JPH04185336A - Manufacture of metal laminated sheet - Google Patents

Abstract

PURPOSE:To obtain metal laminated sheet having smooth surface by a method wherein laminated sheet consisting of synthetic resin sheets metal foil is passed through a pair of heating rolls so as to relieve strain and, after that, fed between multistage cooling and forming rolls so as to be pressed and cooled and then slowly cooled while being applied with tension between take-up rolls. CONSTITUTION:By simultaneously melt extruding thermosetting core material resin and adhesive resin through a three-level mold 5, synthetic resin sheet 4, which is prepared by integrally laminating the adhesive resin onto both the sides of the core material resin layer, is formed. On the other hand, two sheets of spread metal foil 1 are preheated so as to supply the synthetic resin sheet 4 and the metal foils 1 between heated pressure rolls 6 under the condition that the metal foils face to both the sides at the synthetic resin sheet under molten state in order to produce laminated sheet 7. After being passed through a pair of heating rolls 8 in order to relieve strain under heat and pressure, the laminated sheet is fed between multi-stage cooling and forming rolls and pressingly cooled by spraying cooling air in order to control the cooling speed. Next, the resultant laminated sheet 7 is slowly cooled under the condition being applied with a certain tension between the cooling and forming rolls 9 and take-up rolls 12 so as to retain its shape.

Description

[Detailed Description of the Invention] (11 Fields of Use in the L Industry) The present invention is made by laminating a metal foil on both sides of a thermoplastic synthetic resin sheet, and is used for various purposes such as building materials: The present invention relates to a method of manufacturing a metal laminate.

(Prior Art) Conventionally, the manufacturing method for this type of metal laminate is a constant tension '?
'Heat the two rolled out foils and preheat them (.

The molten metal foil and the synthetic resin sheets in the molten sheet are fed between heated U-forming rolls so that there are four synthetic resin sheets between the metal foils and bonded together.-1 The obtained laminate is slowly cooled. to be done. Also, slow cooling of laminate #? -2, laminated board! ! Since uneven cooling occurs on the front surface, back surface, or the center and both ends, i:Iil] becomes smooth and r-<.
The pressing process of the laminate is incorporated in the middle of the culm, and the pressing process of the laminate is incorporated as a post-process. A leveler is provided to smooth the surface of the laminate by eliminating the waves and waves that occur on the surface of the laminate.

(Invention or solution 1, 7! i! M) 7) It becomes sloppy,
Made in 11! There is a problem that efficiency is reduced.

It is an object of the present invention to provide a process for manufacturing a metal laminated board with a simple process that eliminates such conventional problems.

(Means for ν to solve problem R) The method for producing metal sills of the present invention is to simultaneously melt and extrude thermoplastic core crosspieces and armature fingers from a No. 311 mold. A synthetic resin sheet made by laminating and fixing both [klK adhesive resin layers] is molded and stretched to 10,000 yen. A sheet of metal foil is preheated and melted. Feed the synthetic resin sheet and metal foil between the hot pressure bonding rolls so that 4 is located on both sides of the first sheet and stack! After producing a plate, the 82-layer plate is passed between a pair of heating rolls to remove the distortion caused by the above-mentioned heat and pressure bonding, and then supplied between multiple cooling forming rolls and cooling air is blown to control the cooling rate. Then, the laminate is pressed and cooled, and then the laminate is slowly cooled while applying a constant tension to the laminate using a cooling forming roll and a take-up roll in the next process to maintain its shape.

The present invention will be described below with reference to the drawings.

Figure III is a manufacturing process diagram of the method of the present invention, and Figures 21 and 3 are schematic diagrams showing the process of removing distortion due to heat compression bonding in the method of the present invention.

In the drawings, fi+ is a metal foil made of stainless steel or aluminum. The metal foil (1) usually has a thickness of 01 to 0.3 m.

The gold foil il+ is fed out from a foil spreading table (2), spread with a constant paddle force, heated through a preheating device (3), and fed to a heating pressure roll (81CP), which will be described later.

Reference numeral 14) is a synthetic resin sheet, and is a three-layer sheet in which adhesive resin layers are laminated and fixed on both sides of a thermoplastic chisel resin layer. This synthetic resin sheet (4) is molded by simultaneously melting and extruding the core material and the adhesive resin from the three-layer metal 9 (T-die) (6) at the tips of two extruders. As the thermoplastic core material resin, a polyethylene cape polyolefin synthetic resin is suitable (used).As the adhesive resin, a synthetic resin that is compatible with the core material resin and has adhesive properties with the metal foil (1) is used. or used, e.g. modified polyethylene,
Ethylene-vinyl vinegar copolymer and the like are used. The thickness of the synthetic resin sheet 14.1 may be appropriately determined depending on the thickness of the intended laminate.

The synthetic resin sheet 14) in a molten state after extrusion TIj1?1If) is fed between two metal foils (1) preheated by P#i packaging W (3) and a heated pressure bonding roll (61). , synthetic wood 11m sheet + 41iF)IiilIij
A laminated plate (71) is prepared by laminating the IC metal foil fi1.

When manufacturing the product II board (a), that is, synthetic resin sheet +4
In the heat-press bonding process of '・ and ** foil + l+, the surface humidity is generally 180 to 230°C to ensure good adhesion between the two.
The heated pressure bonding roll (6), the metal foil (!1 is heated, and the synthetic resin sheet 14) is also heated to 180 to 23
At 0℃, heat and pressure bonding roll (
6) Supplied by darkness. Metal foil +11 is heated and pressed with roll +61 so that the t-side temperature becomes the above temperature.
It is preheated by the ICRVt preheating device (3).

Next, the laminate (7) is passed between a pair of heating rolls (8) to remove the strain caused by the press-bonding.

For example, in the case of FIG. 2, the heating roll (8) is a roll parallel to the heating roll ill, and the take-up speed is fast, so that the laminated plate (7
) is made so that a certain tension is applied to it.

In this case, tension is applied under a humid gv atmosphere of 170-230°C. Further, in the case of Fig. 3, the heating roll (8) and the heating pressure bonding roll (6) are set at a high take-up speed, and the lamination & (
)) is wound around the heating roll (8) and meanderingly passing through the heating roll (8).

The product III plate 17) from which the strain has been removed is fed between multiple cooling forming rolls (9), and the surface is sequentially pressed by blowing cooling air as shown by the arrow in Figure 1 while controlling the cooling rate. cooled down. The above cooling air is blown on both the upper and lower sides of the laminate (), and the air volume is -! It is possible to adjust the width of the laminate plate 17), and also to adjust the widthwise central portion of the laminate plate 17) and both sides 111g. At the entrance of this cooling molding process, the attenuated layer of the synthetic s+shisheet (4), which is fsaI-like I, is not transferred by the rolls and passes from fs@- to the transition region, and at the exit, it passes through the assimilation-like state! [jE is done.

The temperature of the laminate (synthetic resin sheet 14 of 7'I) that has passed through the cold forming roll (91) is cooled to about its softening point.

Next, the laminate (7) is slowly cooled while maintaining its shape while applying a constant tension. The take-up torque of the take-off roll 1'J2 is adjusted between the cooling acid roll (9) and the take-off roll (121) in the next process, so that a high tension is applied to the laminate (71).This tension is generally C0,1~α2 is made to be immediately/-.In addition, the laminate (7; is supported by support rolls 1 in the air 11 & chamber 1 and slowly cooled, or depending on the take-up speed of the take-up roll α). The support roll (the opening 1 is not necessarily required, and the air cooling chamber and the transverse sound board 17) may be cooled slowly, but it is not necessary.

The laminate (7) taken by the take-up roll is cut into a desired length by a cutting device f13.

(Example) According to the process shown in Figure 1, high-pressure polyethylene was used as the core material and modified polyethylene was used as the adhesive material, and they were simultaneously melt-extruded from a three-layer mold (6) to a thickness of L7 and a width of 6
60 pieces of synthetic resin sheet (4) were molded. At this time, the surface temperature of the sheet was approximately 200°C.
0.15 m thick.

A stainless steel metal foil fl+ with a width of 7005 m is pulled out under tension and heated to approximately 180°C through a preheating device (3).
Very ripe. Next, the molten synthetic resin sheet (4) and the preheated metal foil (1) were fed between heated press rolls (6) at about 180°C to produce a laminate (7). The laminate (7) was supplied between heating rows and 8) at about 160°C and passed through with a tension of about α1.
Ii layer plate (7) is formed by 5 pairs of cooling rolls i9+ I! 5
The laminated plate (7) was cooled to a surface temperature of about 50° C. while blowing room temperature air onto both the upper and lower surfaces of the laminated plate 171 crJ.

This laminate plate with a tension of about 0.15 rf//1 ml was cooled in Nakara air, taken out by a take-up roll, and cut by a cutting device U.

(Effects of the Invention) As detailed above, in the method of the present invention, a laminate made of a synthetic resin sheet and a metal foil bonded by heat and pressure is passed between a pair of heating rolls to remove distortion, and then passed through a multi-stage cooling section. Cooling air is supplied between the forming rolls and the laminate is pressed and cooled while controlling the cooling rate, and a slight tension is applied to the laminate between the cooling coloring roll and the take-up roll in the next process. Since it is cooled slowly, wrinkles and waves do not occur on the surface, and a layered layer with a smooth surface can be obtained. Moreover, the process is simple and short, and the manufacturing efficiency can be increased by m1.

Additionally, since the synthetic resin sheet is formed by simultaneously melting and extruding thermoplastic core material and adhesive resin from a three-layer mold, an adhesive application process is required to bond the synthetic resin sheet and metal foil. First, it is possible to obtain a laminate in which the adhesion between the plywood sheet and the metal foil is stable.

[Brief explanation of drawings]

FIG. 1 is a manufacturing process diagram of the method of the present invention, and FIGS. 2 and 3 are explanatory diagrams showing the steps of removing distortion due to heat compression bonding in the method of the present invention, respectively. l...Metal foil, 3...Preheating device, 4...Synthetic m-shaped sheet, 5...Three-layer mold, 6...Heat pressure bonding roll, 7...
・Laminated plate, 8.. Heating roll, 9.. Cooling forming roll,
1o... air cooling room, 12. take-up roll.

Claims (1)

[Claims] 1) Thermoplastic core material resin and adhesive resin are simultaneously melted and extruded from a three-layer mold to form a synthetic resin sheet in which adhesive resin layers are laminated and integrated on both sides of the core material resin layer, while being expanded. preheating the two metal foils, and supplying the synthetic resin sheet and the metal foil between heated pressure rolls so that the metal foils are positioned on both sides of the synthetic resin sheet in a molten state to produce a laminate; After the laminate is passed between a pair of heated rolls to remove the distortion caused by the above-mentioned heat and pressure bonding, the laminate is fed between multiple cooling forming rolls and cooled air is blown to press the laminate while controlling the cooling rate. A method for manufacturing a metal laminate, which comprises cooling the laminate, and gradually cooling the laminate while maintaining its shape while applying a constant tension to the laminate between a cooling forming roll and a take-up roll in the next process.