JP2012045573A - Method for manufacturing perforated plastic film - Google Patents

Abstract

PROBLEM TO BE SOLVED: To propose a method for perforating a plastic film face accurately and efficiently using a laser.SOLUTION: In a method for manufacturing a perforated plastic film by perforating the plastic film by radiating a laser, the thickness of the plastic film is between 10 and 300 μm, at least two or more guide rolls are provided on the way the plastic film runs from a feed roll to a wind roll, the guide rolls are arranged at a right angle and in parallel to the running direction of the plastic film, between the guide rolls, a laser radiating device for radiating the laser to the face of the plastic film is arranged, and the plastic film is perforated by the laser radiating device.

Description

The present invention relates to a method for producing a perforated plastic film. In particular, the present invention relates to a method for producing a perforated plastic film that can perforate at any position without limitation when the plastic film is perforated by irradiating a laser.

  It may be desired that the plastic film has a certain air permeability depending on its use. Normally, a plastic film made of a material having a desired air permeability is selected. However, when the required air permeability cannot be satisfied due to the properties of the plastic film itself, or a certain thickness is required in terms of strength. As a result, sufficient air permeability may not be maintained. In such a case, a hole is made in a plastic film by a mechanical, electrical or optical method.

  One method of optically perforating a plastic film is to use a laser. Lasers can be processed in a non-contact manner, collecting energy precisely at small points and having little effect on the surroundings, making it possible to accurately drill holes in low-rigidity plastic films. it can. However, in order to perforate with a laser while the plastic film is running, it is necessary to always maintain a certain distance from the laser irradiation device to the surface of the plastic film. May occur. For this reason, there is a method of installing a support material for supporting the plastic film with a roll or the like at a position opposite to the laser irradiation device at a position where the hole of the plastic film is opened, but in this method, the support material is There are problems such as damage caused by the laser, and when the support material is a metal roll, the laser reflects and is dangerous.

Therefore, Patent Document 1 proposes a method of irradiating a plastic film with a pulse laser on a rotating support roll provided with a groove corresponding to the irradiation position of the pulse laser. In this method, a position where the groove exists is proposed. However, there was a problem that it was necessary to replace the roll when changing the position of the hole.

Japanese Patent No. 3931250

  According to the method of Patent Document 1, a plastic film that does not cause scorching or blackening around the hole is made possible. However, by using a rotation support roll provided with a groove corresponding to the irradiation position, the arbitrary position of the hole position in the direction perpendicular to the winding direction is low, and it is necessary to produce a rotation support roll in consideration of the hole position. is there. Moreover, it is necessary to change to a rotation support roll suitable for the processing position every time the product number changes, and there is a problem that workability is lowered.

The present inventor has intensively studied in view of the above-mentioned problems, and has found a manufacturing method in which the hole position is highly optional in the direction perpendicular to the plastic film winding direction on the plastic film surface, and the work efficiency is not lowered. The present invention has been completed.

That is, the present invention is shown below.
(1) In the method for producing a perforated plastic film in which a plastic film is perforated by irradiating a laser, the thickness of the plastic film is 10 to 300 μm, and the plastic film travels from a winding roll to a winding roll There are at least two guide rolls, and the guide rolls are arranged in parallel and perpendicular to the traveling direction of the plastic film, and laser irradiation is performed between the guide rolls to irradiate the laser on the plastic film surface. This is a method for producing a perforated plastic film in which an apparatus is disposed and the plastic film is perforated by the laser irradiation apparatus.

(2) Floating rolls are disposed between the unwinding roll and the guide roll closest to the unwinding roll and between the winding roll and the guide roll closest to the winding roll, respectively ( It is a manufacturing method of the perforated plastic film as described in 1).
(3) The method for producing a perforated plastic film according to (1) or (2), wherein a pressing roll is disposed in contact with the guide roll, and the plastic film passes between the guide roll and the pressing roll. .

By using the method for producing a plastic film according to the present invention, a perforated plastic that is highly perpendicular to the winding direction of the plastic film on the surface of the plastic film and that is highly free of hole positions and is not subject to hole position restrictions. A film can be made. In addition, when the hole position is changed due to the specification change (product number change) of the perforated plastic film to be produced, the hole position can be changed simply by changing the irradiation position of the pulse laser, which simplifies the work. Therefore, labor saving can be achieved.

FIG. 1 is a side view for explaining the plastic film manufacturing method of the present invention. FIG. 2 is a side view for explaining the plastic film manufacturing method of the present invention. FIG. 3 is a side view for explaining a conventional plastic film manufacturing method.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all the drawings, the same reference numerals are given to the same components, and the description will be omitted as appropriate.

  The material of the plastic film that can be produced according to the present invention is not particularly limited. Synthetic plastic film such as polyvinyl chloride film, polyvinylidene chloride film, polyvinyl acetate film, polyvinyl alcohol film, nylon 6 film, nylon 66 film, polyester film, polycarbonate film, fluororesin film, two or more kinds of plastic films Applied to mixed plastic films formed by mixing, laminated plastic films consisting of two or more types of plastic layers, etc. Rukoto can. Laminated plastic films can be produced by laminating single layer plastic films or by coextrusion.

The thickness of the plastic film that can be produced by the method of the present invention is not particularly limited, and by selecting an appropriate laser type and processing conditions, it is possible to perforate a plastic film having a wide range of thicknesses. The thickness of the plastic film is preferably 10 to 300 μm, and more preferably 20 to 100 μm.

Drawing 1 is an explanatory view showing one mode of a manufacturing method of a perforated plastic film of the present invention. In the apparatus of this figure, the plastic film 2 unwound from the unwinding roll 1 is supplied to two guide rolls 6 arranged in parallel, and then the plastic film 2 is wound up by the winding roll. The two guide rolls 6 are arranged in parallel so as to be perpendicular to the traveling direction of the plastic film, and when passing between the two guide rolls, the laser irradiation arranged between the two guide rolls Upon receiving the pulse laser beam from the apparatus 3, a hole equivalent to the beam shape is formed in the plastic film.
The guide roll is in the course of the plastic film running process that flows from the unwinding roll to the take-up roll, and is used to accurately make holes in the plastic film using a laser irradiation device. The plastic film travels along the surface of the guide roll, and the guide roll is preferably installed so as to protrude from the position of the unwinding roll, the winding roll, etc. as shown in FIG. The number of guide rolls is two in FIG. 1, but may be three or more guide rolls. By using two or more guide rolls, an appropriate tension is generated in the plastic film traveling between adjacent guide rolls, and fine vibrations generated perpendicular to the plastic film surface are generated by the plastic film traveling. The number of holes can be reduced and an accurate hole can be formed.

It is preferable that a tension of 1 to 10 kg / film width is applied to the plastic film between the guide rolls in the running direction of the plastic film. This tension can be generated by adjusting the rotational torque of the unwinding roll and the winding roll. If the film width is less than 1 kg / film, sagging of the plastic film occurs between the guide rolls, making it impossible to make an accurate hole at the required position. If the film width exceeds 10 kg / film width, the plastic film is stretched and the hole shape is reduced. There is a possibility that the required opening diameter may not be obtained.

  The distance between the adjacent guide rolls is not particularly limited, but preferably the distance between the centers of the guide rolls is 150 to 600 mm. If the distance between the centers of the guide rolls is less than 150 mm, the outer diameter of the guide rolls becomes thin and the speed of the plastic film tends to vary, and if the distance between the centers of the guide rolls exceeds 600 mm. The plastic film between the guide rolls starts to vibrate finely perpendicularly to the plastic film surface, and there is a possibility that a hole having an accurate size cannot be formed.

The surface of the roll may be the same as the surface treatment of the roll used for normal film production.
The running speed of the plastic film at the time of drilling is not particularly limited, but is preferably 40 to 120 m / min, and more uniform holes can be formed.
The size of the hole to be opened is not particularly limited, but preferably has a diameter of 50 to 500 μm, and more uniform holes can be efficiently opened. More preferably, it is 80-400 micrometers.

There is no restriction | limiting in particular in the laser used in this invention method, For example, a ruby laser, a neodymium YAG laser, a neodymium glass laser, a carbon dioxide gas laser etc. can be mentioned. Among these, a carbon dioxide laser is particularly suitable because it has high energy efficiency, high output, and easy heat removal. According to the present invention, holes can be formed in a plastic film at high speed and with high productivity. Since the shape of the hole is determined by the shape of the pulse laser beam, a hole having a constant shape can always be formed, and a circular shape or an elliptical shape close to a circular shape is preferable.
The laser output time is determined by the size of the hole and the thickness of the film, but is preferably in the range of 50 to 1,000 μS (microseconds) in order to form a uniform hole.

A laser irradiation apparatus in particular is not restrict | limited, A normal laser irradiation apparatus can be used. A laser irradiation apparatus is installed in the position on the opposite side to a guide roll with respect to a plastic film running surface between adjacent guide rolls. When the plastic film traveling surface is irradiated with a laser to make a hole in the plastic film surface, it is preferable that the laser irradiation device is installed at a position where the laser transmitted through the opened hole does not reflect on the roll surface of the guide roll. More preferably, the laser irradiation apparatus is installed at the apex of an isosceles triangle with the plastic film traveling surface of the adjacent guide roll as the base, with the adjacent guide roll viewed from the side (end surface of the guide roll). It is preferable. For example, when three guide rolls are used, the laser irradiation device may be installed between the first and second guide rolls or between the second and third guide rolls. When the laser irradiation apparatus is installed, it may be installed between the guide rolls, and is not particularly defined as long as it is installed between the adjacent guide rolls. In addition, it is preferable to arrange the guide rolls horizontally, run the plastic film horizontally, and irradiate the laser perpendicularly to the plastic film surface. However, the plastic film surface runs diagonally or runs vertically. In this state, laser irradiation may be performed from a direction substantially perpendicular to the plastic film surface.
By selecting the number of laser irradiation devices to be installed and adjusting the pulse laser cycle and the traveling speed of the plastic film, it is a perforated plastic with an arbitrary hole density ranging from sparse to dense holes. A film can be produced. The perforated plastic film produced by the method of the present invention and having a controlled pore diameter and pore position can be used as a membrane for controlling the permeation amount of molecules having a specific size. The laser irradiation device is preferably installed so that it can move with respect to the film so that it can perforate at a required location or a required number of holes, for example, perpendicular to the traveling direction of the film. It is preferable that the film is installed freely in the width direction of the film by a method of attaching to the arranged shaft with a screw or the like.

As shown in FIG. 1, floating rolls 7 are provided between the unwinding roll and the guide roll closest to the unwinding roll and between the winding roll and the guide roll closest to the winding roll, respectively. Preferably it is.
FIG. 2 is an explanatory view showing another embodiment of the plastic film manufacturing method of the present invention. In the apparatus of this figure, a pressing roll 10 is disposed at a position where the plastic film 2 is sandwiched against the guide roll 6. The presence of the pressing roll 10 makes it possible to accurately control the tension of the plastic film between the adjacent guide rolls.

Hereinafter, the present invention will be described in more detail with reference to examples, but the present invention is not limited to these examples.
<Example>
A biaxially stretched polypropylene film having a thickness of 30 μm and a width of 600 mm was punched. The target size of the hole was a diameter of 180 μm.
Five carbon dioxide lasers with an output of 60 watts were installed at positions corresponding to film processing positions (positions at 50 mm, 175 mm, 300 mm, 425 mm, and 550 mm from the film end). Using two guide rolls (diameter: 80 mm, distance between center axes of guide rolls: 200 mm), a tension of 5 kg / 600 mm is applied between the guide rolls, and the film is run at a running speed of 60 m / min. Pulse laser was irradiated 10 times per second from the position. Opening processing was performed for 20 minutes under the above conditions. The processed film had 50 holes per meter. When the film was observed with a scanning electron microscope, the average diameter of the holes was 180 μm, and uniform, substantially circular holes were obtained.
Next, using the same film as above, four carbon dioxide lasers were arranged (positions of 50 mm, 250 mm, 350 mm, and 550 mm from the end of the film), and holes were formed under the above conditions. The film had 40 holes per meter length. When the film was observed with a scanning electron microscope, all the hole shapes were uniform. The average diameter of the holes was 180 μm, and uniform almost circular holes were obtained. The operation of changing the carbon dioxide laser from 5 to 4 was as easy as about 15 minutes, and it was possible to easily make a hole at a desired hole position. If a roll with 5 grooves is replaced with a roll with 4 grooves, it will take several hours, and it is possible to install a replaceable device in a short time. This is not preferable in terms of installation location.

By using the present invention, it is possible to easily and continuously provide pores in the plastic film, and the provided pores can be uniform. The perforated plastic film produced using the present invention can be used, for example, as a membrane for controlling the permeation amount of a molecule having a specific size, and can be applied to food packaging.

DESCRIPTION OF SYMBOLS 1 Unwinding roll 2 Plastic film 3 Laser irradiation apparatus 4 Rotating support roll 5 Winding roll 6 Guide roll 7 Floating roll 10 Pressing roll

Claims (3)

In the method for producing a perforated plastic film, in which the plastic film is perforated by irradiating with a laser, the thickness of the plastic film is 10 to 300 μm, and the plastic film travels from the unwinding roll to the take-up roll at least 2 There are more than one guide rolls, and the guide rolls are arranged in a direction perpendicular to the traveling direction of the plastic film, and a laser irradiation device for irradiating the laser onto the plastic film surface is arranged between the guide rolls. A method for producing a perforated plastic film, wherein the plastic film is perforated by the laser irradiation device.   2. The perforated hole according to claim 1, wherein floating rolls are respectively arranged between the unwinding roll and the guide roll closest to the unwinding roll and between the winding roll and the guide roll closest to the winding roll. Manufacturing method of plastic film.   The method for producing a perforated plastic film according to claim 1, wherein the pressing roll is disposed in contact with the guide roll, and the plastic film passes between the guide roll and the pressing roll.

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