KR20100132400A - Recyclable release film substitutable for release paper and manufacturing method thereof, and method for manufacturing multi-layer film using the release film - Google Patents

Abstract

PURPOSE: A recyclable releasing film, a method for manufacturing the same, and a method for manufacturing a multi-layered film using the same are provided to maintain the shape of the releasing film at high temperature by obtaining a superior heat-resistive function. CONSTITUTION: One resin is selected from polyolefin-based resins including polyethylene and polypropylene. A releasing film scrap is generated from a hot-melt adhesive film. A polyolefin-based resin is obtained by reprocessing the releasing film scrap. The reprocessing of the releasing film scrap is composed of a sorting step, a pulverizing step, and an extrusion step. The releasing film scrap is reprocessed into a pellet shape.

Description

Recyclable release film substitutable for release paper and manufacturing method, and method for manufacturing multi-layer film using the release film}

The present invention relates to a polyolefin-based release film replacing the paper release paper used in the hot melt adhesive film, and a method for manufacturing the same, and more particularly, a method for recovering a release film used once and recycling through a series of processes and multi-layer film It relates to a method of extruding a release film simultaneously with a hot melt using an extrusion method.

In recent years, as in many industries, the shoe industry is making a lot of efforts to reduce manufacturing costs. As part of this, attempts have been made to reduce or eliminate the sewing process, which requires a lot of manpower in the shoe manufacturing process, and in some cases, it is actually applied.

By replacing the sewing process, which accounts for a large part of the manufacturing cost, with an adhesive process, it is intended to increase the output per person and to reduce the cost by shortening the process time. In addition, in the general bonding process, the adhesive is applied to the adherend using a liquid adhesive, and then the adherends are bonded to each other in a state in which a solvent or moisture is volatilized through drying. This can reduce the process time and the workforce than the sewing process. But efforts to reduce costs have not just stopped here, but moreover, a new concept of production technology has begun to be applied, using film-like hot melts to finish the bonding process with a hot press instead of using liquid adhesives.

On the other hand, in the production of hot melt film, in particular, the thermoplastic polyurethane-based hot melt, a single film extrusion path is often impossible due to the mechanical tension of the extrusion equipment, the hot melt adhesiveness and the like. For this reason, the resin is cooled and cured on the release paper by inserting a release paper made of paper while extruding the resin to the T-die.

Such hot melt film is generally produced by combining with release paper during product production, and is used after removing the release paper during the hot press process. The release paper generated here is mostly disposed of, and the amount of the release paper is very large and has been pointed out as a disadvantage of the hot melt process. In addition, there was a problem that does not meet the recent trend of resource saving or eco-friendly process development.

SUMMARY OF THE INVENTION An object of the present invention is to provide a polyolefin-based release film and a method of manufacturing the same, and a method of manufacturing a multilayer film including a hot melt film layer using the release film, which can replace paper release paper used in a hot melt adhesive film.

Another object of the present invention is to recover the already used release film for hot melt adhesive film and to recycle through a series of processes and simultaneously extruded the hot melt film and the release film by co-extrusion method using a conventional multi-layered T-die extruder It is to provide a method for producing a multilayer film.

The present invention can produce a release film using a polyolefin resin having excellent release properties such as polyethylene or polypropylene, and then apply it to a hot melt adhesive film to perform a release paper function of a hot melt adhesive film without using a release paper made of paper. It is a technical feature to manufacture a multilayer film comprising a hot melt film layer.

In addition, the present invention is a pelletized by reprocessing the polyolefin-based release film that is disposed of after use, and then pelletized, it is extruded or calendered into a film to produce a recycled release film, and then the release film is used in the production of hot melt film Alternatively, the reprocessed pelletized resin is introduced into a multilayer film extruder together with a hot melt resin and co-extruded to produce a multilayer hot melt film with a recycled release film.

The present invention is environmentally friendly and saves resources by manufacturing a polyolefin-based release film without using a release paper made of paper, and has excellent heat resistance, so that the release film is not deformed even at high temperatures.

In particular, the present invention can be recycled by recycling the polyolefin-based release film to be discarded to save resources to create an economic effect and achieve an environmentally friendly effect.

Hereinafter, a preferred embodiment of the present invention will be described in detail. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments that can be presented with the present invention are replaced by the description in the configuration of the present invention.

In the present invention, there is a disadvantage that the paper release paper used in general is disposed of after being used once, to implement a method of manufacturing a release film with a polyolefin resin to overcome this. At this time, as the polyolefin resin, polyethylene or polypropylene having excellent release property is preferable.

In particular, the present invention provides a method for producing a release film that can be recycled by recycling a polyolefin-based release film recovered after use once, and also a method for producing a multilayer film including a hot melt adhesive film using the release film. Implement At this time, the recycling rate of the release film may be up to 100% from 10% of the total formulation.

That is, the present invention is to reprocess the polyolefin-based release film to be disposed in the form of pellets through a process such as sorting, pulverization, extrusion, and then put into a film extruder to produce a recycled release film. In addition, the hot melt resin (for example, polyurethane, polyester, polyamide, polyethylene vinyl acetate, etc.) and the polyolefin-based release resin reprocessed in the pellet form as described above are simultaneously introduced through a multilayer film extruder, and then recycled by extrusion. It is to prepare a hot melt adhesive film with a release film attached.

As described above, the present invention is characterized by a method of manufacturing a polyolefin-based release film that can replace a paper release paper that is not reusable when manufacturing a hot melt film, and a method of manufacturing a polyolefin-based release film that can be recycled.

Hereinafter, a method of recycling a polyolefin-based release film generated after using a hot melt film to be reused and a method of manufacturing a multilayer film including a hot melt adhesive film using the recycled release film will be described in detail.

The manufacturing method of the present invention can be largely divided into two parts, firstly, a process of collecting the release film scrap generated after using hot melt and reprocessing it to be put back into the release film manufacturing process, and secondly, a reprocessed polyolefin-based The resin is made into a release film.

That is, the release film scrap generated during the use of hot melt is collected and separated so as not to be mixed with other foreign matters, and then the collected scraps are imported, and once again inspected for foreign matters, and then ground in a grinder. At this time, the perforation diameter of the perforated screen of the grinder is preferably 6 ~ 10mm.

Thereafter, the pulverized scrap is extruded through a single screw extruder for pellet processing, and the manufactured scrap pellets are used for manufacturing a release film of the next step, wherein the release films are each made according to an extrusion method of manufacturing a hot melt film. Used differently. This will be described in detail below.

First, a method of producing a hot melt film through a single-layer tee-die extruder is described in detail.

At this time, the scrap pellets are first extruded through a conventional single-layer tee-die extruder or a release film is first prepared by a conventional calendering method. Thereafter, the hot-melt resin is extruded through a single-layer tee-die extruder while using the prepared release film instead of paper release paper. At this time, the hot melt resin is passed through the cooling roll while being combined with the release film. Since the opposite surface combined with the release film has considerable adhesive force until it is sufficiently cooled, it is preferable that the cooling roll uses a Teflon coating roll. In this method, since the hot melt resin of the molten state (specifically, 140 ° C. or more) and the release film are in direct contact with each other, the heat resistance of the release film becomes important, and if the heat resistance of the release film is poor at the hot melt extrusion temperature, the release film This melts or deforms without overwhelming the mechanical tension, making it impossible to carry out precise extrusion. Therefore, since the polyethylene release film cannot be used because the heat resistance temperature is as low as about 100 ° C., it is preferable to use a polypropylene release film having better heat resistance than polyethylene.

Secondly, a method of producing a hot melt film through a multi-layered t-die extruder will be described in detail.

The method using the above-mentioned multilayer tee-die extruder does not matter much in the heat resistance of resin used as a release film. This is because both the hot melt resin and the release film resin are extruded simultaneously through the multilayered T-die in the molten state. Therefore, both polyethylene and polypropylene can be used. A possible product structure when using a three-layer tee-die extruder can extrude each layer into a structure of TPU / hotmelt / release film or release film / hotmelt / release film. In addition, a two-layer structure of hot melt / release film is also possible.

Claims (10)

A method for producing a release film that can replace paper release paper, characterized in that it is made of a release film used for a hot melt adhesive film with any one of polyolefin resins composed of {polyethylene, polypropylene}. The method of claim 1, The polyolefin-based resin is a method for producing a release film that can replace paper release paper, characterized in that the resin obtained by reprocessing the release film scrap generated after the use of the hot melt adhesive film. The method of claim 2, Method for producing a release film that can replace the paper release paper, characterized in that for reprocessing the release film scrap in the form of pellets through the process of sorting, grinding, extrusion. Release film produced by the method of any one of claims 1 to 3. In the method for producing a multilayer film comprising a hot melt film and a release film, A polyolefin-based resin and a hot melt resin are introduced into a conventional multilayer T-die extruder, and coextruded to produce a multilayer film. The method of claim 5, The polyolefin-based resin is a method for producing a multilayer film using a release film, characterized in that the resin obtained by reworking the release film scrap generated after using the usual hot melt adhesive film. In the method for producing a multilayer film comprising a hot melt film and a release film, Preparing a release film used as a hot melt adhesive film with any one of polyolefin-based resins composed of {polyethylene, polypropylene}, Method for producing a multilayer film using a release film comprising the step of cooling and curing the hot melt resin extruded on the release film by injecting the release film while extruding a hot melt resin through a conventional single-layer T-die extruder. . The method of claim 7, wherein The polyolefin-based resin is a method for producing a multilayer film using a release film that can replace paper release paper, characterized in that the resin obtained by reprocessing the release film scrap generated after using a conventional hot melt adhesive film. The method according to any one of claims 5 to 8, The multilayer film; The upper layer is formed of a hot-melt resin layer, and the lower layer is formed of a release film layer made of a polyolefin resin. The method according to any one of claims 5 to 8, The multilayer film; The upper layer is formed of a thermoplastic polyurethane resin layer, the intermediate layer is formed of a hot melt resin layer, and the lower layer is formed of a release film layer made of a polyolefin resin.