KR20050111949A - Hygienic bend silicon separation paper manufacture method and silicon separation paper - Google Patents

Abstract

In the present invention, the acrylic coating on the upper side of the tributary coating is first coated, and the acrylic coating on the upper surface of the acrylic coating is completely coated with silicon to completely prevent unstable conditions such as blocking, and recycle or incinerate after use, thereby causing environmental pollution. It relates to a method for producing a silicone release paper for sanitary napkins and a silicone release paper that does not generate a substance.

This is an acrylic film forming process of mixing about 300 to 400 parts by weight of methanol, a petroleum-based organic solvent, to 100 parts by weight of an acrylic adhesive having a solid content of 46 parts by weight, and coating the paper by coating it with 8 to 10% of a gravure method; It is coated on the surface of the acrylic film, and mixed with about 400 to 800 parts by weight of a solvent made of petroleum organic solvent toluene to 100 parts by weight of a silicone polymer having an active ingredient content of 40 parts by weight, and mixed with 1 part by weight of a curing agent thereto. A silicon release layer forming step formed by applying a release solvent; A release paper forming process of obtaining acrylic release paper by drying the acrylic film and the silicone release layer on the paper at a temperature of 150 to 170 ° C. for about 6 to 12 seconds; Completion of cutting the release paper according to the standard of the sanitary napkin and bonding it to the surface of the sanitary napkin to complete the product.

Description

Hygienic bend silicon separation paper manufacture method and silicon separation paper

The present invention relates to a method for producing a silicone release paper for sanitary napkin, more specifically, the coating of the acrylic component on the upper surface of the tributary coating, and the second coating on the acrylic coating on the upper surface of the acrylic film, to maximize the characteristics of the release paper to use Afterwards, it relates to a pollution-free release paper that does not generate environmental pollutants even when disposed of by recycling or incineration.

In general, in a product to which a hot melt adhesive is applied, in particular, a sanitary napkin, a silicone release paper having a hot melt adhesive layer formed on the sanitary napkin is bonded to a sanitary napkin in the manufacturing and production stage, and when the consumer uses it, the silicone release paper is removed from the sanitary napkin.

At this time, the hot melt adhesive applied to the removed silicone release paper is transferred to a sanitary napkin and it is generally used to adhere the sanitary napkin to clothing and the like.

However, the silicone release paper of the conventional sanitary napkin cannot directly coat the silicone on the tributary, so that the polystyrene resin (PE resin) is coated on the tributary, and then the silicone layer is coated on the polystyrene (PE) resin layer again. Was prepared and used.

Silicone release paper having the laminated structure as described above requires a lot of power to form a polyethylene coating (PE) coating and a silicon coating layer that requires high heat, and the work is installed by applying the melt spraying the polyethylene (PE) at a high temperature on one side B. The process is complicated and difficult, which leads to a decrease in productivity.

In addition, during the subsequent work of spraying and applying a high-temperature hot melt adhesive on a release paper treated with a polyethylene (PE) coating layer and a silicone coating layer, cracks are generated in the polyethylene layer (PE) due to the high heat of the hot melt adhesive. Unevenness and cracking or deformation were caused, resulting in unstable properties or transitions of the hot melt adhesive, so that when the sanitary napkin was used to adhere to the garment, the adhesive state was not perfect, and thus easily fell.

In addition, polyether (PE) coated silicone release paper cannot be recycled, separated from paper, or decomposed into paper, resulting in the production of polluted wastes.In order to deal with this, a lot of economical facilities such as incinerators are required. There was a problem that causes problems and environmental pollution.

It is made in consideration of the various problems as described above, and its purpose is to first coat the acrylic coating on the upper surface of the tributary, and secondly to the acrylic coating on the upper surface of the acrylic coating to completely prevent the unstable state of blocking. After use, the present invention provides a method for manufacturing a silicone release paper and a silicone release paper for manufacturing a pollution-free release paper that does not generate environmental pollutants even when disposed of by recycling or incineration.

In order to achieve the above object, the present invention mixes about 300 to 400 parts by weight of methanol, which is a petroleum-based organic solvent, to 100 parts by weight of an acrylic adhesive, which is 46 parts by weight of solids, and applies 8 to 10% by gravure coating to paper. A silicone release solvent mixed with an acrylic film forming process and 400 to 800 parts by weight of a petroleum organic solvent toluene is mixed with 100 parts by weight of a silicone polymer having an active ingredient content of 40 parts by weight, and then 1 part by weight of a curing agent is added thereto. And a release paper forming process of forming a silicone release paper by drying the acrylic release layer formed by applying a coating film, and drying the acrylic film and the silicone release layer applied to the feeder at a temperature of 150 to 170 ° C. for about 6 to 12 seconds. It consists of the finished process of cutting the standard of sanitary napkin and attaching it to the surface of the sanitary napkin to complete the product.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

1 to 2 is a process chart according to the method for producing a silicone release paper for sanitary napkin of the present invention, the present invention comprises an acrylic film forming process, a silicone release layer forming process, a release paper forming process.

In the acrylic film forming process, about 300 to 400 parts by weight of methanol, a petroleum-based organic solvent, is mixed with 100 parts by weight of an acrylic adhesive having a solid content of 46 parts by weight, and a metal gravure roller (1) and a gravure printing method are applied to one side of the feeder (10). 8-10% is applied to the roller 2 to form the acrylic coating 20.

The metal coating roller 2 has a lower half immersed in the aqueous solution 3 of the solution tank so that the metal coating roller 2 uniformly penetrates into the surface of the tributary 10 by the aqueous solution 3 on the surface of the metal coating roller 2. Form.

In the silicone release layer forming process, 400 to 800 parts by weight of a petroleum-based organic solvent toluene is mixed and diluted to 100 parts by weight of a silicone polymer having an active ingredient content of 40 parts by weight, and 1 part by weight of a curing agent is added to and mixed with a silicone release solvent. You get

The silicone releasing solvent is introduced into the solution tank (6), and the application roller (4) made of a metal roller and the rubber material roller (5) bonded to the acrylic coating (20) applied on the surface of the feeder (10). A silicon releasing solvent is applied and coated by a gravure coating device configured to form a silicon releasing layer 30.

In the release paper forming process, an acrylic film is first coated on a surface of a paper feeder, and a silicon coating is secondly applied on an upper surface of the acrylic film, followed by drying at a temperature of 150 to 170 ° C. in a drying duct 50 for about 6 to 12 seconds. Release paper 40 is obtained.

The silicone release paper 40 obtained as described above is cut to the size of the sanitary napkin and adhered to the nonwoven surface of the sanitary napkin to complete the product.

On the surface of the silicone layer of the release paper, the hot melt adhesive is applied by spraying the liquid at a high temperature of 150 ° C., and when it is adhered to the nonwoven fabric surface of the sanitary napkin, the adhesive is transferred to the sanitary napkin.

When the removable paper 40 is removed and worn on the sanitary napkin 60 as shown in FIG. 3, the adhesive is fixed on the nonwoven fabric surface to the underwear to fix the sanitary napkin 60 so as not to move.

As shown in FIG. 4, the silicon release paper structure of the present invention as described above has an acrylic film 20 formed on the upper surface of the feeder 10, and a silicon release layer 30 on the upper surface of the acrylic film 20. ).

The acrylic film 20 is mixed with about 100 to 400 parts by weight of methanol, a petroleum-based organic solvent, to 100 parts by weight of an acrylic adhesive having a solid content of 46 parts by weight, and is formed by coating the coating by 8 to 10% by a gravure method.

The silicone release layer 30 is diluted on a surface of an acrylic layer by mixing 400-800 parts by weight of a solvent made of petroleum-based organic solvent toluene with 100 parts by weight of a silicone polymer having an active ingredient content of 40 parts by weight. The silicone release solvent formed by adding and mixing the parts is applied and dried by 150 to 170 ° C. for about 6 to 12 seconds to form.

As described above in detail above, the present invention primarily treats the acrylic coating on the upper surface of the feeder, and the second coating on the acrylic coating on the upper surface of the acrylic film to maximize the properties of the release paper and recycle or incinerate after use. There is an advantage that does not generate environmental pollutants even during the city.

1 to 2 is a process chart of the method of manufacturing silicone release paper for sanitary napkin according to the present invention.

Figure 3 is a cross-sectional view showing the configuration of a silicone release paper according to the present invention.

4 is a perspective view showing a state of use of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: feeder 20: acrylic film

30: release layer 40: release paper

Claims (2)

An acrylic film forming process of mixing about 300 to 400 parts by weight of methanol, a petroleum-based organic solvent, to 100 parts by weight of an acrylic adhesive having a solid content of 46 parts by weight, and coating the paper by coating it with 8 to 10% by a gravure method; It is coated on the surface of the acrylic film, and mixed with about 400 to 800 parts by weight of a solvent made of petroleum organic solvent toluene to 100 parts by weight of a silicone polymer having an active ingredient content of 40 parts by weight, and mixed with 1 part by weight of a curing agent thereto. A silicon release layer forming step formed by applying a release solvent; And a release paper forming process of drying the acrylic film and the silicone release layer applied to the feeder at about 150 to 170 ° C. for about 6 to 12 seconds to obtain a silicone release paper. . An acrylic film coated on an upper surface of the feeder by mixing about 300 to 400 parts by weight of methanol, a petroleum-based organic solvent, to 100 parts by weight of an acrylic adhesive having a solid content of 46 parts by weight, and coating 8 to 10% by gravure; Silicone formed on the surface of the acrylic layer and mixed by diluting about 400 to 800 parts by weight of a petroleum organic solvent toluene with 100 parts by weight of a silicone polymer having an active ingredient content of 40 parts by weight, and then adding and mixing 1 part by weight of a curing agent. Silicone release paper, characterized in that consisting of; a release layer formed by applying a release solvent and dried for about 6 to 12 seconds at a temperature of 150 ~ 170 ℃.