteristic configuration is added.

  At least one of monazite, quartz porphyry and tourmaline, which are negative ion generating substances (10), was added to at least one of the base material (1), zeolite (2) and photocatalyst (4). It is characterized by that.

The invention of claim 4. See FIG.
The invention of claim 4 is characterized in that, in the invention of claim 1, 2 or 3, the following characteristic configuration is added.

  The photocatalyst (4), which forms the photocatalyst layer (5), is a fibrous inorganic material previously formed on the surface of the granular zeolite (2) ... that forms the zeolite layer (3). The manufactured spacing member (7) is covered. Each of the photocatalysts (4) is fixed to the surface of the zeolite (2) through the spacers (7) so as not to be in direct contact with the surface layer adhesive (14). Features.

The invention of claim 5. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 5 is characterized in that in the invention of any one of claims 1-4, the following characteristic configuration is added.

  Each of the zeolites (2)... Forming the zeolite layer (3) is composed of a simple substance or a mixture of mordenite, clinoptilolite, artificial zeolite, or synthetic zeolite.

The invention of claim 6. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 6 is characterized in that, in the invention of any one of claims 1 to 5, the following characteristic configuration is added.

  Each zeolite (2)... Forming the zeolite layer (3) is made of a granulated zeolite obtained by granulating a mixture of powdered pulp and binder in a pulverized zeolite.

The invention of claim 7. See FIG. 1 and FIG.
The invention of claim 7 is characterized in that, in the invention of any one of claims 1 to 6, the following characteristic configuration is added.

  The base material (1) is composed of any one flexible film-like base material (8) selected from paper, cloth, cold water, synthetic resin film, heat insulating film or non-woven fabric. Features.

The invention of claim 8. See FIG. 1 and FIG.
The invention of claim 8 is characterized in that, in the invention of any one of claims 1 to 6, the following characteristic configuration is added.

  The base material (1) is made of a wall material, ceiling material, field plate, floor material, plate-like heat insulating material, plate material for packing, iron metal plate, non-ferrous metal plate, or industrial plate material. It consists of the plate-shaped base material (9) which has any one kind of shape retention property selected.

The invention of claim 9. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 9 is characterized in that, in the invention of any one of claims 1 to 8, the following characteristic configuration is added.

  Each of the granular zeolites (2)... Forming the zeolite layer (3) is made of zeolite having a particle size of 1 / 1000-12 mm.

The invention of claim 10. See FIG. 1, FIG. 2, FIG. 3 and FIG.
The invention of claim 10 is characterized in that, in the invention of any one of claims 1-9, the following characteristic configuration is added.

  A base layer adhesive (12) is applied to the surface of the substrate (1) to form a base layer adhesive layer (13), and the granular zeolite (2) is formed on the base layer adhesive layer (13). Is spread to form a zeolite layer (3). A surface layer adhesive (14) is applied to the surface of the powdery zeolite (2) to form a surface layer adhesive layer (15), and the photocatalyst (4) is formed on the surface layer adhesive layer (15). A photocatalyst layer (5) is formed by spraying the material dispersed in water.

  By drying the substrate (1), in which the base layer adhesive layer (13), the zeolite layer (3), the surface layer adhesive layer (15) and the photocatalyst layer (5) are sequentially formed, the substrate ( 1) Adhere the granular zeolite (2) to the surface of the base layer with the base layer adhesive (12) and attach the photocatalyst (4) to the surface of the granular zeolite (2). ). The surface layer adhesive (14) covers only a part of the surface of the granular zeolite (2) and the surface of the photocatalyst (4), but does not cover the rest. It is characterized by.

The invention of claim 11.
The invention of claim 11 is characterized in that, in the invention of claim 10, the following characteristic configuration is added.

  The surface layer adhesive (14) comprises a water-soluble adhesive (14). The water-soluble adhesive (14) is applied to the surface of the granular zeolite (2) to form a water-soluble surface adhesive layer (15). Suspended water of the photocatalyst (4) is sprayed on the surface of the water-soluble surface adhesive layer (15) to form the photocatalyst layer (5).

The amount of the suspension of the photocatalyst (4) applied to the water-soluble surface adhesive layer (15) is set in the range of 10-200 ml / m ² , and the photocatalyst to the water-soluble surface adhesive layer (15) is set. The amount of adhering was set within the range of 1-10 g / m ² .

The invention of claim 12. See FIG. 1, FIG. 2, FIG. 5, or FIG.
A twelfth aspect of the present invention is a wall covering material with a porous porous object layer according to any one of the first to eleventh aspects, wherein the following characteristic configuration is added.

The granular zeolite (2) was changed to a granular porous object (2) as a general concept including the zeolite, and the zeolite layer (3) was changed to a porous object layer (3).
A wall covering material with a surface porous object layer.

The invention of claim 13. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 13 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) includes one substance selected arbitrarily from a total of nine substances: diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, perlite, and attapulgite. Consisting of a powdered porous object whose main component is
A wall covering material with a surface porous object layer.

The invention of claim 14. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 14 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) is composed mainly of diatomaceous earth.
A wall covering material with a surface porous object layer.

The invention of claim 15. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 15 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) is composed mainly of charcoal.
A wall covering material with a surface porous object layer.

The invention of claim 16. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 16 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) is composed mainly of sepiolite.
A wall covering material with a surface porous object layer.

The invention of claim 17. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 17 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) is composed mainly of calcium silicate.
A wall covering material with a surface porous object layer.

The invention of claim 18. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 18 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) is composed mainly of kaolin.
A wall covering material with a surface porous object layer.

The invention of claim 19. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 19 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) is composed mainly of vermiculite.
A wall covering material with a surface porous object layer.

The invention of claim 20. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 20 is characterized in that, in the invention of claim 12, the following characteristic configuration is added.

The powdery porous object (2) includes a plurality of kinds arbitrarily selected from a total of ten kinds of substances including zeolite, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, pearlite, and attapulgite. Consisting of a granular porous body of a mixture of those containing as a main component a combination of:
A wall covering material with a surface porous object layer.

The invention of claim 21. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 21 is characterized in that, in the invention of claim 20, the following characteristic configuration is added.

The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two substances including zeolite and diatomaceous earth.
A wall covering material with a surface porous object layer.

The invention of claim 22. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 22 is characterized in that, in the invention of claim 20, the following characteristic configuration is added.

The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including zeolite and sepiolite.
A wall covering material with a surface porous object layer.

The invention of claim 23. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 23 is characterized in that the following feature configuration is added to the invention of claim 20.

The powdery porous object (2) is composed of a powdery porous object which is a mixture of at least two kinds of substances including zeolite and vermiculite.
A wall covering material with a surface porous object layer.

The invention of claim 24. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 24 is characterized in that, in the invention of claim 20, the following characteristic configuration is added.

The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including diatomaceous earth and sepiolite.
A wall covering material with a surface porous object layer.

The invention of claim 25. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 25 is characterized in that, in the invention of claim 20, the following characteristic configuration is added.

The powdery porous object (2) is composed of a powdery porous object that is a mixture of materials containing at least two kinds of substances, diatomaceous earth and vermiculite.
A wall covering material with a surface porous object layer.

The invention of claim 26. See FIG. 1, FIG. 2, FIG. 5, or FIG.
The invention of claim 26 is characterized in that, in the invention of claim 20, the following characteristic configuration is added.

The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including sepiolite and vermiculite.
A wall covering material with a surface porous object layer.

The wall covering material with a surface zeolite layer of the present invention has the following effects.
The invention of claim 1. See FIGS. 1, 2, 5, 6, 7, 8, and 9.
[Effect a. Combining zeolite (2) with photocatalyst (4) enhances the ability to decompose and remove harmful chemical substances in the air. ]

The invention of claim 1 has the following characteristic configuration.
The powdery or granular zeolite (2) is fixed to the surface of the substrate (1) to form a zeolite layer (3), and the surface of the granular zeolite (2) to form the zeolite layer (3) The photocatalyst (4) is fixed to the photocatalyst layer (5). The photocatalyst layer (5) forming the photocatalyst layer (5) and the granular zeolite (2) forming the zeolite layer (3) can be freely contacted with air in the atmosphere. did.

  Because of this characteristic configuration, zeolite (2) is an inorganic porous material and therefore has an action of adsorbing chemical substances. However, this adsorption capacity is limited. In addition, there are chemical substances that adsorb specifically and strongly, and there are substances that are separated immediately after being adsorbed. For this reason, when the purpose is to remove harmful chemical substances in the living space, it is necessary to have both the ability to adsorb harmful substances and the ability to decompose them, both in terms of immediate effect and sustainability.

  On the other hand, the photocatalyst (4) can absorb the energy of light existing in the vicinity and develop the ability to decompose harmful substances.

  FIG. 7 is a characteristic curve diagram of decomposition and removal of harmful chemical substances in the air. Characteristic curve A is the adsorption characteristic in the case of only zeolite, and characteristic curve B is the result of combining the zeolite according to claim 1 with a photocatalyst. Decomposes and removes. The characteristic curve C is a decomposition product of the characteristic curve B.

  FIG. 8 is a curve diagram of the decomposition and removal characteristics of formaldehyde gas in the air. Characteristic curve A shows the decomposition and removal characteristics when only the photocatalyst is used, and characteristic curve B shows the case where the photocatalyst is combined with the zeolite according to claim 1. Decomposes and removes.

  FIG. 9 is a characteristic curve diagram of decomposition and removal of methyl mercabtan gas in the air. Characteristic curve A shows the decomposition and removal characteristic when only the photocatalyst is used, and characteristic curve B is a combination of the photocatalyst and the zeolite according to claim 1. The decomposition removal characteristic in the case is shown.

  As shown in FIGS. 7, 8, and 9, the invention of claim 1 is capable of decomposing and removing harmful chemical substances in the air by combining the zeolite (2) with the photocatalyst (4). It was possible to increase.

O Invention of claim 2. See FIGS. 1, 2, 5, 6, and 10.
The invention of claim 2 has the following effect in addition to the [effect i] of the invention of claim 1 described above.

  [Effect b. Where weak ultraviolet rays are present, titanium oxide further enhances the ability to decompose and remove harmful chemical substances in the air. ]

The invention of claim 2 has the following characteristic configuration.
In the wall covering material with a surface zeolite layer according to the invention of claim 1, the photocatalyst (4) ... forming the photocatalyst layer (5) comprises titanium oxide (6) ... as a main component.

  From this characteristic configuration, titanium oxide (6) can exhibit its resolution in a very small amount of ultraviolet light contained in a room or the like. Titanium oxide (6) is a harmless and stable substance, for example, used in food additives and paints. Titanium oxide (6) used here is excellent in chemical substance decomposing ability. That is, it preferably has a crystal structure in which anatase type and rutile type coexist and has high crystallinity.

  Examples of the oxide semiconductor having a photocatalytic function include iron oxide, copper oxide, and tungsten oxide. Compared with these, titanium oxide has a higher ability to decompose and remove harmful chemical substances in the air.

  For example, FIG. 10 is a characteristic curve diagram of decomposition rates of harmful chemical substances of various photocatalytic substances, characteristic curve A shows copper oxide, B shows tungsten oxide, C shows iron oxide, and characteristic curve D shows the present claim. The case of titanium oxide according to the invention of Item 2 is shown.

The invention of claim 3. See FIGS. 1, 2, 5, and 6.
The invention of claim 3 has the following effects in addition to the [effect i] of the invention of claim 1 described above.

  [Effect C. The negative ion generating substance (10) can negatively ionize oxygen and water present in the air, so that (1) mind and body relaxation effect, (2) deodorizing action, and (3) antibacterial action can be obtained simultaneously. ]

The invention of claim 3 has the following characteristic configuration.
In the wall covering material with a surface zeolite layer according to claim 1 or 2,
At least one of monazite / quartz porphyry and tourmaline, which are negative ion generating substances (10), was added to at least one of the substrate (1), zeolite (2) and photocatalyst (4).

  From this characteristic configuration, the negative ion generating substance (10) converts oxygen and water present in the air into negative ions, so that (1) the mind-body relaxation effect, (2) deodorizing action, (3) antibacterial action, Obtained at the same time.

The invention of claim 4. See FIG.
The invention of claim 4 has the following effect in addition to the [effect i] of the invention of claim 1 described above.

  [Effects d. Since the surface layer adhesive (14) and the titanium oxide (6) are not in direct contact with each other, the adhesive is not decomposed due to the decomposition ability of the titanium oxide (6), and the adhesive (14) and the base material (1) Can be prevented over a long period of time, and its durability can be enhanced. ]

The invention of claim 4 has the following characteristic configuration.
The photocatalyst (4) ... forming the photocatalyst layer (5) according to the invention of claim 1, 2 or 3, before adhering to the surface of the granular zeolite (2) ... forming the zeolite layer (3) Further, the surface is previously coated with a spacing material (7) made of a fibrous inorganic material. Each photocatalyst (4) is fixed to the surface of the zeolite (2) through the spacer (7) so as not to be in direct contact with the surface layer adhesive (15).

  Because of this characteristic configuration, the surface of the titanium oxide (6) is coated with the inorganic spacing material (7) so that the surface layer adhesive (14) and the titanium oxide (6) are not in direct contact with each other. Due to the decomposition ability of (6), the adhesive is not decomposed, and the deterioration of the adhesive (14) and the base material (1) can be prevented over a long period of time, and its durability can be enhanced.

The invention of claim 5. See FIGS. 1, 2, 5, and 6.
The invention of claim 5 has the following effect in addition to the [effect i] of the invention of claim 1 described above.

  [Effect E. Zeolite (2) is particularly excellent in the property of specifically adsorbing formaldehyde and odorous components, which are indoor environmental pollutants, so that the indoor air environment can be purified strongly and satisfactorily. ]

The invention of claim 5 has the following characteristic configuration.
5. The invention according to claim 1, wherein each zeolite (2) forming the zeolite layer (3) is mordenite, clinoptilolite, artificial zeolite, or synthetic zeolite alone or Consists of a mixture.

  From this characteristic configuration, each zeolite (2)... Forming the zeolite layer (3) is a porous material mainly composed of silica and alumina, and has a skeletal structure having pores of several angstrom units. Formaldehyde and odor components that are indoor environmental pollutants because they are crystals, and these crystal particles are aggregated to form particles and have pores near the gap of 100 nm between crystal condensations. Is particularly excellent in the property of specifically adsorbing water, so that the indoor air environment can be purified strongly and satisfactorily.

The invention of claim 6. See FIGS. 1, 2, 5, and 6.
The invention of claim 6 has the following effect in addition to the [effect i] of the invention of claim 1 described above.

  [Effects. The granulated zeolite (2) is a porous material that has both micro pores of several angstrom units of the zeolite itself and macro pores of the order of several μm between the granulations. And widening the specific surface area can sufficiently enhance the adsorption performance of harmful chemical substances such as formaldehyde and odorous components that are indoor environmental pollutants. ]

The invention of claim 6 has the following characteristic configuration.
The invention according to any one of claims 1-5, wherein each zeolite (2) ... forming the zeolite layer (3) is granulated by mixing powdered pulp and a binder into a pulverized zeolite. It consists of granulated zeolite.

  From this characteristic configuration, granulated zeolite (2) can be made to adhere uniformly to the base material (1) by granulating zeolite (2). In addition, the design property can be established, and since it is a material having a sufficient gap of several μm order between granulations, the flexibility and the cutting property are improved, and the processing characteristics are improved.

  In addition, the granulated zeolite (2) is a porous material that has both micro pores of several angstrom units of the zeolite itself and macro pores of the order of several μm between the granulations. It is possible to increase the adsorption performance of harmful chemical substances such as formaldehyde and odorous components, which are indoor environmental pollutants, by increasing both the surface area and the specific surface area.

The invention of claim 9. See FIGS. 1, 2, 5, and 6.
The invention of claim 9 has the following effect in addition to the [effect i] of the invention of claim 1 described above.

  [Effects. Both the ability to adsorb and control the humidity of hazardous chemicals, the workability and landscape of the wall covering with a surface zeolite layer, and the difficulty of peeling off from the base material (1) Can be made. ]

The invention of claim 9 has the following characteristic configuration.
In the invention of any one of claims 1-8,
Each of the granular zeolites (2)... Forming the zeolite layer (3) is made of zeolite having a particle size of 1 / 1000-12 mm.

  From this characteristic configuration, each of the granular zeolites (2) has a problem that the adsorption ability / humidity adjustment ability of harmful chemical substances is low when the particle diameter is 1/1000 mm or less, and the surface when the particle diameter is 12 mm or more. As the surface roughness of the wall covering material with a zeolite layer becomes large, the workability and the landscape are deteriorated, and both the problem that the peeling from the base material (1) is likely to occur can be eliminated. Improving the adsorption capacity and humidity control capacity of the substance and improving the workability and landscape of the wall covering material with the surface zeolite layer and making it difficult to peel off from the base material (1). Can do.

The invention of claim 10. See FIG. 1, FIG. 2, FIG. 3 and FIG.
The invention of claim 10 has the following effects in addition to the [effect i] of the invention of claim 1.

  [Effect H. The probability that the photocatalyst (4) ... is exposed from the surface of the adhesive (14) for the surface layer increases, and the effective ratio of the photocatalyst (4) ... that can be decomposed by contact with harmful chemical substances in the air increases. Thus, the efficiency and ability of photocatalysis can be increased. ]

The invention of claim 10 has the following characteristic configuration.
In invention of any one of Claims 1-9, the base layer adhesive agent (12) is apply | coated to the surface of the said base material (1), and a base layer adhesive bond layer (13) is formed. The powdery zeolite (2)... Is dispersed on the base adhesive layer (13) to form the zeolite layer (3).
A surface layer adhesive (14) is applied to the surface of the powdery zeolite (2) to form a surface layer adhesive layer (15), and the photocatalyst (4) is formed on the surface layer adhesive layer (15). A photocatalyst layer (5) is formed by spraying the material dispersed in water.

  By drying the substrate (1), in which the base layer adhesive layer (13), the zeolite layer (3), the surface layer adhesive layer (15) and the photocatalyst layer (5) are sequentially formed, the substrate ( 1) Adhere the granular zeolite (2) to the surface of the base layer with the base layer adhesive (12) and attach the photocatalyst (4) to the surface of the granular zeolite (2). ).

  The surface layer adhesive (14) was configured to cover only a part of the surface of the granular zeolite (2) and the surface of the photocatalyst (4), but not the rest.

  Because of this characteristic configuration, the photocatalyst (4) is less likely to be buried inside the surface layer adhesive (14), and cannot be decomposed by contact with harmful chemical substances in the air (4). The photocatalyst (4) is more likely to be exposed from the surface of the adhesive (14) for the surface layer, and the photocatalyst that can be decomposed by contact with harmful chemical substances in the air, as the ineffective ratio becomes smaller. Since the effective ratio of (4) ... becomes large, the efficiency and ability of the photocatalytic action can be increased.

  For example, FIG. 11 is a characteristic curve of the amount of acetone produced by decomposition of propanol gas with titanium oxide, characteristic curve A shows the case where titanium oxide is kneaded into the surface adhesive layer (15), and characteristic curve B is A case where a photocatalyst (4) dispersed in water is sprayed on the surface adhesive layer (15) according to the invention of claim 10 is shown.

The invention of claim 11. See FIG. 1, FIG. 2, FIG. 3 and FIG.
The invention of claim 11 has the following effect in addition to [effect a] of the invention of claim 1 and [effect h] of the invention of claim 10.

  [Effects. The ability of the decomposition activity of the photocatalyst (4) could be sufficiently enhanced. ]

The invention of claim 11 has the following characteristic configuration.
The wall covering material with a surface zeolite layer according to claim 10, wherein the surface layer adhesive (14) comprises a water-soluble adhesive (14). This water-soluble adhesive (14) is applied to the surface of the granular zeolite (2) to form a water-soluble adhesive layer (15). Suspended water of the photocatalyst (4) is sprayed on the surface of the water-soluble surface adhesive layer (15) to form the photocatalyst layer (5).

The amount of the suspended water of the photocatalyst (4) applied to the water-soluble surface adhesive layer (15) is set in the range of 10-200 ml / m ² . The adhesion amount of the photocatalyst to the water-soluble surface adhesive layer (15) was set in the range of 1-10 g / m ² .

  From this characteristic configuration, utilizing the water-soluble adhesive for the surface layer (14), the suspended water of the photocatalyst (4) was sprayed on the surface of the surface adhesive layer (15) and dried. (The surface adhesive layer (15) melts when the aqueous photocatalyst solution is sprayed.) Here, the spraying amount and the photocatalyst adhesion amount were controlled in detail, and the conditions with the highest performance were found.

  When the application amount of the photocatalyst (4) is large, the surface adhesive layer (15) is softened, and the photocatalyst (4) is buried in the surface adhesive layer (15). As the proportion of the photocatalyst (4) embedded in the surface layer adhesive (14) increases, the contact ratio with the chemical substance in the air decreases, and the decomposition activity decreases remarkably. On the other hand, if the amount of the suspension of the photocatalyst (4) is small, the amount of the photocatalyst (4) is reduced and the photocatalytic action is insufficient.

In order to eliminate such degradation of the decomposition activity due to the burying of the photocatalyst (4) and the lack of photocatalytic action due to the decrease in the amount of the photocatalyst (4) attached, The application amount of the suspended water of the photocatalyst (4) is set in the range of 10-200 ml / m ² . The adhesion amount of the photocatalyst to the water-soluble surface adhesive layer (15) was set in the range of 1-10 g / m ² . As a result, the ability of the decomposition activity of the photocatalyst (4) could be sufficiently enhanced.

  For example, FIG. 12 is a characteristic curve diagram of the photocatalytic activity rate with respect to the photocatalyst adhesion amount, and FIG. 13 is a characteristic curve diagram of the photocatalytic activity rate with respect to the photocatalyst application amount.

The invention of claim 12. See FIGS. 1, 2, 5, 6, 7, 8, and 9.
[Effect Nu. The same effects as [Effects A] to [Effects] obtained by the inventions of claims 1 to 11 can be obtained. ]

The invention of a wall covering material with a surface porous object layer according to claim 12 has the following characteristic configuration.
In the invention of a wall covering material with a surface zeolite layer according to any one of claims 1-11,
The powdery zeolite (2) was changed to a powdery porous object (2) as a superordinate concept including this, and the zeolite layer (3) was changed to a porous object layer (3) It is characterized by.

The invention of claim 12 has the following effects from the above-described characteristic configuration.
As is well known, zeolite has the following (characteristic 1), (characteristic 2), and (problem 3).

(Characteristic 1). It has a humidity adjustment function and a dew condensation prevention function by absorbing and releasing moisture in a low humidity atmosphere.
(Characteristic 2). It has a deodorizing function by adsorbing harmful chemical substances such as formaldehyde gas and methyl mercaptan gas in the air.

(Problem 3). Since zeolite is an inorganic porous material, there is a limit to its ability to adsorb the harmful chemical substances, which makes it difficult to remove harmful chemical substances in living spaces over a long period of time. Have.

  Regarding the above (characteristic 1), (characteristic 2) and (problem 3) of this zeolite, the granular porous material as a superordinate concept including the granular zeolite (2) constituting the invention of claim 12 above The object (2) also has the same.

Accordingly, the invention of the wall covering material with a surface porous object layer according to claim 12 is the invention of a wall covering material with a surface zeolite layer according to any one of claims 1 to 11, wherein Since the granular zeolite (2) is changed to the granular porous body (2), the effects from [Effect A] to [Effect] produced by the inventions of the above claims 1-11. The same effect can be achieved.

The invention of claim 13-20. See FIGS. 1, 2, 5, 6, 7, 8, and 9.
[Effects. The same effects as [Effect A] to [Effect] obtained by the invention of claim 12 are exhibited. ]

  Each invention of a wall covering material with a surface porous object layer according to claim 13-20 is characterized in that, in the invention of a wall covering material with a surface porous object layer according to claim 12, the following characteristic configuration is added. To do.

In the invention of claim 13, the powdery porous object (2) may be arbitrarily selected from a total of nine substances including diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, perlite, and attapulgite. Consists of a selected mixture of granular porous objects.

According to a fourteenth aspect of the present invention, the granular porous object (2) is composed mainly of diatomaceous earth.
According to a fifteenth aspect of the present invention, the granular porous object (2) is composed mainly of charcoal.

According to a sixteenth aspect of the present invention, the granular porous object (2) is composed mainly of sepiolite.
According to a seventeenth aspect of the present invention, the granular porous object (2) is composed mainly of calcium silicate.

The invention of claim 18 is characterized in that the powdery porous object (2) is composed mainly of kaolin.
According to a nineteenth aspect of the present invention, the granular porous object (2) is composed mainly of vermiculite.

  The invention according to claim 20 is characterized in that the powdery porous object (2) includes a total of 10 substances including zeolite, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, pearlite, and attapulgite. It consists of a powdered porous body of a mixture of a material mainly containing a combination of a plurality of kinds of substances selected arbitrarily.

  Each invention of claims 13 to 20 is dependent on the invention of claim 12 and has the configuration of the invention of claim 12, and therefore, from the above [effects a] to [effects] produced by the invention of claim 12. It is possible to achieve the same effects as the above effects.

The invention of claims 21-26. See FIGS. 1, 2, 5, 6, 7, 8, and 9.
[Effect O. The same effects as [Effect A] to [Effect] obtained by the invention of claim 20 are exhibited. ]

  Each invention of the wall covering with a surface porous object layer according to claim 21-26 is characterized in that, in the invention of a wall covering with a surface porous object layer according to claim 20, the following characteristic configuration is added. To do.

According to the invention of claim 21, the powdery porous object (2) comprises a powdery porous object which is a mixture of at least two kinds of substances including zeolite and diatomaceous earth.

According to a twenty-second aspect of the present invention, the powdery porous object (2) comprises a powdery porous object which is a mixture of at least two kinds of substances including zeolite and sepiolite.

  According to a twenty-third aspect of the present invention, the powdery porous object (2) comprises a powdery porous object that is a mixture of at least two kinds of substances including zeolite and vermiculite.

  According to a twenty-fourth aspect of the present invention, the powdery porous object (2) comprises a powdery porous object that is a mixture of at least two kinds of substances including diatomaceous earth and sepiolite.

  According to a twenty-fifth aspect of the present invention, the powdery porous object (2) comprises a powdery porous object that is a mixture of at least two substances including diatomaceous earth and vermiculite.

  According to a twenty-sixth aspect of the present invention, the powdery porous object (2) comprises a powdery porous object that is a mixture of at least two kinds of substances including sepiolite and vermiculite.

  Each invention of claims 21-26 is dependent on the invention of claim 20, and has the structure of the invention of claim 20, so that the effects of the invention of claim 20 from the above [effects a] to [effects]. It is possible to achieve the same effects as the above effects.

Hereinafter, embodiments of a wall covering material with a surface zeolite layer of the present invention will be described with reference to the drawings.
Embodiment 1 Invention of Claims 1-3 and 5-11. See FIGS. 1-4.

  FIG. 1 shows a first embodiment of a wall covering material with a surface zeolite layer according to the present invention, and is a longitudinal front view of a part of the wall covering material with a surface zeolite layer that is continuous to the left and right. FIG. 2 is an enlarged view of a portion II in FIG.

  As shown in FIGS. 1 and 2, powdery or granular zeolite (2)... Is fixed to the surface of the substrate (1) to form a zeolite layer (3). The photocatalyst (4) is fixed to the surface of the powdery zeolite (2)... Forming the zeolite layer (3) to form the photocatalyst layer (5). The photocatalyst layer (5) forming the photocatalyst layer (5) and the granular zeolite (2) forming the zeolite layer (3) can be freely contacted with air in the atmosphere. To do.

  The photocatalyst (4)... Forming the photocatalyst layer (5) has titanium oxide (6). At least one of monazite, quartz porphyry and tourmaline, which are negative ion generating substances (10), is added to at least one of the base material (1), zeolite (2) and photocatalyst (4).

  Each zeolite (2)... Forming the zeolite layer (3) is composed of a simple substance or a mixture of mordenite, clinoptilolite, artificial zeolite, or synthetic zeolite. Alternatively, each zeolite (2)... Forming the zeolite layer (3) is made of granulated zeolite obtained by pulverizing zeolite and mixing granulated powder pulp and binder.

  The base material (1) is made of any one of flexible film-like base materials (8) selected from paper, cloth, cold water, synthetic resin film, heat insulating film or non-woven fabric. Alternatively, the base material (1) is made of a wall material, a ceiling material, a base plate, a floor material, a plate-like heat insulating material, a packing plate material, an iron-based metal plate, a non-ferrous metal plate, or an industrial plate-like material. It consists of a plate-like substrate (9) having any one of the shape-retaining properties selected from among them. Each of the granular zeolites (2)... Forming the zeolite layer (3) is made of zeolite having a particle size of 1 / 1000-12 mm.

  FIG. 3 is an enlarged front view of a main part corresponding to FIG. 2, showing a state during the production of the wall covering material with the surface zeolite layer of FIGS. 1 and 2. FIG. 4 is a front view of a production apparatus showing a production process of the wall covering material with a surface zeolite layer in FIGS. 1 and 2.

  In FIG. 4, reference numeral (21) denotes a feeding device for the flexible film-like substrate (8), (22) denotes a belt conveyor, and (23) denotes a winding device. (24) is a roller-type coating device for adhesive (12) for the base layer, (25) is a spraying device for zeolite (2), (26) is a roller-type coating device for adhesive (14) for the surface layer . (27) is a device for spraying suspended water of the photocatalyst (4)... And the negative ion generating material (10), and (28) is a drying device.

  As shown in FIGS. 3 and 4, a base layer adhesive layer (13) is formed by applying a base layer adhesive (12) to the surface of the substrate (1). The powdery zeolite (2)... Is dispersed on the base adhesive layer (13) to form the zeolite layer (3). A surface layer adhesive (14) is applied to the surface of the powdery zeolite (2) to form a surface layer adhesive layer (15). A photocatalyst layer (5) is formed by spraying the surface adhesive layer (15) with the photocatalyst (4) dispersed in water.

  By drying the base layer adhesive layer (13), the zeolite layer (3), the surface layer adhesive layer (15) and the photocatalyst layer (5) in this order on the base material (1), FIG. As shown, while adhering the granular zeolite (2) to the surface of the substrate (1) with the base layer adhesive (12), the photocatalyst (4) is applied to the surface of the granular zeolite (2). Adhere with the surface adhesive (14). The surface layer adhesive (14) covers only a part of the surface of the granular zeolite (2) and the surface of the photocatalyst (4), but does not cover the rest.

  The surface layer adhesive (14) comprises a water-soluble adhesive (14). The water-soluble adhesive (14) is applied to the surface of the granular zeolite (2) to form a water-soluble surface adhesive layer (15). Suspended water of the photocatalyst (4) and the negative ion generating substance (10) is sprayed onto the surface of the water-soluble surface adhesive layer (15) to form the photocatalyst layer (5). As the negative ion generating material (10), at least one of monazite, quartz porphyry and tourmaline is used.

The amount of the suspension of the photocatalyst (4) applied to the water-soluble surface adhesive layer (15) is set in the range of 10-200 ml / m ² , and the photocatalyst to the water-soluble surface adhesive layer (15) is set. The adhesion amount is set in the range of 1-10 g / m ² .

Embodiment 2 Invention of Claim 4. See FIG.
5 shows Embodiment 2 of the wall covering material with a surface zeolite layer according to the present invention, and is an enlarged view of a portion V in FIG.
In the second embodiment, a part of the configuration of the first embodiment is changed as follows.

  The photocatalyst (4), which forms the photocatalyst layer (5), is a fibrous inorganic material previously formed on the surface of the granular zeolite (2) ... that forms the zeolite layer (3). The manufactured spacing member (7) is covered.

  Each photocatalyst (4) is fixed to the surface of the zeolite (2) through the spacer (7) so as not to be in direct contact with the adhesive for the surface layer (14). .

Embodiment 3 Invention of Claims 1-3 and 5-11. See FIG.
FIG. 6 shows a third embodiment of the wall covering material with a surface zeolite layer of the present invention, and is an enlarged view of a portion V in FIG.
In the third embodiment, a part of the configuration of the first embodiment is changed as follows.

  On the surface of the zeolite (2) in the zeolite layer (3) on the base adhesive layer (13) on the surface of the substrate (1), the surface layer adhesive (14) and titanium oxide (6). A surface adhesive layer (15) and a photocatalyst layer (5) are formed at the same time. As a result, a part of the titanium oxide (6) is exposed on the surface of the surface layer adhesive (12) and the rest is buried in the surface layer adhesive (12). It is.

  In this case, it is excellent in that the surface adhesive layer (15) and the photocatalyst layer (5) can be formed simultaneously by one application. However, the remaining titanium oxide (6) embedded in the surface layer adhesive (12) cannot be exposed to the air, which is disadvantageous in that it does not act as a photocatalyst.

In the following, embodiments of the wall covering material with a surface porous object layer of the present invention will be described with reference to the drawings.
Embodiment 4 The invention of claims 12-19. See FIGS. 1-4, 5 and 6. FIG.

This Embodiment 4 is a wall covering material with a surface porous object layer in which a part of the configuration of Embodiments 1, 2 or 3 is changed as follows.
In the configuration of Embodiment 1, 2 or 3, the granular zeolite (2) is changed to a granular porous object (2) as a superordinate concept including the zeolite, and the zeolite layer (3) Change to a porous body layer (3).

  The powdery porous object (2) includes one substance arbitrarily selected from a total of nine substances including diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, pearlite, and attapulgite. It is a wall covering material with a surface porous object layer characterized by comprising a granular porous object mainly composed of

Embodiment 5 The invention of claims 20-26. See FIGS. 1-4, 5 and 6. FIG.
This Embodiment 5 is a wall covering material with a surface porous object layer in which the structure of Embodiment 1, 2 or 3 is partially changed as follows.

  In the configuration of Embodiment 1, 2 or 3, the granular zeolite (2) is changed to a granular porous object (2) as a superordinate concept including the zeolite, and the zeolite layer (3) Change to a porous body layer (3).

  As this powdery porous object (2), there are two kinds selected from a total of ten kinds of substances including zeolite, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, pearlite, and attapulgite. A wall covering with a surface porous object layer, characterized in that it consists of a granular porous object of a mixture mainly composed of a combination of a plurality of substances such as three or four kinds.

  Combinations of two or more substances arbitrarily selected from the ten substances of zeolite, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, perlite, and attapulgite are described below [1. ]-[6] It is preferable to select any one item.

  [1]. The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including zeolite and diatomaceous earth.

[2]. The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including zeolite and sepiolite.

  [3]. The powdery porous object (2) is composed of a powdery porous object which is a mixture of at least two kinds of substances including zeolite and vermiculite.

  [4]. The powdery porous object (2) is composed of a powdery porous object that is a mixture of materials containing at least two kinds of substances, diatomaceous earth and sepiolite.

  [5]. The powdery porous object (2) is composed of a powdery porous object which is a mixture of materials containing at least two kinds of substances, diatomaceous earth and vermiculite.

  [6]. The granular porous object (2) is composed of a granular porous object that is a mixture of at least two kinds of substances including sepiolite and vermiculite.

  The wall material with a surface zeolite layer and the wall material with a surface porous object layer of the present invention are, for example, paper, cloth, cold water, synthetic resin film, heat insulating film, or non-woven fabric used for wallpaper or the like. It is suitable for wall materials, ceiling materials, field boards, floor materials, plate-like heat insulating materials, plate materials for packing, ferrous metal plates, non-ferrous metal plates, or industrial plate materials.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a first embodiment of a wall covering with a surface zeolite layer according to the present invention and is a longitudinal front view of a part of the wall covering with a surface zeolite layer that is continuous to the left and right. The II section enlarged view of FIG. The principal part enlarged front view corresponding to FIG. 2 which shows the state in the middle of manufacture of the wall covering material with the surface zeolite layer of FIG.1, FIG.2. The front view of the manufacturing apparatus which shows the manufacturing process of the wall covering material with the surface zeolite layer of FIG. 1, FIG.

Embodiment 2 of the wall covering material with a surface zeolite layer of the present invention is shown, and an enlarged view of a portion V in FIG. Embodiment 3 of the wall covering material with a surface zeolite layer of the present invention is shown, and an enlarged view of a portion V in FIG.

Decomposition and removal characteristic curve of harmful chemical substances of a combination of zeolite and photocatalyst. Decomposition removal characteristic curve diagram of formaldehyde gas of a combination of zeolite and photocatalyst. Decomposition and removal characteristic curve of methyl mercabtan gas with zeolite combined with photocatalyst.

The degradation rate characteristic curve figure of the harmful chemical substance of various photocatalytic substances. The acetone production amount characteristic curve figure by decomposition | disassembly of the propanol gas in a titanium oxide. The characteristic curve figure of the photocatalyst activity rate with respect to the photocatalyst adhesion amount. The characteristic curve figure of the photocatalyst activity rate with respect to the photocatalyst application amount.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Base material, 2 ... Zeolite (porous object, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, pearlite, or attapulgite), 3 ... zeolite layer (porous object layer), 4 ... photocatalyst, 5 DESCRIPTION OF SYMBOLS ... Photocatalyst layer, 6 ... Titanium oxide, 7 ... Spacer, 8 ... Film-like base material, 9 ... Plate-like base material, 10 ... Negative ion generating material, 12 ... Base layer adhesive, 13 ... Base layer adhesive layer, 14 ... Adhesive for surface layer, 15 ... Surface adhesive layer.

Claims (26)

The powdery or granular zeolite (2) is fixed to the surface of the substrate (1) to form a zeolite layer (3), and the surface of the granular zeolite (2) to form the zeolite layer (3) The photocatalyst (4) is fixed to the photocatalyst layer (5),
The photocatalyst layer (5) forming the photocatalyst layer (5) and the granular zeolite (2) forming the zeolite layer (3) can be freely contacted with air in the atmosphere. did,
A wall covering material with a surface zeolite layer characterized by the above. In the wall covering with a surface zeolite layer according to claim 1,
The photocatalyst (4) forming the photocatalyst layer (5) is mainly composed of titanium oxide (6).
A wall covering material with a surface zeolite layer characterized by the above. In the wall covering material with a surface zeolite layer according to claim 1 or 2,
At least one of monazite, quartz porphyry and tourmaline, which are negative ion generating substances (10), was added to at least one of the base material (1), zeolite (2) and photocatalyst (4).
A wall covering material with a surface zeolite layer characterized by the above. In the wall covering material with the surface zeolite layer according to claim 1, 2 or 3,
The photocatalyst (4), which forms the photocatalyst layer (5), is a fibrous inorganic material previously formed on the surface of the granular zeolite (2) ... that forms the zeolite layer (3). The spacing material (7) made of ... is covered,
Each photocatalyst (4) is fixed to the surface of the zeolite (2) through the spacer (7) so that it is not in direct contact with the adhesive for the surface layer (14).
A wall covering material with a surface zeolite layer characterized by the above. The wall covering material with a surface zeolite layer according to any one of claims 1 to 4,
Each zeolite (2) ... forming the zeolite layer (3) is composed of a simple substance or a mixture of mordenite, clinoptilolite, artificial zeolite, or synthetic zeolite.
A wall covering material with a surface zeolite layer characterized by the above. The wall covering with a surface zeolite layer according to any one of claims 1 to 5,
Each zeolite (2) ... forming the zeolite layer (3) is composed of granulated zeolite obtained by granulating a mixture of powdered pulp and binder into a pulverized zeolite.
A wall covering material with a surface zeolite layer characterized by the above. The wall covering material with a surface zeolite layer according to any one of claims 1 to 6,
The base material (1) is composed of any one kind of flexible film-like base material (8) selected from paper, cloth, cold water, synthetic resin film, heat insulating film or non-woven fabric.
A wall covering material with a surface zeolite layer characterized by the above. The wall covering material with a surface zeolite layer according to any one of claims 1 to 6,
The base material (1) is made of a wall material, ceiling material, field plate, floor material, plate-like heat insulating material, plate material for packing, iron metal plate, non-ferrous metal plate, or industrial plate material. It consists of a plate-like substrate (9) having any one of the selected shape-retaining properties,
A wall covering material with a surface zeolite layer characterized by the above. The wall covering material with a surface zeolite layer according to any one of claims 1 to 8,
Each of the granular zeolites (2)... Forming the zeolite layer (3) is made of zeolite having a particle size of 1 / 1000-12 mm.
A wall covering material with a surface zeolite layer characterized by the above. The wall covering material with a surface zeolite layer according to any one of claims 1 to 9,
A base layer adhesive (12) is applied to the surface of the substrate (1) to form a base layer adhesive layer (13), and the granular zeolite (2) is formed on the base layer adhesive layer (13). ... to form a zeolite layer (3)
A surface layer adhesive (14) is applied to the surface of the powdery zeolite (2) to form a surface layer adhesive layer (15), and the photocatalyst (4) is formed on the surface layer adhesive layer (15). A photocatalyst layer (5) is formed by spraying what is dispersed in water,
By drying the substrate (1), in which the base layer adhesive layer (13), the zeolite layer (3), the surface layer adhesive layer (15) and the photocatalyst layer (5) are sequentially formed, the substrate ( 1) Adhere the granular zeolite (2) to the surface of the base layer with the base layer adhesive (12) and attach the photocatalyst (4) to the surface of the granular zeolite (2). )
The surface layer adhesive (14) is configured to cover only a part of the surface of the granular zeolite (2) and the surface of the photocatalyst (4), but not the rest.
A wall covering material with a surface zeolite layer characterized by the above. The wall covering material with a surface zeolite layer according to claim 10,
The surface layer adhesive (14) is composed of a water-soluble adhesive (14), and this water-soluble adhesive (14) is applied to the surface of the granular zeolite (2) to adhere to the water-soluble surface layer. The agent layer (15) is formed, and the photocatalyst layer (5) is sprayed on the surface of the water-soluble surface adhesive layer (15) to form the photocatalyst layer (5).
The amount of the suspension of the photocatalyst (4) applied to the water-soluble surface adhesive layer (15) is set in the range of 10-200 ml / m ² , and the photocatalyst to the water-soluble surface adhesive layer (15) is set. The adhesion amount of was set within the range of 1-10 g / m ² ,
A wall covering material with a surface zeolite layer characterized by the above. The wall covering material with a surface zeolite layer according to any one of claims 1 to 11,
The granular zeolite (2) was changed to a granular porous object (2) as a general concept including the zeolite, and the zeolite layer (3) was changed to a porous object layer (3).
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 12,
The powdery porous object (2) includes one substance selected arbitrarily from a total of nine substances: diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, perlite, and attapulgite. Consisting of a powdered porous object whose main component is
A wall covering material with a surface porous object layer. The wall covering material with a surface porous substance body layer according to claim 12,
The powdery porous object (2) is composed mainly of diatomaceous earth.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous substance body layer according to claim 12,
The powdery porous object (2) is composed mainly of charcoal.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous substance body layer according to claim 12,
The powdery porous object (2) is composed mainly of sepiolite.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous substance body layer according to claim 12,
The powdery porous object (2) is composed mainly of calcium silicate.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous substance body layer according to claim 12,
The powdery porous object (2) is composed mainly of kaolin.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous substance body layer according to claim 12,
The powdery porous object (2) is composed mainly of vermiculite.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 12,
The powdery porous object (2) includes a plurality of kinds arbitrarily selected from a total of ten kinds of substances including zeolite, diatomaceous earth, charcoal, sepiolite, calcium silicate, kaolin, vermiculite, cristobalite, pearlite, and attapulgite. Consisting of a granular porous body of a mixture of those containing as a main component a combination of:
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 20,
The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two substances including zeolite and diatomaceous earth.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 20,
The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including zeolite and sepiolite.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 20,
The powdery porous object (2) is composed of a powdery porous object which is a mixture of at least two kinds of substances including zeolite and vermiculite.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 20,
The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including diatomaceous earth and sepiolite.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 20,
The powdery porous object (2) is composed of a powdery porous object that is a mixture of materials containing at least two kinds of substances, diatomaceous earth and vermiculite.
A wall covering material with a surface porous object layer. The wall covering material with a surface porous object layer according to claim 20,
The powdery porous object (2) is composed of a powdery porous object that is a mixture of at least two kinds of substances including sepiolite and vermiculite.
A wall covering material with a surface porous object layer.

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