KR0140943B1 - Preparation process for multi-sheet - Google Patents

Abstract

Purpose: Produce high strength sheet by heat-sealing homogeneous eyelets at the edges by manufacturing multiple sheets

Composition: A plurality of molten resin connecting tubes (7. 7 '. 7 ″) are arranged in the nozzle (6) so as to meet each other on the lip (6') side of the nozzle (6), and irregularities on the inner wall of the lip (6 ') The surface 8 is formed longitudinally so that the linear low density polyethylene is supplied to the molten resin connecting pipe (7.7 ″) and the linear high density polyethylene is supplied to the molten resin connecting pipe (7 ″) to extrude multiple synthetic resin sheets.

Description

Method of manufacturing multiple sheets.

1 is a partial perspective view of an embodiment for explaining the present invention.

2 is an explanatory view of a nozzle longitudinal section in an embodiment of the present invention.

3 is a cross-sectional explanatory diagram of the line A-A of FIG.

* Explanation of symbols on the main parts of the drawings

1: sheet 2: mating

3: end 4: eyelet

5: hole 6: lip

7,7 ', 7: molten resin supply pipe 8: uneven surface

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing multiple sheets, and more particularly, to a method for producing a double or more multiple sheets of linear high density polyethylene and linear low density polyethylene.

Already known are methods for producing wide synthetic resin films.

However, when manufacturing a relatively thin synthetic resin film or sheet that is multi-layered, it is complicated to manufacture by laminating the synthetic resin film by weaving and weaving it with weft and cross yarn. In this case, there is a problem in economic efficiency, and when the sheet manufactured in this way is used as a windscreen or barrier film in a greenhouse such as a construction site or a plastic house, aluminum or copper alloys are formed on the edges or corners of the sheet. As it is used to fix the eyelet made of the same nonferrous metal and bind and fix it to a column or other support, it is possible to prevent the pollution of the soil by recycling the discarded sheet after use. This regeneration is possible only by cutting the non-ferrous metal eyelets Do.

In this regard, due to expensive labor costs, it cannot be used for regeneration, so it is left in nature and causes pollution of the soil. In view of the above, the present invention can be achieved by simultaneously extruding a linear high density polyethylene and a linear low density polyethylene in a molten state into a sheet to heat-bond an eyelet made of a polyethylene resin of the same material to the periphery. .

In the present invention, the thermal fusion means fusion by high frequency or ultrasonic waves, and the multiple means that the synthetic resin film is two or more stages. The bursting strength and tensile strength of the multi-ply synthetic resin sheet of the present invention prepared as described above were measured by KS K0351 (Diaphragm method) and KS K0520 (Grab method: constant tension), respectively. Was 1.8 kg / cm 2, and the tensile strength was 17.7 kg / cm 2 in the longitudinal direction and 18.7 kg / cm 2 in the width direction. A sheet of such strength was not known yet.

BEST MODE Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a side edge portion of a multi-sheet (hereinafter referred to as a sheet) 1 manufactured according to a method of describing a perspective view of an embodiment for the purpose of clarifying the present invention, the edge part 2 is formed by folding a part of the sheet 1. The end 3 of the sheet 1 is heat-sealed, and the eyelets 4 of the same quality as the sheet 1 are also heat-sealed on the upper and lower surfaces of the edge 2 as described above. Through (5), it can be fixed by straps or belts to props or pillars and other supporting parts not shown. Of course, the opposite edge symmetrical with the edge 10 of the sheet 10 has the same structure and shape as described above, and the width or length can be arbitrarily determined.

A longitudinal cross-sectional view of the nozzle for explaining the method of manufacturing a multiple synthetic resin sheet as described above is shown in FIG. 2, and a cross-sectional view taken along the line A-A of FIG.

That is, several melt resin connecting pipes 7, 7 ', 7 (only three are shown in the drawing) are arranged in the nozzle 6 so that the outlets meet each other on the Lib 6' side. Inside the lip 6 ′, a plurality of irregularities 8... Are formed longitudinally as shown in FIG. 3.

In the above embodiment, linear low density polyethylene is supplied to the molten resin connecting pipe 7.7 and linear high density polyethylene is supplied to the molten resin connecting pipe 7 'and extruded through the lip 6' of the nozzle 6. On the upper and lower surfaces of the middle high density polyethylene, multiple synthetic resin sheets, each of which a layer of linear low density polyethylene is fusion formed, are extruded and come out downwards, and the uneven surface 8 inside the lip 6 'is vertically irregular on both sides of the sheet. As the surface is formed, it is cooled and a sheet can be obtained.

Therefore, according to the present invention, since the sheet is directly obtained without the process of weaving or weaving as in the prior art, since the edge part 2 is formed and completed by heat fusion of the homogeneous eyelet 4, it is economical and collects and recycles the discarded sheet. In the case of the conventional invention, it is an industrially useful invention that can obtain multiple sheets of high strength while saving effort to remove the eyelets that are made of nonferrous metals, as in the prior art.

Claims (1)

A plurality of molten resin connecting pipes 7, 7 ′, 7 are arranged in the nozzle 6 so as to meet each other on the lip 6 ′, and the uneven surface 8 is vertically formed on the inner side of the lip 6 ′. The molten linear high density polyethylene is supplied to the central molten resin connecting pipe 7 'and the molten linear high density polyethylene (7,7) is supplied to the connecting pipes 7 and 7 on both sides. Method for producing a multi-sheet, characterized in that the extrusion.