JPS6123079A - Adhesion of composite paper in equipment in continuous cutting line, etc. - Google Patents

Abstract

PURPOSE:To permit the superior electrostatic adhesion by electrifying the adhesion surface side of a metal web and/or the adhesion surface side of a composite paper with static electricity on the inlet side of a pinch roller, when the composite paper is attached onto the metal web. CONSTITUTION:A metal web 12 is transported, setting upward the coated surface C side which is surface-treated, and the surface is electrified with static electricity by a static-electricity generating apparatus 26. While, the composite paper 20 for protecting the surface is sent, keeping the polyethylene surface B upward, from over the pass line for the metal web 12, and the paper surface A is electrified with static electricity by a static-electricity generating apparatus 28, and the composite paper is closely attached onto the metal web 12 by a pinch roller 16. Though, in this case, the polyethylene surface B has the higher specific dielectric constant than that of the paper surface C, the amount of electrification of the surface B is little, since the surface A is electrified with static electricity, and the disturbance of arranged agglomeration due to the attraction of the metal web succeedingly transported during agglomeration is prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Application of the Invention] The present invention relates to a method for adhering interleaf paper in equipment such as a continuous cutting line, and particularly relates to a method for adhering interleaf paper in equipment such as a continuous cutting line, and particularly when the lithographic printing plate metal web or interleaf paper has a multilayer structure with different electrical properties. If configured as
This invention relates to a method for adhering interleaving paper in equipment such as a continuous cutting line, which is optimal for adhering interleaving paper closely.

[Background of the invention]

Conventionally, planographic printing plates have been so-called PS plates (P
resensitized Plate+ rp below
However, there is a risk that the surface of metal sheets cut using continuous cutting equipment for metal webs such as the 23rd edition may be scratched during stacking or during the subsequent transportation process.

To prevent this, a method of bonding interleaf paper to the surface of the metal web is generally used.

Conventionally, as a method for adhering interleaving paper to a metal web, a method is known in which an interleaving paper is stacked on a metal web, and the interleaving paper and the metal web are electrically charged and brought into close contact with each other. For example, Japanese Patent Application Publication No. 55
As described in Japanese Patent No. 106723, gold paper is brought into close contact with the lower surface of the metal web by pinch rolls, the air in the intermediate layer is exhausted, and an electrostatic generator is installed immediately after the exit side, and the metal paper is A method of adhering interleaving paper by applying an electrostatic force to the interleaving paper immediately after it has been brought into close contact with the substrate is known.

However, in the above-mentioned interleaving paper bonding method, the metal web and the interleaving paper are brought into close contact with each other using a vinyl roll, and a static electricity generating device is provided on the upper surface of the paper immediately after the exit of the vinyl roll to bond the paper.
For example, when using a multilayer interleaving paper such as a metal web with surfaces with different electrical properties such as a PS plate, or a polyethylene laminate, the interleaving paper may not adhere well to the web, or the polyethylene surface may This has the disadvantage that it adheres to the metal sheets being conveyed, making it difficult to convey the metal sheets smoothly and making it difficult to align and stack them.

[Purpose of the invention]

The present invention has been developed in view of the above circumstances, and allows for good electrostatic adhesion of interleaf paper to metal webs having surfaces with different electrical properties. The purpose is to achieve good electrostatic adhesion of different multilayer interleaving papers to a metal web.

[Summary of the invention]

In order to achieve the above object, the present invention is characterized in that electrostatic charging is performed from the adhesive surface side of the metal web and/or the adhesive surface side of the interleaf paper on the input side of the pinch roller.

- [Example] Preferred embodiments of the interleaving paper bonding method in equipment such as a continuous cutting line according to the present invention will be described in detail below with reference to the accompanying drawings. FIG. 1 shows a schematic configuration of continuous cutting line equipment. A web 12 (PS plate) is unwound from the metal web roll 1o on which the PS plate is wound into a coil, and this metal web 12 is transported by a plurality of conveying rollers 14, 14...
through which you will be led to Decala 15.15.15. The web 12 is decurled by the decurler 15.15.15 and then conveyed to the pinch rollers 16.

On the other hand, an interleaving paper roll 18 in which interleaving paper laminated with polyethylene is wound into a coil shape has a plurality of conveyance rollers 22, 22...
... is conveyed above the pass line of the metal web 12. The slip paper 2o is sent to the pinch roller 16 through the expander roller 24, where the slip paper 2o is sent to the pinch roller 16 as shown in FIG.
The paper surface A (opposite surface to the polyethylene surface B) of the paper 12 and the coated surface C of the metal web 12 are tightly adhered to each other. A static electricity generating device 26 for metal web or a static electricity generating device 28 for interleaf paper is provided on the input side of the pinch roller 16. A puncher 30, a slitter 32, and a cutter 34 are arranged in this order on the exit side of the pinch roller 6. In the slitter 32, the side edges of the metal web 12 are cut, and the cut side edges are sent through a chute 36 to a scrap chopper 38. The side edges cut into strips by the scrap chopper 38 are sent to a scrap conveyor 40 and discharged. On the other hand, the metal web 12 whose side edges have been cut by the slitter 32 is cut into predetermined lengths by a counter 34. The cut sheet metal web is sent by the cutter output conveyor 42 to the output conveyor 44 and discharged.

First, a method of adhering the metal web 12 by electrostatically charging it in the continuous cutting line equipment configured as described above will be described. The metal web 12 is conveyed from the roll 10 with the surface-treated coating surface C facing upward. When this metal web 12 passes through conveyance rollers 14.14, . On the other hand, from above the pass line of the metal web 12, the interleaving paper 2
゜ is sent, and both paper side A of the interleaf paper 2o and the metal web 12
The coated surfaces C and C are electrostatically bonded so that they face each other. After that, the metal web 12 and the interleaving paper 2o are pinched by the pinch rollers 16, and the air layer located between the metal web 12 and the interleaf paper 2o is discharged, and the two come into close contact with each other. According to the embodiment, since the coated surface C is electrostatically charged, it comes into good close contact with the interleaf paper 2o despite the coated surface C having a high electrical resistance. In addition, since the interleaving paper 2o has the polyethylene side B facing upward and the metal web 12 is electrostatically charged, the amount of charge on the polyethylene side B on the upper surface of the interleaf paper 2o is small after the two are bonded, and therefore the metal web 12 When stacking after cutting, the next transported upper metal web will not adhere to the polyethylene surface.

In the embodiment described above, a static electricity generator 26 was provided to electrostatically charge the metal web 12, but a static electricity generator 28 may be provided to charge the interleaving paper 20 side. That is, the interleaving paper 20 is transferred from the roll 28 to the conveying rollers 22, 22, . . .
. . , and is sent to the pinch roller 16 side via the expander roller 24'. The interleaving paper 20 is fed with the polyethylene side B facing upward. When the interleaving paper 20 passes through the static electricity generation device 28, the static electricity generation device 28 electrostatically charges the paper surface A of the interleaf paper 20, so that the paper surface A of the interleaf paper 20 has an electric charge. Thereafter, the metal web 12 and the interleaf paper 20 are brought into close contact with each other by the pinch roller 16 in the same manner as described above. As a result, the paper surface A of the interleaf paper 20 and the coated surface C of the metal web 12 are electrostatically bonded to each other so as to face each other. Compared to the lower paper surface A, the polyethylene surface B of the interleaf paper 20 has a higher dielectric constant and is more likely to generate static electricity, but since the paper surface A is electrostatically charged, the polyethylene surface B
The amount of electrification is small, so that the polyethylene surface B side will not attract the next metal web to be conveyed during stacking and disturb the alignment and stacking.

In the embodiment described above, the metal web 12 was electrostatically charged by the electrostatic generator 26, or the interleaving paper 20 was electrostatically charged and bonded by the electrostatic generator 28, but the electrostatic generators 26 and 28 were used at the same time. Alternatively, the metal web 2 and the interleaving paper 20 may be electrostatically charged at the same time and bonded together.

〔Effect of the invention〕

As explained above, according to the interleaving paper adhesion method in equipment such as a continuous cutting line according to the present invention, electrostatic charging is performed from the adhesive surface of the metal web and/or the adhesive surface of the interleaving paper, so that one side of the interleaving paper can be electrostatically charged. An interleaving paper composed of layers having different electrical properties, such as a polyethylene laminate interleaving paper, can be satisfactorily electrostatically bonded to a metal web such as a PS plate. In addition, since electrostatic charging is performed from the adhesive side, the charging on the top surface of the interleaf paper is reduced, and there is no possibility of suction adhering the next upper metal web to be transported during stacking, which would disturb the alignment. There isn't.

[Brief explanation of the drawing]

Fig. 1 is a schematic diagram of continuous cutting line equipment for implementing the interleaving paper adhesion method in equipment such as a continuous cutting line according to the present invention, and Fig. 2 is a sectional view showing the state of adhesion between a metal web and interleaving paper. be. 10... Metal web roll, 12... Metal web, 18... Interleaving paper roll, 20... Interleaving paper,
26... Static electricity generator for metal web, 28...
Static electricity generator for interleaf paper. Agent Patent Attorney Ken Matsuura Procedural Amendment March 13, 1985 1. Indication of the case 1982 Patent Application No. 143143 2. Name of the invention Method for gluing paper in equipment such as continuous cutting line 3. Amendment Relationship with the case involving the person who filed the patent application Patent applicant address 210 Nakanuma, Minamiashigara City, Kanagawa Prefecture Name (520) Representative of Fuji Photo Film Co., Ltd.
Minoru Ohnishi 7, Contents of the amendment (1) "Despite the coated surface C having high electrical resistance" in page 6, lines 12 and 13 of the specification, [the coated surface C with high electrical resistance has an electric charge] This is corrected. (2) "In other words, from roll 28" in the fourth line of page 7 of the specification is corrected to "in other words, from roll 18."

Claims (1)

[Claims] (1) In the interleaving paper bonding method in equipment such as a continuous cutting line, in which the metal web and the interleaving paper are brought into close contact with each other by the pressure of the pinch roller, and are also bonded by static electricity, the adhesive surface of the metal web is placed on the entry side of the pinch roller. A method for adhering interleaving paper in equipment such as a continuous cutting line, characterized by electrostatic charging from the side and/or the adhesive side of the interleaving paper.