JPH03126541A - Manufacture of resin sandwiched metallic plate - Google Patents

Abstract

PURPOSE:To improve the quality and to economize the material by arranging a resin at a central section except both end sections in the cross direction between metallic plates, disposing the resin at the central section from both ends in the cross direction between the metallic plates and compression-bonding the resin. CONSTITUTION:A resin 2 is arranged at a central section except both end sections 4 in the cross direction between metallic plates 1a, 1b, and compression- bonded by rolls 3a, 3b. One part of the resin 2 at the central section is moved to both end sections 4 at that time, and the resin 2 is disposed uniformly in the cross direction between the metallic plates 1a, lb, and compression-bonded. Accordingly, the resin is not flowed out from both end sections of the metallic plates, thus positively avoiding the deterioration of quality and the lowering of the yield of a material due to the adhesion of the resin onto the surfaces, etc., of the metallic plates.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention relates to a method for manufacturing a resin sandwich type metal plate.

(Prior Art) A method for manufacturing a resin sandwich type metal plate generally involves applying a resin to one side of one metal plate (strip), placing the other metal plate (strip) on the resin surface, and bonding with pressure.

Alternatively, a film-like resin is inserted between both metal bands and the two metal bands are similarly pressed and bonded. (Unexamined Japanese Patent Publication No. 62-53833, etc.) (Problems to be Solved by the Invention) By the way, in manufacturing such a resin sandwich type metal plate, a part of the resin is removed from both ends of the metal plate (strip) during pressure bonding. This has the disadvantage that it flows out and adheres to the surface of a metal plate, deteriorating its quality.

The present invention eliminates these drawbacks and provides a method for manufacturing a sandwich-type metal plate that improves quality and saves materials.

(Means for Solving the Problems) A feature of the present invention is that the resin is placed in the center of the metal plates excluding both ends in the width direction, or the resin is placed in the center of the metal plates excluding the widthwise ends of the metal plates up to at most 15 mm from both ends of the metal plates in the width direction. This is a method for manufacturing a resin sandwich type metal plate, which is characterized in that a resin is placed in a portion and the resin is bonded under pressure.

(for production) The present invention will be described in detail below along with its effects.

As mentioned above, the resin placed between the metal plates (bands) is placed between the metal plates (bands).
Band) Place it at the center in the width direction, and press and bond it without placing it at either end. In this way, a portion of the resin in the center moves to both ends due to pressurization, and the resin is evenly distributed throughout the space between the metal plates (bands), thereby reliably preventing the resin from flowing out from both ends of the metal plates (bands). be able to.

However, the range in which resin is not placed at both ends of the metal plate (band) is when the resin after pressure bonding is 30 to 500 μm, and there is a large amount of resin from both ends in the width direction of the metal plate (band) to the inside (center side). 15 mm is suitable. If it exceeds 15 mm, the resin may not move uniformly to both ends due to pressure bonding, and there will be places where the resin is not placed at the ends, which is not preferable. Also, if it is less than 10 aun, the resin will be placed close to the ends. However, if pressure is applied, a part of the resin may flow out from both ends of the metal plate (strip) and adhere to the surface of the metal plate (strip), resulting in deterioration of quality, which is undesirable.

Next, the present invention will be explained in detail with reference to the drawings.

In FIG. 1, the resin 2 is placed in the center between the metal plates (bands) la and lb, excluding both ends 4 in the width direction, and the rolls 3a and 3 are
Pressure-bond using b. At this time, a part of the resin 2 in the center moves to both ends 4, and the resin 2 is arranged uniformly in the widthwise direction between the metal plates (bands) la and lb, and is pressed and bonded.

(Example) Next, one embodiment of the present invention will be described.

A steel strip is used as the metal plate, and its thickness is 0.4 mm.
.

Using a width of 1000 mm, epoxy resin (solvent type) was applied to one side of the copper strip to a thickness of 43 μm in the center excluding 10 mm at both ends in the width direction of the steel strip, and after drying, 0.4 μm of epoxy resin was applied to the resin surface at 190°C.
mm thickness.

When a steel strip with a width of 1000 u+m was placed and then pressure-bonded with a roll at a pressure of 5000 kg, a resin of 43 μm could be placed over the entire width of the steel strip in the width direction. In this way, 100 tons were produced continuously, but the resin did not flow out from the end of the copper strip, and an excellent effect was exhibited.

(Effects of the Invention) As explained above, according to the method of the present invention, in the production of a resin sandwich type metal plate (strip), there is no resin outflow from both ends of the metal plate (strip), resulting in quality deterioration and metal plate (strip) production. ) Deterioration in material yield due to resin adhesion to surfaces etc. can be reliably avoided.

Further, excellent effects such as no waste of resin and cost reduction can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a front view showing an example of implementing the method of the present invention. la, lb...Metal plate (band) 2...Resin 3a, 3
b...Roll, 4...Both ends in the width direction, +l'1 diagram

Claims (2)

[Claims] (1) A method for producing a resin sandwich type metal plate, characterized in that resin is placed in the center of the metal plates, excluding both ends in the width direction, and the resin is bonded under pressure. (2) A method for producing a resin sandwich type metal plate, characterized in that resin is placed in the center of the metal plates, excluding the area within 15 mm from both ends in the width direction between the metal plates, and the resin is bonded under pressure.