JPWO2003044112A1 - Coating agent, bag or molded article coated with the same, and coating method - Google Patents

Abstract

In order to enable the function of the functional substance to continue to be exhibited effectively over a long period of time, in the present invention, water dispersion, which is a resin having air permeability after curing by curing in an amorphous state. The present invention provides a coating agent comprising a mold resin mixed with a functional substance having a special function such as antibacterial, antibacterial, sterilization, deodorization, deodorization, fouling, fragrance, and phosphorescence. In particular, the surface of the rectangular sheet is coated with the coating agent, and then the sheet is bent with the coating surface as the inner surface, and the edges of the inner surface are bonded to each other using the adhesive force of the coating agent. Formed.

Description

Technical field
The present invention relates to a coating agent, a bag or a molded article coated with the coating agent, and a coating method.
Background art
Conventionally, molded articles such as various trays, toilets, paper and bags have been widely used in daily life, and in recent years, added values such as sterilization and deodorization have been added to the original functions of the molded articles. Yes.
For example, conventionally, a functional substance having a special function such as titanium oxide having a sterilizing and deodorizing function or activated carbon having a deodorizing function is applied to the surface of the molded body using a resin such as polyester as a binder. there were.
However, in a molded body in which a functional substance is applied to the surface of a molded body using a normal polyester resin as a binder, the function of the functional substance cannot be continued for a long period of time.
This is because the polyester resin used as a binder is not breathable, so the surface of the functional substance itself is coated with a non-breathable polyester resin, and the functional substance and air cannot contact, This is because the function of the functional substance cannot be continuously exhibited.
Disclosure of the invention
The present invention has a special function such as antibacterial, antibacterial, sterilization, deodorization, deodorization, deodorization, fragrance, and phosphorescence in a water-dispersed resin that is air permeable after curing by curing in an amorphous state. It is related with the coating agent formed by mixing the functional substance which has.
Then, the surface of the rectangular sheet is coated with the coating agent, and then the sheet is bent with the coating surface as the inner surface, and the edges of the inner surfaces are bonded together using the adhesive force of the coating agent. It relates to a characteristic bag.
In addition, the coating agent is coated on the entire surface of one side half and the edge of the other half on the surface of the rectangular sheet, and then the sheet is bent with the coating surface as the inner surface, and the inner surface edge It is related with the bag characterized by adhere | attaching using the adhesive force of the said coating agent.
Further, the present invention relates to a molded article characterized in that the coating agent is adhered to the surface.
In particular, the molded body has air permeability.
The present invention also relates to a coating method characterized by forming a coating film having viscosity on the surface after the coating agent is applied to the surface.
In particular, a mucus that covers the surface of terrestrial snails belonging to the slug family and the amphipod family is used as the viscous coating film.
BEST MODE FOR CARRYING OUT THE INVENTION
The coating agent according to the present invention is a special resin such as antibacterial, disinfecting, deodorizing, deodorizing, antifouling, aroma, and phosphorescence in a water-dispersed resin that is air permeable after curing by curing in an amorphous state. A functional substance having a function is mixed.
The functional substances mentioned here include titanium oxide having antibacterial, antibacterial and deodorizing functions, charcoal having a deodorizing function (activated carbon, etc.), honey and catechin having antifungal functions, fragrances that emit various fragrances, light There is a substance having a special function such as a phosphorescent material that emits light after absorbing light.
In addition, as the water-dispersible resin, a non-crystalline state such as a water-dispersible polyester resin (Toyobo's Vylonal (registered trademark), Unitika's Eritel (registered trademark), Mitsubishi Rayon's Dianal (registered trademark), etc.) There are various resins that are air permeable (breathable) after curing. The water-dispersed polyester resin described above may be used alone, may be a mixture of these, or may have a heat seal function capable of thermocompression bonding.
And, the coating agent according to the present invention is antibacterial, disinfecting, deodorizing, deodorizing, antifouling, aroma, phosphorescence, etc. in a water-dispersed resin that is air-permeable after curing by curing in an amorphous state. Since the functional substance having a special function is mixed, even if the water-dispersed resin is cured after coating on a sheet or bag, the cured water-dispersed resin has air permeability. Various special functions possessed by can be continuously and effectively exhibited over a long period of time.
That is, even after the water-dispersible resin is cured, the water-dispersible resin itself has air permeability, so that the surface of the functional substance itself is covered with the air-permeable resin. The functional material and air can be satisfactorily brought into contact by utilizing the air permeability of the material, and the function of the functional material can be effectively exhibited continuously over a long period of time.
In addition, it has translucency when the water-dispersed resin is cured, so that ultraviolet rays and visible rays can pass through the binder, and these ultraviolet rays and visible rays enter the functional substance. It is possible to make the functional substance perform its function.
Moreover, in this invention, the said coating agent is made to adhere to the surface of the molded object which has air permeability.
The molded body here may be an object having various forms, and the material may be various materials such as metal, wood, paper, and clay, and is not particularly limited.
In addition, the molded article having air permeability may be a molded body perforated with a ventilation hole, or may be a molded article made of a breathable substance having air permeability. Here, as the air permeable substance, there are air permeable substances such as paper, wood, fiber, non-woven fabric, clay and sponge.
As a method of attaching the coating agent to the surface of the molded body, a method of applying a functional substance to the surface of the molded body using a water-dispersed resin as a binder, There are a method of molding after mixing with a dispersion resin, and a method of immersing the molded body in a solution containing a functional substance and a water dispersion resin as main raw materials.
As described above, the molded article according to the present invention is obtained by attaching a functional substance having a special function to the surface of a molded article formed by molding a breathable substance having a breathability using a water-dispersed resin. Therefore, various special functions possessed by the functional substance can be continuously and effectively exhibited over a long period of time.
In other words, since a water-dispersed resin is used as the binder, it has translucency when the binder is cured, so that ultraviolet rays and visible rays can pass through the binder, and these ultraviolet rays and visible rays can be transmitted. The light can enter the functional substance so that the functional substance performs its function. In addition, even after the binder is cured, the binder itself has air permeability, so that the surface of the functional substance itself is coated with an air permeable resin. Thus, the functional substance can be brought into good contact with air. Therefore, the function of the functional substance is effectively exhibited continuously over a long period of time.
Moreover, if the raw material of the molded body itself has air permeability, the functional substance and air can be satisfactorily brought into contact with each other by utilizing the air permeability of the molded body itself. The function of the functional substance is effectively exhibited continuously over a long period of time.
And the added value of a molded object can be improved further by being able to exhibit the function of the functional substance adhered to the surface of the molded object over a long period of time.
In particular, when the functional material is applied to the surface of the molded body using a water-dispersed resin as a binder, the functional material can be reliably attached to the surface of the molded body that comes into contact with air. The function of the functional substance can be continuously and effectively exhibited over a long period of time, and the added value of the molded body can be further improved.
In addition, when the air-permeable material is molded after mixing the functional material with a water-dispersible resin as a binder, the functional material can be contained even inside the air-permeable molded product. Since a large amount of functional substances can be contained in this, the functions of the functional substances can be continuously and effectively exerted over a long period of time, thereby further improving the added value of the molded product. It can be made to.
In addition, when the molded body is immersed in a solution containing a functional substance and a water-dispersed resin as main raw materials, the functional substance can be contained even inside the molded body having air permeability. Since a large amount of a functional substance can be contained, the function of the functional substance can be continuously and effectively exhibited over a long period of time, thereby further improving the added value of the molded body. It is something that can be done.
In addition, by forming a plurality of through holes in the molded body using a needle or the like, the air permeability can be further improved, thereby further improving the contact between the functional substance and air. Can do.
In addition, when a colorant is added to a solution containing a functional substance and a water-dispersed resin as the main raw material and is attached to the surface of the molded body by printing, the colorant is mixed by mixing the medium with the solution. And the water-dispersible resin can be evenly blended, and the connection between the colorant and the water-dispersible resin can be strengthened, especially when printing on glass-based substances. By mixing silica, the adhesion to the surface of the glass-based substance can be improved.
And this invention should just be a molded object made to adhere to the surface using the functional substance which has a special function as a binder using water-dispersion type resin, a poster, various tickets, a picture, an envelope, a packaging bag, and medicine It may be a molded body made of paper such as an outer bag, wallpaper, cardboard or various trays, a molded body made of wood such as a pillar, wall or box, or a molded body made of clay such as ceramics or porcelain. Functional materials such as activated carbon and catechin may be used.
Other application examples include a wide range of applications such as flower pots, seedling covers, fruit bags, insect-proof panels and insect-proof sheets, slippers, writing instruments, grips, trash cans, water purifiers, and the like.
In particular, if the material of the sheet or bag itself is breathable, the functional substance can be brought into good contact with the air by utilizing the breathability of the material itself. This function will be effectively demonstrated continuously over a long period of time. In addition, when the material itself is breathable, when the surface of the material is coated with a coating agent, the coating agent penetrates to the back of the material, and the coating agent spreads on both sides of the material. Can be demonstrated on both sides of the material.
Further, the contact between the functional substance and air can be further improved by forming a plurality of vent holes using a needle or the like in the sheet or bag.
And the added value of a molded object can be improved further by being able to exhibit the function of the functional substance adhering to the surface of a sheet | seat or a bag over a long period of time.
In addition, when adding a colorant to a coating agent mainly composed of a functional substance and a water-dispersible resin, and attaching it to the surface of a sheet or bag by printing, medium is mixed in the coating agent. The colorant and the water-dispersible resin can be blended uniformly, and the connection between the colorant and the water-dispersible resin can be strengthened, especially when printing on glass-based substances. By adding silica to the solution, the adhesion to the surface of the glass-based substance can be improved.
As described above, since the coating agent according to the present invention is obtained by mixing a functional substance into a water-dispersed resin, various special functions possessed by the functional substance are continuously effective over a long period of time. It can continue to be demonstrated.
Further, by coating the surface of the sheet or bag with such a coating agent, it is possible to add value to the sheet or bag. The surface of the bag is not limited to the outer surface of the bag, but may include the inner surface of the bag, and may coat only the outer surface or only the inner surface.
In particular, when the coating agent is coated on the surface of a rectangular sheet, and then the sheet is bent with the coating surface as the inner surface, and the edges of the inner surfaces are bonded together to form a bag, Coated bags can be easily manufactured.
In addition, when bonding the edges of the inner side surfaces, if the edges are thermally welded using the thermosetting property of the coating agent, the step of applying the adhesive to the edges can be omitted. Further, the manufacturing can be further facilitated, and the manufacturing cost can be reduced.
In addition, the coating agent is coated on the entire surface of one side half of the surface of the rectangular sheet and the edge of the other half, and then the sheet is bent with the coating surface as the inner surface, When the bag is formed by bonding, the inner side surfaces of the bag are bonded to each other even if printing is performed on the outer side surface of the bag using a printing device that involves heating on the outer side surface of the bag. It is possible to improve usability.
Moreover, in this invention, after apply | coating the said coating agent on the surface, the coating film which has viscosity on the surface is formed. In particular, mucus that covers the body surface of land snails belonging to the slug family and the amphipod family is used as a viscous coating film.
In this way, when the coating surface is covered with a viscous coating film, it is possible to prevent shellfish, barnacles, dust, etc. from adhering to the surface, and the coating film is formed with mucus covering the body surface of living organisms. In this case, even if the coating film is peeled off from the surface, the peeled coating film is naturally decomposed and reduced to the natural ecosystem, and there is an effect that no new dust is generated.
Furthermore, what adhered the functional substance which has a special function on the surface of a plant using water-dispersed resin as a binder may be used. Here, the surface of the plant may be a surface of a trunk or a leaf, or a cut surface obtained by cutting the trunk.
In this way, by attaching a functional substance having a special function to the surface of a plant using a water-dispersed resin as a binder, the plant itself can be purified by the action of the functional substance, and pests are controlled. The plant can be cultivated well, and a new plant growth form different from the conventional plant growth form can be formed.
That is, conventionally, in growing plants, it has been carried out by spraying agricultural chemicals on the plants or spreading fertilizers on the soil. However, these pesticides and fertilizers contain organic substances, are harmful to the human body, and cause natural destruction. In recent years, efforts have been made to reduce their use as much as possible. Therefore, as described above, by attaching a functional substance to the surface of the plant using a water-dispersed resin as a binder, the plant itself can be purified by the action of the functional substance, and pests can be controlled. So it can reduce the use of pesticides and fertilizers.
In addition, as a method of attaching a functional substance to a plant surface using a water-dispersible resin as a binder, a functional substance such as titanium oxide in a solution obtained by diluting the water-dispersible resin with water or alcohol about 100 times A predetermined amount of is sprayed from above, or a plant trunk is cut halfway and applied directly to the cut surface.
Specific examples of the present invention will be described below. In the following examples, a case where a specific functional substance is adhered to a specific molded body is described. However, the present invention is not limited to this, and posters, various tickets, pictures, envelopes, medicines, etc. It may be a molded body made of paper such as a bag, wallpaper, cardboard or various trays, a molded body made of wood such as a pillar, wall or box, or a molded body made of clay such as ceramics or porcelain. Or a functional substance such as catechin.
(First embodiment)
First, 15 kg of a water-dispersed polyester resin (Toyobo's Vylonal (registered trademark)) is put in a container, and 100 g of powdered titanium oxide is further put therein, and then sufficiently stirred and mixed with a stirrer. As a result, a liquid coating agent containing a functional substance was produced.
In addition, it can replace with a titanium oxide or can add the same amount of charcoal, such as activated carbon, honey, catechin, a fragrance | flavor, and a phosphorescent material with a titanium oxide, and can manufacture a coating agent.
(Second embodiment)
First, 15 kg of water-dispersible polyester resin (Byron (registered trademark) manufactured by Toyobo Co., Ltd.) is placed in a container, 7 kg of ethyl acetate is added as an organic solvent, and 100 g of powdered titanium oxide is further added. Then, the mixture was sufficiently stirred and mixed with a stirrer to produce a liquid coating agent containing a functional substance.
In addition, it can replace with a titanium oxide or can add the same amount of charcoal, such as activated carbon, honey, catechin, a fragrance | flavor, and a phosphorescent material with a titanium oxide, and can manufacture a coating agent.
(Third embodiment)
First, 10 liters of a water-dispersed polyester resin (Toyobo's Vylonal (registered trademark)) is heated and melted at 70 ° C. in a container, and further 1 kg of powdered titanium oxide is put therein. Then, the liquid coating agent containing a functional substance was manufactured by fully stirring and mixing with a stirrer.
In addition, it can replace with a titanium oxide or can add the same amount of charcoal, such as activated carbon, honey, catechin, a fragrance | flavor, and a phosphorescent material with a titanium oxide, and can manufacture a coating agent.
(Fourth embodiment)
First, 100 g of a powdery phosphorescent material is added to 100 g of an organic solvent and then stirred to dissolve the phosphorescent material, and 500 g of a water-dispersed polyester resin (Toyobo's Vylonal (registered trademark)) is put therein. Then, the liquid coating agent containing a functional substance was manufactured by sufficiently stirring and mixing with a stirrer.
The phosphorescent material may be a non-oxide material obtained by adding copper to zinc sulfide, or an oxide material obtained by adding a rare earth element to a ceramic material mainly composed of aluminum oxide.
Moreover, toluene, ethyl acetate, etc. were used as the organic solvent.
Further, a coating agent can be produced by adding about 5 g of charcoal such as titanium oxide or activated carbon, honey, catechin, fragrance or the like to the coating agent.
(5th Example)
First, 10 liters of water-dispersed polyester resin (Vaironal (registered trademark) manufactured by Toyobo Co., Ltd.), which is heated and melted at 70 ° C., is placed in a container, and 1 kg of powdered powder is added therein. A liquid coating agent containing a functional substance was produced by adding titanium oxide and then sufficiently stirring and mixing with a stirrer.
Next, a liquid coating containing the functional substance was applied to the surface of the poster with a brush.
This makes it possible to produce a poster with powdered titanium oxide attached to the surface of the paper. Such a poster has antibacterial, antibacterial and deodorizing functions due to the action of titanium oxide, and it can only be stretched indoors. It will add value that it can perform antibacterial, sterilization and deodorization in the room.
(Sixth embodiment)
First, 5 Kg of water-dispersed polyester resin (Vaironal (registered trademark) manufactured by Toyobo) and 20 Kg of water-soluble OP varnish are placed in a container, and 50 g of powdered titanium oxide is added therein, followed by stirring. A liquid coating agent containing a functional substance was produced by sufficiently stirring and mixing with a machine.
Next, a liquid coating containing the functional substance was applied to the surface of the poster with a brush.
This makes it possible to produce a poster with powdered titanium oxide attached to the surface of the paper. Such a poster has antibacterial, antibacterial and deodorizing functions due to the action of titanium oxide, and it can only be stretched indoors. It will add value that it can perform antibacterial, sterilization and deodorization in the room.
(Seventh embodiment)
First, 10 liters of water-dispersed polyester resin (Vaironal (registered trademark) manufactured by Toyobo Co., Ltd.), which is heated and melted at 70 ° C., is placed in a container, and 1 kg of powdered powder is added therein. A liquid coating agent containing a functional substance was produced by adding titanium oxide and then sufficiently stirring and mixing with a stirrer.
Next, a colorant was added to the liquid coating agent containing the functional substance, and it was printed on the surface of the ticket with a printing machine.
This also makes it possible to manufacture a ticket having powdery titanium oxide adhered to the surface, and such a ticket has an added value such as having antibacterial / disinfecting and deodorizing functions by the action of titanium oxide.
(Eighth embodiment)
First, 10 liters of water-dispersed polyester resin (Vaironal (registered trademark) manufactured by Toyobo Co., Ltd.), which is heated and melted at 70 ° C., is placed in a container, and 1 kg of powdered powder is added therein. A liquid coating agent containing a functional substance was produced by adding titanium oxide and then sufficiently stirring and mixing with a stirrer.
Next, the wrapping paper was immersed in a liquid coating agent containing the functional substance for 10 minutes, and then the wrapping paper was dried.
This also makes it possible to manufacture a wrapping paper having powdery titanium oxide adhered to the surface, and such wrapping paper has an added value such as having antibacterial / disinfecting and deodorizing functions by the action of titanium oxide.
(Ninth embodiment)
First, 10 liters of water-dispersed polyester resin (Vaironal (registered trademark) manufactured by Toyobo Co., Ltd.), which is heated and melted at 70 ° C., is placed in a container, and 1 kg of powdered powder is added therein. A liquid coating agent containing a functional substance was produced by adding titanium oxide and then sufficiently stirring and mixing with a stirrer.
Next, as shown in FIG. 1, the liquid coating agent containing the functional substance was applied to the surface of a rectangular paper sheet with a brush and then dried (see FIG. 1 (a)). Thereby, as shown to Fig.1 (a), a coating agent is coated on the surface of the sheet | seat 1, and the coating surface 2 is formed.
Next, the sheet 1 is bent so that the coating surface 2 becomes the inner surface at the center of the sheet 1 (the folding line 3 indicated by a dotted line in FIG. 1A) (see FIG. 1B), Then, the bag 6 was manufactured by bonding at the left and right edges 4 and 5 of the sheet 1 (see FIG. 1C).
When the left and right edge portions 4 and 5 of the sheet 1 were bonded, the heat-curing property of the coating agent applied to the edge portions 4 and 5 was used for heat welding without separately applying an adhesive. Note that an adhesive may be separately applied to the edges 4 and 5.
This also makes it possible to produce a bag with powdered titanium oxide attached to the inner surface, and such a bag has added value such as antibacterial / disinfecting and deodorizing functions by the action of titanium oxide.
(Tenth embodiment)
First, 10 liters of water-dispersed polyester resin (Vaironal (registered trademark) manufactured by Toyobo Co., Ltd.), which is heated and melted at 70 ° C., is placed in a container, and 1 kg of powdered powder is added therein. A liquid coating agent containing a functional substance was produced by adding titanium oxide and then sufficiently stirring and mixing with a stirrer.
Next, as shown in FIG. 2, the liquid coating agent containing the functional substance was applied to the surface of a rectangular paper sheet with a brush and then dried (see FIG. 2 (a)). As a result, as shown in FIG. 2A, the coating surface 2 is formed by coating the surface of the sheet 1 with the coating agent.
At that time, as shown in FIG. 2A, a coating agent is applied to the entire left half of the sheet 1 to form a coating surface 2a, while the right half of the sheet 1 has left and right edges. The coating surface 2b is formed by applying the coating agent only to 3 and 4.
Next, the sheet 1 is bent so that the coating surface 2 becomes the inner surface at the center of the sheet 1 (the folding line 3 indicated by a dotted line in FIG. 2A) (see FIG. 2B), Then, the bag 6 was manufactured by bonding at the left and right edges 4 and 5 of the sheet 1 (see FIG. 2C).
When the left and right edge portions 4 and 5 of the sheet 1 were bonded, the heat-curing property of the coating agent applied to the edge portions 4 and 5 was used for heat welding without separately applying an adhesive. Note that an adhesive may be separately applied to the edges 4 and 5.
This also makes it possible to produce a bag with powdered titanium oxide attached to the inner surface, and such a bag has added value such as antibacterial / disinfecting and deodorizing functions by the action of titanium oxide.
(Eleventh embodiment)
First, 10 liters of a water-dispersed polyester resin (Byron (registered trademark) manufactured by Toyobo Co., Ltd.), which was heated and melted at 70 ° C., was placed in a container, and 1 kg of powdered powder was further contained therein. Titanium oxide was added, and then sufficiently stirred and mixed with a stirrer to produce a liquid resin containing a functional substance.
Next, 50 kg of pulp was mixed into the liquid resin containing the above functional substance, and it was molded into a fresh fish transport tray using a pressure molding machine.
This also makes it possible to produce a tray for transporting fresh fish with powdered titanium oxide attached to the surface, and such a tray for transporting fresh fish has an added value such as sterilization and deodorizing functions by the action of titanium oxide. Become.
(Twelfth embodiment)
First, 10 liters of a water-dispersed polyester resin (Byron (registered trademark) manufactured by Toyobo Co., Ltd.), which was heated and melted at 70 ° C., was placed in a container, and 1 kg of powdered powder was further contained therein. Titanium oxide was added, and then sufficiently stirred and mixed with a stirrer to produce a liquid resin containing a functional substance.
Next, the sponge for fresh flowers was immersed in a liquid resin containing the functional substance for 10 minutes to infiltrate the resin into the sponge for fresh flowers, and then the sponge for fresh flowers was dried.
This also makes it possible to produce a sponge for fresh flowers with powdered titanium oxide attached to the surface, and such a sponge has an added value such as sterilization and deodorizing function by the action of titanium oxide.
(Thirteenth embodiment)
First, 10 liters of a water-dispersed polyester resin (Byron (registered trademark) manufactured by Toyobo Co., Ltd.), which was heated and melted at 70 ° C., was placed in a container, and 1 kg of powdered powder was further contained therein. Titanium oxide was added, and then sufficiently stirred and mixed with a stirrer to produce a liquid resin containing a functional substance.
Next, 50 kg of pulp was mixed into the liquid resin containing the above functional substance, and formed into a honeycomb core 11 shown in FIG. 3 using a pressure molding machine. In the figure, 16 is a hexagonal columnar through hole formed in the honeycomb core 11.
Next, as shown in FIGS. 4 and 5, the panels 14 were manufactured by bonding the plates 12 and 13 to the front and back of the honeycomb core 11.
A plurality of small-diameter through-holes 15 are formed in the plates 2 and 3 with needles, and a liquid resin containing the functional substance is applied to the surface.
As described above, in this embodiment, the functional material is attached to the surface of the core material having the through holes 16, and the plate material having the through holes 15 on the front and back of the core material and the functional material attached to the surface is bonded. The panel 14 was manufactured. Such a panel 14 is in a state of penetrating as a whole panel by the action of the through holes 15 and 16, and has air permeability even when the panel is viewed as a whole. For this reason, the contact between the functional substance and air is good.
(14th embodiment)
First, 5 Kg of water-dispersed polyester resin (Vaironal (registered trademark) manufactured by Toyobo) and 20 Kg of water-soluble OP varnish are placed in a container, and 50 g of powdered titanium oxide is added therein, followed by stirring. A liquid coating agent containing a functional substance was produced by sufficiently stirring and mixing with a machine.
Next, a liquid coating containing the functional substance was applied to the bottom surface of the reinforced plastic hull.
Thereafter, as a coating film having a viscosity on the surface, a mucus covering the body surface of the land snail belonging to the slug family and the Asteraceae family was applied to form a coating film having a viscosity on the surface.
As a result, it was possible to form a coating layer in which powdered titanium oxide was adhered to the ship bottom surface and a coating film having a viscosity covering the surface. The surface of the bottom of the ship has antibacterial, antibacterial and deodorizing functions due to the action of titanium oxide, and the surface is covered with a viscous coating film, so shellfish, barnacles, dust, etc. are on the surface. It had a function to prevent adhesion. Furthermore, because the coating film is formed by mucus that covers the surface of living organisms, even if the coating film peels off from the surface, the peeled coating film will be naturally decomposed and reduced to the natural ecosystem, creating new dust. Does not occur.
Industrial applicability
The present invention is implemented in the form described above, and has the following effects.
That is, since the coating agent according to the present invention is obtained by mixing a functional substance into a water-dispersed resin, various special functions of the functional substance are continuously and effectively exhibited over a long period of time. be able to.
Then, by coating the surface of the molded body with such a coating agent, it is possible to add value to the molded body.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing a bag forming method. FIG. 2 is an explanatory view showing a bag forming method as another embodiment. FIG. 3 is a perspective view showing the honeycomb core. FIG. 4 is a perspective view showing the panel. FIG. 5 is a sectional view of the same.

[0001]
TECHNICAL FIELD The present invention relates to a coating agent, a bag or molded article coated with the coating agent, and a coating method.
Background Art Conventionally, molded articles such as various trays, toilet bowls, paper and bags have been widely used in daily life, and in recent years, added values such as sterilization and deodorization may be added to the original functions of the molded articles. Has been made.
For example, conventionally, a functional substance having a special function such as titanium oxide having a sterilizing and deodorizing function or activated carbon having a deodorizing function is applied to the surface of the molded body using a resin such as polyester as a binder. there were.
However, in a molded body in which a functional substance is applied to the surface of a molded body using a normal polyester resin as a binder, the function of the functional substance cannot be continued for a long period of time.
This is because the polyester resin used as a binder is not breathable, so the surface of the functional substance itself is coated with a non-breathable polyester resin, and the functional substance and air cannot contact, This is because the function of the functional substance cannot be continuously exhibited.
DISCLOSURE OF THE INVENTION The present invention is a special resin such as antibacterial, antibacterial, antibacterial, deodorizing, deodorizing, antifouling, aroma, and phosphorescence by contact with air after curing in a noncrystalline state. The present invention relates to a coating agent in which a functional substance having a function is mixed.
Then, the surface of the rectangular sheet is coated with the coating agent, and then the sheet is bent with the coating surface as the inner surface, and the edges of the inner surface are joined to each other.

[0014]
It had a function to prevent. Furthermore, because the coating film is formed by mucus that covers the surface of living organisms, even if the coating film peels off from the surface, the peeled coating film will be naturally decomposed and reduced to the natural ecosystem, creating new dust. Does not occur.
INDUSTRIAL APPLICABILITY The present invention is implemented in the form as described above and has the effects described below.
That is, the coating agent according to the present invention is cured in a non-crystalline state so that the resin having air permeability after curing is in contact with air for antibacterial, antibacterial, sterilization, deodorization, deodorization, antifungal, fragrance, or phosphorescence. Since the functional substance having the above function is mixed, various special functions of the functional substance can be continuously and effectively exhibited over a long period of time.
Then, by coating the surface of the molded body with such a coating agent, it is possible to add value to the molded body.

Claims (7)

A functional substance with special functions such as antibacterial, antibacterial, antibacterial, sterilization, deodorization, deodorant, fragrance, and phosphorescence on water-dispersed resin that is air-permeable after curing by curing in an amorphous state Coating agent made by mixing The coating agent according to claim 1 is coated on the surface of a rectangular sheet, and then the sheet is bent with the coating surface as the inner surface, and the edges of the inner surface are bonded together using the adhesive force of the coating agent. A bag characterized. The coating agent according to claim 1 is coated on the entire surface of one side half and the edge of the other half of the surface of the rectangular sheet, and then the sheet is bent with the coating surface as the inner surface, A bag characterized in that edges are bonded to each other using the adhesive force of the coating agent. A molded article comprising the coating agent according to claim 1 attached to a surface. The molded body according to claim 4, wherein the molded body has air permeability. A coating method comprising forming a coating film having viscosity on a surface after applying the coating agent according to claim 1 to the surface. 7. The coating method according to claim 6, wherein as the coating film having viscosity, mucus covering a body surface of a terrestrial snail belonging to the slugaceae family and the amphipod family is used.

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