JP2011025331A - Method for manufacturing punched plastic film and press machine used for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently manufacture a single leaf of plastic film by preventing the electrification of the plastic film in the process of punching the laminated body of the single leaf of plastic film. <P>SOLUTION: The method for manufacturing a punched plastic film is provided as follows: one or two or more of punching blades in a punched outline shape are provided to a press table; a through-hole smaller than the dimension of the punched outline shape and substantially similar in shape is provided in the opposite position of a press upper plate opposite of the position of the punching blade; multi-laminated plastic films are placed on the press table of the press machine having the press upper plate where the through-hole is closed by a cloth of natural fiber larger than the area of the through-hole and having an outline shape smaller than the punched outline shape, and then the press upper plate is lowered; and thereby many leaves of plastic films are collected from the inside of the punching blade. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a method for producing a single-leaf plastic film by punching a large rectangular film and a press working machine used for the method for producing the single-leaf plastic film.

In packaging of products, single-leaf punching with a non-printing single-leaf punched plastic film or a printed pattern of various outer shapes such as a fixed shape such as a decorative film used directly on the product, circular, square, polygonal or elliptical shape Plastic films are widely used.
These decorative punched films are made by continuously cutting a long thin plastic film at a certain length and laminating several tens to several hundreds of the cut rectangular large single-leaf film sequentially. Then, a large number of laminated rectangular films are produced by punching several tens to several hundreds of laminated plastic films at a time in one press punching process using a press punching machine.
Such a single-leaf punched film is manufactured by placing a plurality of laminated films on a punching press table having one or more punching blades (Thomson blades) formed in the outer shape of the single-leaf film. Press firmly from the top of the laminated film with a flat top plate to cut the outer shape of the single-leaf film at once, leaving the single-leaf plastic film inside the punching blade, and removing the long blank film. A large number of single-leaf plastic films inside the punching blade are collected to produce a single-leaf plastic film.
In the punching process using the flat plate top plate press of the prior art, when the punched single leaf plastic film is charged by friction during punching and the plate top plate press is lifted upward after pressing, Two to three sheets from the top of the stack are adsorbed and lifted by a flat plate press. The ratio of the plastic film adsorbed to the upper plate to the overall punched plastic film varies depending on the material of the plastic film, but even if the film material is the same, the thickness of the punched plastic film increases as the thickness of the punched plastic film decreases. The more the process environment is dry, the more it becomes. Depending on the environmental conditions, several tens of films may stick to the upper plate due to static electricity.
Even if a single sheet of plastic film is attached to the top plate, even if it is a single sheet, after the top plate is lifted, a thin single-leaf plastic film that is attached to the top plate with static electricity is applied. It is very troublesome to peel off and recover from the plate, which greatly reduces the production efficiency of the punched single leaf film.
Proposal of a method to prevent the film from sticking to the top plate even if static electricity occurs in the film by roughening the surface of the plastic top plate as a method to prevent the single-leaf plastic film from sticking to the top plate (Patent Document 1).
However, this method does not prevent the static electricity of the film itself from being generated. Therefore, in a dry environment where the relative humidity is low, the disadvantage that the film adheres to the upper plate cannot be completely eliminated.

Japanese Patent Laid-Open No. 2002-233959

  An object of the present invention is to prevent the charging of a plastic film in a punching process of a laminate of a single-leaf plastic film and to make the production of a single-leaf plastic film efficient.

In order to prevent electrification of the punched plastic film in the punching press process, the inventor firstly forms a natural fiber formed along the inside of the outline of the outer shape with which the punching blade of the upper plate for pressing abuts. An attempt was made to prevent the occurrence of charging of the plastic film due to the upper plate for pressing by sticking the cloth comprising the upper plate to the upper plate. The ratio dropped slightly but did not go to zero. That is, even if the surface of the upper plate is roughened with a cloth, the generation of static electricity in the plastic film cannot be prevented. As a result, the efficiency of this plastic film punching operation was hardly improved. Next, a punching process is performed by punching through the upper plate area of the inner contour portion of the natural fiber cloth adhered to the upper plate, forming a through hole, and using this for the upper plate press. As a result, surprisingly, under the same punching conditions, it was found that no single-leaf plastic film adhered to the upper plate was present, and based on this finding, as a press upper plate of the punching press machine, Each punching unit has a through hole having a similar shape smaller in size than the outer shape of the punched plastic film, and the through hole is formed by a natural fiber cloth having an area shape larger than the through hole and slightly narrower than the outer shape of the plastic film. The present invention for producing a single-sheet punched plastic film was completed by a punching press machine using a press upper plate that was closed.
The effect of preventing the sticking of the punched film to the upper plate was not effective at all even when the through hole was closed with a synthetic fiber cloth or a plastic film.
That is, the present invention
(1) A press working machine that stacks a large number of large rectangular plastic films by a punching blade provided on a press table and a press upper plate that presses the punching blade by moving up and down, and punches the stack of the large number of sheets at once. The punching board is provided with one or more punching blades having a punching outer shape, and a substantially similar through hole having a size smaller than that of the punching outer shape is formed at the position of the press upper plate facing the position of the punching blade. A large number of sheets are laminated on a press table of a press machine having a press upper plate that closes the through hole with a natural fiber cloth having an outer shape larger than the area of the through hole and smaller than the punched outer shape. A plastic film is placed, the press upper plate is lowered, pressed onto the outer punching blade, the punched outer shape is punched, and a number of plastic A method for producing a punched plastic film, comprising separating a tic film from a blank portion, raising a press upper plate, removing the blank portion, and collecting a large number of single-leaf plastic films from the inside of a punch blade. ,
(2) The method for producing a punched plastic film according to (1), wherein the punched plastic film is a printed film;
(3) A press working machine that stacks a large number of large rectangular plastic films by a punching blade provided on a press stand and a press upper plate that presses the punching blade by moving up and down, and punches the stack of the large number of sheets at once. The punching board is provided with one or more punching blades having a punching outer shape, and a substantially similar through hole having a size smaller than that of the punching outer shape is formed at the position of the press upper plate facing the position of the punching blade. A press working machine having a press upper plate that is closed by a natural fiber cloth having an outer shape larger than the area of the through hole and smaller than the punched outer shape, and (4 ) The press working machine according to (3), wherein the inside of the punching blade of the punching outer shape provided in the press table is formed in the bottom.
Is to provide.

  This has the effect of preventing the electrification of the single-leaf plastic film that occurs in the stamping press process that is inevitably used in the production of the single-leaf plastic film, and greatly improving the efficiency of the punching process of the blank plastic film.

FIG. 1 is a plan view of a large rectangular plastic film A as a raw material used for punching six octagonal single-leaf printed plastic films. FIG. 2 is a plan view seen from above the upper plate of the press when the laminate of the single-leaf printed plastic film of FIG. 1 is punched out. FIG. 3 is a plan view seen from the back side of the press upper plate 1 of FIG.

The press machine used in the present invention is a conventional press for punching a film laminate by lowering an upper plate press onto a large rectangular laminated plastic film placed on a punching blade of a press stand. With the processing machine as a basic structure, the present invention is an invention in which an antistatic means unique to the present invention is provided in the upper plate press of a normal press processing machine. A known press working machine that is normally used includes a punching blade that is processed into a desired outline shape by a Thomson blade on a press stand.
Then, a stack of rectangular films accurately stacked on this press table is manually placed in the frame of the press table, and an upper plate press that slides up and down with a thick cylinder is electrically operated. The film bundle is mechanically lowered with a strong force, and the film bundle is cut into the outer shape of the Thomson blade by pressing with an upper plate press.
After cutting, the upper plate press is raised and the punched film and the blank film are collected manually.
The press stand of the press machine according to the present invention is provided with one or more punching blades having an outer shape in a punching film unit installed upward.
The installation position of the punching blade is exactly the same as the position where the single-leaf plastic film is to be punched when a large-sized rectangular plastic film laminate having a fixed size is placed at a predetermined position on the press table.
The press upper plate of the processing machine of the present invention is smaller in size than the punched outer shape of the punched film unit at the position where the cutting edge of the punching blade contacts the lower surface of the press upper plate when the press upper plate is lowered to the position of the punching blade. It has a substantially similar through-hole. Then, a press upper plate that closes the through hole is formed by a natural fiber cloth having an outer shape larger than the area of the through hole and smaller than the punched outer shape.

FIG. 1 is a plan view of a large rectangular plastic film A, which is a raw material, used for punching six octagonal single-leaf printed plastic films.
On the surface of the large rectangular plastic film, printed patterns B having octagonal outlines are printed at six locations. The octagonal outer shape C of the printed pattern B in FIG. 1 matches the punching shape of the punching blade when the laminate of the single-leaf printed plastic film in FIG. 1 is punched.
When a laminate in which 100 large rectangular plastic films are laminated is punched out, 600 single-leaf printed plastic films can be manufactured by one press punching.
In an actual press processing machine, there are not many processing machines for punching one printed pattern B, and at least two, most of which are 8 to several tens are commonly used. In some cases, the number of stacked bodies may be punched at about 400. Therefore, for example, when 400 sheets are punched at once by 6 pieces, 2400 sheets of punched film can be manufactured by one punching.
The production efficiency of the punched film varies greatly depending on the speed at which the punched film is collected from the punching blade on the press table.
FIG. 2 is a plan view seen from above the upper plate of the press when the laminate of the single-leaf printed plastic film of FIG. 1 is punched out. The press upper plate 1 has six through holes 2 that are octagonal in outline. The octagonal outer shape of the through hole 2 needs to be a similar shape slightly smaller than the outer shape of the octagonal printed pattern B of FIG.
FIG. 3 is a plan view seen from the back side of the press upper plate 1 of FIG. The through hole 2 of the press upper plate 1 is closed on the lower surface side of the press upper plate by a natural fiber cloth 3 having an outer shape smaller than the punched outer shape C and larger than the through hole 2.
The natural fiber cloth 3 is fixed to the edge of the through hole 2 with an adhesive.
The octagonal dimensions of the natural fiber cloth 3 must be smaller than the octagonal shape of the printed pattern of FIG. 1, that is, the octagonal shape of the cutting edge of the punching blade, and larger than the outer octagonal shape of the through hole 2. Otherwise, in the punching process, there is a problem that the end of the natural fiber cloth 3 is sandwiched between the punching blade and the single-leaf printed plastic film, or the natural fiber cloth cannot be sealed in the through hole 2.

The process for producing a punched plastic film with a press machine is as follows.
(A) A large number of stamped blades of Thomson blades processed in a shape corresponding to the octagonal outer shape C of the six printed patterns B of the large rectangular plastic film of FIG. A large rectangular laminated film is accurately placed at a predetermined position.
(B) The upper plate press of FIGS. 2-3 is lowered with respect to many large rectangular laminated films on this press stand, and the laminated film is cut at once.
(C) Raise the upper plate press and take out the punched plastic film inside the punching blade of the press table. At this time, the blank film is removed.
(D) The steps (A) to (C) are repeated.
If the bottom of the punching blade of the press table is made into a hole, a bundle of punched plastic films will fall under the press table. It is desirable from the viewpoint of manufacturing efficiency that the bundle is automatically collected by a conveyor provided under the press table.
Further, the film of the blank portion remaining on the press table after punching (C) can be removed by a pressurized air flow or a suction method.
By this method, it is possible to completely prevent the punched plastic film from being stuck to the upper plate after punching by static electricity.
The stamped plastic film is mainly used as a decorative film to be put on various products. However, when it is simply used to prevent dust, the printing pattern of the large rectangular plastic film is not necessary.

INDUSTRIAL APPLICABILITY The present invention is suitably used for producing single-leaf stamped plastic films having various outer shapes.
In the present invention, the punched plastic film produced can be widely used as a film for decorating the surface of food packaging or other packaging or as a cosmetic film for preventing dust.

A Large rectangular plastic film B Printing pattern C Outer shape 1 Press upper plate 2 Through hole 3 Natural fiber cloth

Claims (4)

  A press machine for laminating a large number of large-sized rectangular plastic films by a punching blade provided on a press stand and a press upper plate that presses the punching blade by moving up and down, and punching out the laminating of the multiple sheets at once. The punching board is provided with one or more punching blades having a punched outer shape, and has a substantially similar through-hole having a smaller dimension than the punching outer shape at the position of the press upper plate facing the position of the punching blade, A plastic film in which a large number of sheets are laminated on a press table of a press machine having a press upper plate that has a through-hole closed by a natural fiber cloth having an outer shape larger than the area of the through-hole and smaller than the punched outer shape. The press upper plate is lowered and pressed onto the outer punching blade to punch the punching outer shape, and a number of plastics are placed. The film was separated from the blank portion, from raising the press upper plate, to remove the margin method for punching plastic films and recovering from the interior of the blade punching a large number of single leaf plastic film.   2. The method for producing a stamped plastic film according to claim 1, wherein the stamped plastic film is a printed film.   A press machine for laminating a large number of large-sized rectangular plastic films by a punching blade provided on a press stand and a press upper plate that presses the punching blade by moving up and down, and punching out the laminating of the multiple sheets at once. The punching board is provided with one or more punching blades having a punched outer shape, and has a substantially similar through-hole having a smaller dimension than the punching outer shape at the position of the press upper plate facing the position of the punching blade, A press machine having a press upper plate in which the through hole is closed by a natural fiber cloth having an outer shape larger than an area of the through hole and smaller than the punched outer shape.   The press working machine according to claim 3, wherein the inside of the punching blade of the punching outer shape provided in the press table is formed in the bottom.

Images