JP3966773B2 - Cylindrical film connection method and film roll - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a tubular film connecting method for connecting tubular films in a state of being folded into a sheet shape, and a tubular film used in the connecting method.
[0002]
[Prior art]
Cylindrical labels formed of synthetic resin films, such as shrink labels and stretch labels attached to bottles, etc., are long strip labels that are folded into a sheet with a number of labels connected continuously. It is common to mount the forming substrate on a bottle or the like while forming individual labels by sequentially cutting in a labeling device. Such a long strip-shaped label forming substrate is usually a paper tube. A base material roll wound around in the form of a roll is set in a base material delivery device of a labeling system, and is sent out to the labeling device while being continuously fed out from the base material delivery device.
[0003]
By the way, since the length of the label-forming base material that can be wound in a roll shape is naturally limited, the base material roll set in the base material feeding device must be frequently replaced, and the labeling device It cannot be operated efficiently.
[0004]
For this reason, after the label forming base material has been sent out from the base material roll, the end portion of the label forming base material is automatically connected to the starting end portion of the label forming base material fed out from the new base material roll. In the past, it has been desired to feed a label-forming substrate from a new substrate roll to a labeling device. As a method suitable for automatic connection of such a tubular film, for example, a tube as shown below A method for connecting a film-like film has been proposed.
[0005]
In this tubular film connecting method, as shown in FIGS. 10 (a) and 10 (b), first, both side edges at the starting end portion of the tubular film F fed out from the film roll are cut off so as to be separated. When the insertion portion S is formed in advance and the tubular film F is sent out from the film roll, as shown in FIGS. 11 (a) and 11 (b), the starting end of the tubular film F fed out from the new film roll The end of the sent-out tubular film F is sandwiched between the end portions of the sent-out tubular film F in the sandwiching part S formed in the part, and as shown by the alternate long and short dash line in FIG. And the start end of the tubular film F before delivery are heat-sealed.
[0006]
[Problems to be solved by the invention]
In the tubular film connecting method described above, the end portion of the other tubular film F is placed on the sandwiched portion S by separating the sandwiched portions S formed at the starting end portion of the one tubular film F from each other. Can be sandwiched easily, and there is an advantage that both the tubular films F can be connected easily and reliably without using a complicated connection mechanism. When a printing layer is formed on the inner surface of the film or the outer surface of the film as in the case of a cylindrical label, the heat sealability between the two films deteriorates, and there is a problem that sufficient adhesive strength cannot be ensured. is there.
[0007]
Then, even if it is a case where the printing layer is formed in the inner surface and the outer surface, the subject of this invention is the cylindrical film connection method which can ensure sufficient adhesive strength, and the cylindrical shape used for the connection method To provide a film.
[0008]
[Means for solving the problems and effects thereof]
In order to solve the above-mentioned problem, the invention according to claim 1 is a tubular film connecting method for mutually connecting tubular films in a state of being folded into a sheet with a printed layer formed on the inner surface , In one tubular film to be connected, a pair of detachable sandwiching portions is formed in advance by opening both side edges at the end portions in advance, and an outer surface is formed on the inner surface of the pair of sandwiching portions. surface leave attached respectively an adhesive seal formed by heat-sensitive adhesive layer, the nip portion of the tubular film in which the adhesive seal is attached, the end of the other of the tubular film to be connected A cylindrical film connecting method is provided in which the adhesive seal and the end of the other cylindrical film are heat-sealed.
[0009]
As described above, in this tubular film connecting method, the adhesive seals each having the outer surface formed by the heat-sensitive adhesive layer are adhered to the inner surfaces of the pair of sandwiched portions formed on one tubular film. Since the adhesive seal and the other tubular film are heat-sealed with the end portion of the other tubular film sandwiched between the sandwiched portions formed on one tubular film , the tubular shape be the inner surface printed layer is formed of a film, and one of the tubular film inner surface is adhered the adhesive seal of the outer surface of the reliably heat sealing the outer surface of the other of the tubular film, sufficient adhesion Strength can be secured.
[0010]
In order to solve the above-mentioned problems, the invention according to claim 2 is a tubular film connecting method for mutually connecting tubular films folded in a sheet shape having a printed layer formed on the outer surface. Then, in the one tubular film to be connected, a pair of detachable sandwiching portions are formed in advance by cutting both side edges at the end portions in advance, and the other tubular film to be connected is formed. the advance, at its end an outer surface, an adhesive seal outer surface formed by the heat-sensitive adhesive layer in advance by sticking respectively, to the nip portion formed on one of the tubular film, the adhesive A tubular film contact characterized in that an end of the other tubular film to which the seal is stuck is sandwiched to heat-seal the adhesive seal and the sandwiched portion of the one tubular film. It is to provide a method.
[0011]
As described above, in this tubular film connection method, the adhesive seal formed on the outer surface of the other tubular film with the heat-sensitive adhesive layer is adhered to the outer surface of the end portion of the other tubular film. Since the adhesive seal and the one tubular film are heat-sealed in a state where the end portion of the other tubular film is sandwiched between the sandwiched portions formed in the printing layer, the printing layer is formed on the outer surface of the tubular film. be formed, the other tubular outer surface of the adhered cohesive seal the outer surface of the film, the inner surface of one of the tubular film can be reliably heat-sealed, can be ensured a sufficient adhesion strength .
[0012]
When the cylindrical film connecting method of the invention according to claim 1 is adopted, as in the invention according to claim 3, a long belt-like tubular film folded in a sheet shape having a printing layer formed on the inner surface. the a film roll formed by winding into a roll, at one end of the tubular film has a pair of pinching portion capable separated which is formed by cutting open the side edges, the clamping It is sufficient to use a film roll characterized in that an adhesive seal whose outer surface is formed by a heat-sensitive adhesive layer is adhered to the inner surface of the insert portion, and the cylindrical film of the invention according to claim 2 In the case of adopting the connection method, as in the invention according to claim 4, a film roll formed by winding a long strip-like tubular film folded in a sheet shape and having a printed layer formed on the outer surface into a roll shape there is, before At one end of the tubular film, a pair of pinching portion capable separated which is formed by cutting open the side edges, the outer surface of the other end portion of the tubular film, the outer surface What is necessary is just to use the film roll characterized by the adhesion seal | sticker formed with the heat-sensitive adhesive layer being affixed, respectively.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments will be described with reference to the drawings. The cylindrical film 1 shown to Fig.1 (a), (b) is the thing with which the cylindrical label with which a bottle etc. were mounted | worn was connected continuously, and was wound in roll shape in the state folded in the sheet form. The film roll is set in a film delivery device, and is sent out to the labeling device while being fed out from the film roll by the film delivery device.
[0014]
As shown in FIG. 2, the cylindrical film 1 includes a label substrate 11 formed of a shrink film made of a polyester resin such as polyethylene terephthalate, a polystyrene resin, or the like, and a gravure on the inner surface side of the label substrate 11. It is composed of a printing layer 12 that displays product names, designs, etc., laminated by printing, etc., and the labeling device sequentially cuts the tubular film 1 delivered from the film delivery device, so that individual labels The printing layer 12 is intermittently formed through a clear portion having a predetermined width serving as a cutting position.
[0015]
As shown in FIGS. 1 (a) and 1 (b), one end of the tubular film 1, that is, the starting end of the tubular film 1 serving as the feeding end from the film roll, is slanted on both side edges. By being cut out, a separable sandwiching portion S is formed, and a tape-like adhesive seal 20 having a predetermined width is adhered to the inner surface of the sandwiching portion S, respectively.
[0016]
As shown in FIG. 3, the adhesive seal 20 includes a seal substrate 21 formed of a plastic film such as polypropylene, polyethylene terephthalate, polyethylene, or the like having a thickness of 10 to 100 μm, synthetic paper, paper, and the like, and the seal substrate. 21 has a three-layer structure consisting of an adhesive layer 22 laminated on the inner surface of 21 and a heat-sensitive adhesive layer 23 laminated on the outer surface of the seal substrate 21, and the adhesive seal 20 is interposed via the adhesive layer 22. It is affixed on the inner surface of the sandwiching part S of the tubular film 1. Therefore, in a normal state where heating is not performed, even if the heat-sensitive adhesive layers 23 of the adhesive seal 20 adhered to the inner surface of the sandwiched portion S are in contact with each other, the adhesive seals 20 are not bonded to each other. Further, the sealing substrate 21 can be formed of a metal foil such as an aluminum foil, a metal vapor-deposited film, or a laminate thereof, and in that case, an adhesive seal can be detected by a metal detector or the like. When a tubular film (label) with an adhesive seal is attached to a bottle or the like, it can be removed reliably.
[0017]
The pressure-sensitive adhesive layer 22 is formed to have a thickness of about 10 to 30 μm by an acrylic or rubber-based pressure-sensitive adhesive so that the pressure-sensitive adhesive seals 20 respectively attached to the inner surface of the sandwiching portion S are not easily peeled off. Furthermore, the adhesive strength with respect to the surface of the printing layer formed of polyethylene terephthalate or polystyrene has an adhesive force of 5 N / 15 mm or more, preferably 10 N / 15 mm or more. In addition, the adhesive strength of the adhesive layer 22 described above is such that a strip-shaped test piece having a width of 15 mm is attached to the surface of a film piece of the adherend with a width of 20 mm and adhered (adhesion), and is 1000 mm / min by a tensile tester. It shows the adhesive strength when pulled in the shear direction at a speed.
[0018]
The heat-sensitive adhesive layer 23 is composed of an ethylene vinyl acetate copolymer (EVA), an ethylene acrylate ester resin, a chloroprene resin, a neoprene resin and a delayed tack type heat sensitive adhesive containing a solid plasticizer, ethylene vinyl acetate. Hot melt adhesive such as copolymer resin (EVA), ethylene vinyl acetate copolymer resin (EVA), ethylene acrylic acid ethyl ester copolymer (EEA), ethylene methacrylic acid copolymer (EMAA) type extrusion coating thermal adhesive It is formed with a part-coat type (solution application type) heat-sensitive adhesive obtained by applying and drying organic solvent solutions such as water, EVA, EEA, and aqueous emulsions, and activates at 70-100 ° C to provide adhesive strength. Resulting in an adhesive strength after bonding of 5 N / 15 mm or more, preferably 7 N / 15 mm It has an adhesive force of the above. The heat-sensitive adhesive layer 23 is desirably formed to a thickness of 3 to 10 μm by a solution coating type that can be applied relatively thinly so that an adhesive force is expressed (cooled) immediately after bonding. The adhesive strength of the above-mentioned heat-sensitive adhesive layer 23 is such that a strip-shaped test piece having a width of 15 mm is stacked on the surface of the film piece of the adherend, heat-sealed with a width of 3 mm over the entire width of the test piece, and 1000 mm by a tensile tester. It shows the adhesive strength when pulled in the shear direction at a speed of / min.
[0019]
When the cylindrical film 1 configured as described above is sent out from the film roll set in the film sending device, a new film roll is set in the film sending device, and the pre-sending before being fed out from this film roll. A starting end portion of the tubular film 1 and a terminal end portion of the sent tubular film 1 are connected to each other. Hereinafter, the connection method will be described with reference to FIGS.
[0020]
First, as shown in FIGS. 4 (a) and 4 (b), the sandwiched portions S formed at the starting end of the tubular film 1 before delivery are separated from each other and delivered to the separated sandwiched portions S. The terminal portion of the subsequent tubular film 1 is sandwiched. At this time, a plate-shaped inner guide IG is accommodated inside the end portion of the sent-out tubular film 1, and the start-end portion of the tubular film 1 before sending and the sent-out tubular film 1 are accommodated. A pair of impulse sealers IS are waiting in a state of being opposed to each other so that the overlapping portion with the terminal portion can be sandwiched from the outside.
[0021]
Subsequently, as shown in FIG. 5, the pair of impulse sealers IS are clamped by sandwiching the overlapping portion of the starting end of the tubular film 1 before sending and the terminal end of the sending tubular film 1. When the current is passed through the impulse sealer IS and heated, the area of the heat-sensitive adhesive layer 23 of the adhesive seal 20 in contact with the impulse sealer IS is activated and adhered to the starting end of the tubular film 1 before delivery. Since the adhesive seal 20 and the outer end surface of the tubular film 1 that has been sent out are bonded together, the end part of the tubular film 1 that has been sent out and the start end of the tubular film 1 that has been sent out are adhered to the adhesive seal 20. Connected through.
[0022]
After that, as shown in FIG. 6, when the pair of impulse sealers IS are separated from the overlapping portion of the starting end portion of the tubular film 1 before sending and the terminal end portion of the sending tubular film 1, the film sending device Will be in the state which can send out the cylindrical film 1 before sending out. In this state, since the end portion of the tubular film 1 that has already been sent is connected to the inside of the starting end portion of the tubular film 1 that has not been sent, the labeling device is folded into a sheet shape. When the cylindrical film 1 is opened, the connecting portion between the cylindrical films 1 is not caught by the opening mechanism part, and can be reliably opened.
[0023]
As described above, in this connection method of the tubular film 1, an adhesive seal in which the outer surface is formed by the heat-sensitive adhesive layer on the inner surface of the sandwiching portion S formed at the starting end portion of the tubular film 1 before delivery. The adhesive seal 20 and the cylinder that has been sent out are attached in a state in which the terminal part of the tubular film 1 that has already been sent is sandwiched in the sandwiching part S that is formed on the cylindrical film 1 before delivery. Since the end portion of the film-like film 1 is heat-sealed, as described above, even when the printing layer 12 is formed on the inner surface of the label base material 11 constituting the tubular film 1. The outer surface of the adhesive seal 20 adhered to the inner surface of the tubular film 1 before delivery on which the printing layer 12 is formed and the outer surface of the delivered tubular film 1 on which the printing layer is not formed are reliable. Heat sealed to enough It is possible to ensure the wearing strength.
[0024]
In addition, as described above, when the tubular film 1 in which the sandwiching portion S in which the adhesive seal 20 is previously pasted is used at the start end portion is used, it has already been proposed without adding a complicated connection mechanism to the film delivery device. Since the connected connection method can be employed as it is, an effect of being able to efficiently realize low-cost and efficient automatic connection of a cylindrical film having a printed layer formed on the inner surface side is obtained.
[0025]
In the above-described embodiment, the label substrate 11 constituting the tubular film 1 is formed of a shrink film made of a polyester resin such as polyethylene terephthalate having poor thermal adhesiveness, a polystyrene resin, or the like. However, for example, the label substrate 11 constituting the tubular film 1 is formed of an elastic stretch film having a good thermal adhesive property made of a polyethylene resin or the like. In this case, as shown in FIG. 7, the seal base material 21a is formed of a polyethylene resin or ethylene vinyl acetate copolymer resin (EVA), which is the same material as the label base material 11, so that the seal base material 21a itself is formed. 2 in which the adhesive layer 22 is laminated only on the inner surface side of the sealing base material 21a with heat adhesion. It is also possible to use an adhesive seal 20a of the structure. In this case, the sealing substrate 21a itself constitutes the heat-sensitive adhesive layer of the present invention.
[0026]
Moreover, although embodiment mentioned above demonstrated the case of the cylindrical film 1 in which the printing layer 12 was formed in the inner surface of the label base material 11, it is not limited to this, For example, on the outer surface of a label base material In the case of a tubular film on which a printed layer is formed, as shown in FIGS. 8A and 8B, one end of the tubular film 2, that is, a tubular shape serving as a feeding end from a film roll. A separable sandwiching portion S is formed at the starting end portion of the film 2, and the other end portion of the tubular film 2, that is, the outer surface of the end portion of the tubular film 2 that is the winding start end of the film roll is adhered. If each of the seals 20 is attached, as shown in FIGS. 9 (a) and 9 (b), the sandwiched portions S formed at the starting end portion of the tubular film 2 before delivery are separated from each other, End portion of tubular film 2 after being sent to sandwiched portion S separated When the sandwiched portion of both tubular films 2 is heat-sealed, the outer surface of the adhesive seal 20 adhered to the outer surface of the tubular film 2 that has been sent is formed on the outer surface of the tubular film 2 and the cylinder before delivery. The inner surface of the film-like film 2 on which the printed layer is not formed is reliably heat-sealed, and sufficient adhesive strength can be ensured.
[0027]
Also in this case, when the label base material constituting the tubular film 2 is formed of an elastic stretchable film having good thermal adhesion made of a polyethylene resin or the like, FIG. It is also possible to use a two-layer adhesive seal 20a as shown.
[0028]
Moreover, in each embodiment mentioned above, although the case where the printing layer was formed in either one of the inner surface side of the label base material which comprises the cylindrical film, or the outer surface side was demonstrated, the inner surface of a label base material The present invention can also be applied to a cylindrical film in which a printed layer is formed on both the side and the outer surface side. In that case, the inner surface or the cylindrical shape of the sandwiched portion formed at the starting end of the cylindrical film What is necessary is just to stick the adhesive seal 20 of the 3 layer structure as shown in FIG. 3 to either one of the outer surfaces of the terminal part of a film.
[0029]
Moreover, in each embodiment mentioned above, although it is trying to cut off the both-sides edge in the starting end part of the cylindrical films 1 and 2 diagonally so that the starting end part of the cylindrical films 1 and 2 can be separated, It is not limited to this, You may make it open both the side edges in the start end part of a cylindrical film.
[0030]
Moreover, in each embodiment mentioned above, although the cylindrical film with which the cylindrical label with which a bottle etc. were mounted | worn was connected continuously, and its connection method were demonstrated, it is not limited to this, An inner surface side and an outer surface It goes without saying that the present invention can be applied to various tubular films whose sides do not have proper heat sealability.
[Brief description of the drawings]
1A is a plan view showing an embodiment of a tubular film according to the present invention, and FIG. 1B is a side view showing the same tubular film.
FIG. 2 is a cross-sectional view showing the above tubular film.
FIG. 3 is a cross-sectional view showing an adhesive seal adhered to the above tubular film.
FIGS. 4A and 4B are process diagrams showing a connecting method of the above tubular film.
FIG. 5 is a process diagram showing a connecting method of the tubular film same as above.
FIG. 6 is a process diagram showing a connecting method of the tubular film.
FIG. 7 is a cross-sectional view showing a modification of the above adhesive seal.
8A is a plan view showing a tubular film according to another embodiment, and FIG. 8B is a side view showing the tubular film same as above.
FIGS. 9A and 9B are process diagrams showing a connecting method of the above tubular film.
FIGS. 10A and 10B are process diagrams showing a tubular film connecting method as a background art.
11A and 11B are process diagrams showing a connection method according to the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1, 2 Cylindrical film 11 Label base material 12 Print layer 20, 20a Adhesive seal 21, 21a Seal base material 22 Adhesive layer 23 Heat sensitive adhesive layer S Clamping part IG Inner guide IS Impulse sealer

Claims (4)

A cylindrical film connection method in which a cylindrical film in a state of being folded into a sheet is formed with a printed layer on the inner surface ,
In one tubular film to be connected, a pair of detachable sandwiching portions is formed in advance by opening both side edges at the end portions in advance, and an outer surface is formed on the inner surface of the pair of sandwiching portions. surface leave attached respectively an adhesive seal formed by heat-sensitive adhesive layer,
The end portion of the other tubular film to be connected is sandwiched in the sandwiched portion of the tubular film to which the adhesive seal is stuck, and the end portion of the other tubular film is heat-sealed. A tubular film connection method characterized by comprising the steps of: A tubular film connection method in which printed films are formed on the outer surface and the tubular films folded in a sheet shape are connected to each other,
In one tubular film to be connected, a pair of detachable sandwiching portions are formed in advance by cutting both side edges at the end portions in advance, and the other tubular film to be connected is , previously, that the end portion outer surface, leave the adhesive seal has an outer surface formed by the heat-sensitive adhesive layer adhered respectively,
The end of the other tubular film to which the adhesive seal is attached is sandwiched between the sandwiched portions formed on one of the tubular films, and the adhesive seal and one of the tubular films are sandwiched. A tubular film connecting method, wherein the part is heat-sealed. A film roll formed by winding a long strip-shaped tubular film folded in a sheet shape with a printed layer formed on the inner surface ,
At one end of the tubular film, it has a pair of detachable sandwiching portions formed by opening both side edges thereof,
A film roll, wherein an adhesive seal whose outer surface is formed by a heat-sensitive adhesive layer is adhered to the inner surface of the sandwiched portion. It is a film roll formed by winding a long strip-shaped tubular film folded in a sheet shape with a printed layer formed on the outer surface ,
At one end of the tubular film, it has a pair of detachable sandwiching portions formed by opening both side edges thereof,
The film roll characterized by sticking the adhesion seal | sticker in which the outer surface was formed with the heat-sensitive adhesive layer, respectively on the outer surface of the other edge part of the said cylindrical film .

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