JP2000061158A - Composite plastic film balloon - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress gas escape and to enable long-term display by inserting a balloon-like inner skin of a separate body made of a plastic film provided with a gas barrier layer on its outer layer into a balloon-like outer skin made of a transparent plastic film provided with a gas barrier layer on its intermediate layer. SOLUTION: The outer skin 2 of the balloon body which is constituted by housing the inner skin 3 which is the separate body in the outer skin 2 as the composite plastic film balloon, is formed of the transparent plastic films 4 of a three-layer structure laminated, successively from the inner side, with a polyethylene (PE) layer 4a, the gas barrier layer 4b using an ethylene-vinyl alcohol copolymer and a PE layer 4c. On the other hand, the inner skin 3 is formed of the plastic films 7 of the three-layer structure having an excellent gas barrier property and elongation. The films 7 are formed by providing the films with the straight chain low-density polyethylene layer 7a, the nylon layer 7b and the gas barrier layer 7c vacuum deposited by evaporation on its front surface successively from the inner side and a printing surface 7d is formed thereon at need.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a novel multiple plastic film balloon in which a balloon made of a plastic film is inserted into an outer skin made of a balloon made of a transparent plastic film and inflated.

[0002]

2. Description of the Related Art Conventionally, as disclosed in Japanese Utility Model Publication No. 5-34711, two plastic films are polymerized to form a balloon-shaped outer cover, and a rubber balloon is inserted into the outer cover. A double balloon formed by inflating a rubber balloon is known. The rubber balloon is filled with air or helium gas.

According to this conventional double balloon, since the rubber balloon is inserted into a balloon-shaped body made of a plastic film having a denser tissue as compared with the rubber balloon, the tissue of the material of the rubber balloon is formed. Although it is rough, it is possible to prevent outgassing of the rubber balloons for short days.

[0004]

However, in this conventional double balloon, since the structure of the material of the inner rubber balloon is essentially coarse, there is the inconvenience that the air escapes and shrinks within a few days. Not only that, but also the outer plastic film does not have a high gas barrier property, and it is difficult to deflate quickly.

When helium gas is enclosed, the size of the helium gas molecule is much smaller than the size of the air molecule, so that the helium gas is shrunk earlier than when air is enclosed.

The present invention has been made in view of the above circumstances. An object of the present invention is to use a film material having a high gas barrier property so that outgassing can be significantly reduced as compared with a conventional balloon. It is to provide a multiple plastic film balloon that can last as long as.

[0007]

The invention according to claim 1 is a multiple plastic film balloon composed of an outer skin and an inner skin, wherein the outer skin is a gas barrier coextruded plastic film or a gas barrier plastic film / linear low density polyethylene. Consisting of a film laminated film, the inner layer of which is a gas barrier coextruded plastic film, a gas barrier plastic film / a linear low density polyethylene film laminated film, Al
It is a multiple plastic film balloon formed by selecting one of a laminated film of a metal-deposited nylon film / a linear low-density polyethylene film.

According to a second aspect of the present invention, the gas barrier coextruded plastic film is a three-layer coextruded film of polyethylene / ethylene vinyl alcohol copolymer / polyethylene, nylon / ethylene vinyl alcohol copolymer / linear low density. 3-layer coextrusion film of polyethylene,
Linear low density polyethylene / nylon / ethylene vinyl alcohol copolymer / linear low density polyethylene 4-layer coextrusion film, polyethylene / nylon / ethylene vinyl alcohol copolymer / nylon / polyethylene 5
The multi-layer plastic film balloon according to claim 1, wherein the multi-layer plastic film balloon is made of any one of layer coextruded films.

According to a third aspect of the invention, the gas barrier plastic film is a vinylidene chloride coated nylon film, a transparent material layer-deposited nylon film, an ethylene vinyl alcohol copolymer film, a barrier nylon film, an ethylene vinyl alcohol copolymer coated nylon. The multiple plastic film balloon according to claim 1, which is one of a film and a polyvinyl alcohol-coated nylon film.

The invention according to claim 4 is the multiple plastic film balloon according to claim 3, wherein the transparent material is silica or alumina.

The invention according to claim 5 is characterized in that the barrier nylon is any one of nylon / MXD-6 / nylon and nylon / ethylene vinyl alcohol copolymer / nylon co-extruded nylon. Item 3. The multiple plastic film balloon according to item 3.

The invention according to claim 6 is the multiple plastic film balloon according to any one of claims 1 to 3, wherein the laminate film is an extrusion laminate film or a dry laminate film. is there.

According to a seventh aspect of the present invention, a transparent plastic film is welded to form a balloon, and a plastic film is welded to a gas-filled outer skin so that the balloon is formed. A multiple plastic film balloon is formed by providing an inner skin filled with a gas and injecting a gas between the inner skin and the outer skin.

The invention according to claim 8 is such that the welded portions of the outer skin and the inner skin are cut without leaving a welding margin in order to prevent the generation of wrinkles when inflated. The described multiple plastic film balloon.

MXD-6 is an abbreviation for biaxially stretched metaxylylenediamine, which has a different composition from nylon. Further, in the case of a laminated film, it may be extrusion lamination or dry lamination in which film layers are laminated with an adhesive.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a balloon body 1 as a multiple plastic film balloon. This balloon body 1 has an outer skin 2
And the endothelium 3. The outer cover 2 is composed of a transparent plastic film 4 having a three-layer structure shown in FIG.
As shown in FIG. 2A, the plastic film 4 is composed of a polyethylene layer 4a, a gas barrier layer 4b, and a polyethylene layer 4c in order from the inside. The gas barrier layer 4b is made of an ethylene vinyl alcohol copolymer,
The polyethylene film layers 4a and 4c are provided on both sides of the ethylene vinyl alcohol copolymer film layer.

This multiple plastic film 4 is shown in FIG.
As shown in (b), the polyethylene layer 4a is sequentially arranged from the inside.
A three-layer structure of the gas barrier layer 4b and the nylon layer 4d may be used. The gas barrier layer 4b is made of a transparent material such as silicon dioxide (SiO ₂ : silica) or aluminum oxide (Al).
₂ O ₃ : alumina) may be formed by vapor deposition on at least one of the front surface of the polyethylene layer 4c and the back surface of the nylon 4d.

The plastic film 4 having a three-layer structure shown in FIGS. 2 (a) and 2 (b) has gas barrier properties, seal strength, elongation and transparency, and (a) shows the three layers simultaneously from a molding machine (not shown). It is formed by extrusion, and (b) is formed by laminating polyethylene on a vapor-deposited nylon film, and then, (a) and (b) are heat-welded together to form balloon-shaped bodies. In FIG. 1, 5 is the welded portion, and 6 is the insertion port for the inner skin 3.

The welded portion 5 is cut without leaving a welding margin, and when the outer cover 1 is expanded, a wrinkle-free seam appears in the welded portion 5.

The endothelium 3 is a plastic film 7 having gas barrier properties, elongation and sealing strength of the three-layer structure shown in FIG.
Composed of. This plastic film 7 is shown in FIG.
As shown in (a), it is composed of a linear low-density polyethylene layer 7a, a nylon layer 7b, and a gas barrier layer 7c vacuum-deposited on the surface of the nylon layer 7b in this order from the inside. The gas barrier layer 7c is made of a glossy aluminum vapor deposition film and also functions as a metal reflection film.
The surface of the aluminum vapor-deposited film is used as a printed surface 7d as necessary, and a design appearance is provided.

As shown in FIG. 3 (b), the plastic film 7 may be formed by vacuum-depositing the gas barrier layer 7c on transparent nylon or alumina on the nylon layer 7b, or as shown in FIG. 3 (c). As shown, a transparent gas barrier layer 7c may be provided between the linear low-density polyethylene layer 7a and the nylon layer 7b. The gas barrier layer 7c is formed by vacuum-depositing silica or alumina on at least one surface of the linear low-density polyethylene layer 7a and the nylon layer 7b.

Before the endothelium 3 is inflated, it is inserted into the outer skin 2 through the insertion port 6, and the gas injection port 8 of the endothelium 3 is exposed to the outside from the insertion port 6 to some extent. Inject helium gas to inflate. FIG. 4 shows an example using an inner skin and an outer skin having different shapes. In FIG. 5, a smaller endothelium 3'injected with helium gas is further enclosed inside the endothelium 3, whereby a balloon body 1'having a triple structure is formed.

The gas barrier layers 4b and 7c have an air permeability to oxygen molecules (corresponding to air) of 1 cubic cm under the condition of a pressure difference of 1 atm per day. In the case of helium gas, the gas permeability is higher than that. Although the temper is large, the gas barrier layer 4 is used in any case as compared with the conventional case when used for a balloon.
Due to the existence of b and 7c, outgassing of the helium gas becomes extremely small.

Even if the balloon body 1 deflates due to gas escape, it can be inflated any number of times by refilling with helium gas, and the shape of the balloon can be maintained for a long time.

In the embodiment of the present invention, a plastic film balloon having a double structure, and an inner skin 3'provided with an inner skin 3'to form a triple (and more) multiple plastic film balloon are shown. Was done.

In FIG. 1, the inner skin 3 is inserted into the outer skin 2, inflated to an appropriate size, and the gas injection port 8 is tightly sealed, and then gas is injected between the outer skin 2 and the inner skin 3. The outer skin 2 is inflated until it is wrinkle-free, and then the insertion port 6 is sealed to form a balloon or a balloon body 1, and helium gas is injected into both the inner skin 3 and the outer skin 2. Can be floated. It is desirable to make the gas pressure of the inner skin 3 higher than the pressure of the outer skin 2 in order to minimize outgassing. for that reason,
It is a feature of the present invention that the sealing strength and the gas barrier property of the endothelium 3 are enhanced.

In the case of a single rubber balloon, when the helium gas is enclosed, the balloon body deflates in about 6 hours to about 12 hours,
In the case of a single plastic film, the balloon body deflates in about 3 days to about 1 week, and in the case of a double balloon in which the outer skin is composed of a plastic film and the inner skin is composed of a rubber balloon,
Rubber balloons deflate in about 3 days, and balloons made of the plastic film forming the outer skin deflate in about 2 weeks. As an example of the double plastic film balloon according to the present invention, the balloon-like body which becomes the outer skin 2 begins to deflate gently in about 2 weeks, while the balloon-like body which becomes the inner skin 3 has passed more than one month. However, no deflation was observed, and the balloon-shaped body serving as the endothelium 3 maintained its shape as it was when the gas was filled. In addition,
The term "gas" includes air.

[0029]

[Modification] The multiple plastic film balloons according to the present invention are not limited to those used as balloon toys.
It can also be used for an underwater floating device, an air bed, a wrapping tool, and the like.

[0030]

As described above, the present invention is a balloon made of only multiple plastic films having at least a three-layer structure made of plastic films and provided with a gas barrier layer. The effect of imparting shape retention is exerted, and the following derivative effects are thereby produced.

(1) It is possible to display for a long time,
Since it is excellent in design, it can be used as an advertising medium such as POP.

(2) Since it is a multi-balloon capable of protecting the inner skin with a transparent outer skin, when the inner skin is printed, the print does not peel off due to rain, etc., and the quality of the product does not deteriorate even in outdoor sales. It can be prevented.

(3) Since a plastic film such as nylon has a high sealing strength at its welded portion, the balloon body is less likely to be ruptured, and a balloon having a complicated shape for humans, animals, etc. can be manufactured, and the outer skin and the inner skin are plastic films. Since it is composed of, it has elongation and transparency, and is excellent in design.

(4) It can be used any number of times by refilling with gas.

[Brief description of drawings]

FIG. 1 is a diagram showing an example of a multiple plastic film balloon according to the present invention.

2 is a view showing a cross-sectional structure of the plastic film of the outer cover shown in FIG. 1, wherein (a) shows a case where the plastic film is composed of polyethylene, a gas barrier layer and polyethylene in order from the inside, and (b) shows The case where the plastic film is composed of a polyethylene layer, a gas barrier layer, and a nylon layer in this order from the inside is shown.

FIG. 3 is a diagram showing a cross-sectional structure of the inner plastic film shown in FIG. 1, in which (a) is a linear low-density polyethylene layer, a nylon layer, and an aluminum layer on the surface of the nylon film in order from the inside. A case where the gas barrier layer is composed of a vapor-deposited film is shown, (b) is a case where the gas barrier layer is made of transparent silica or alumina, and (c) is between a linear low-density polyethylene layer and a nylon layer. The case where a transparent gas barrier layer is provided in the above is shown.

FIG. 4 is a view showing a multiple plastic film balloon having a different shape from that of FIG. 1 according to the present invention.

FIG. 5 is a diagram showing an example of a triple-layered multiple plastic film balloon according to the present invention.

[Explanation of symbols]

2 outer skin 3 Endothelium 3'endothelium 4 plastic film 4b gas barrier layer 5 Welded part 6 insertion slot 7 plastic film 7c Gas barrier layer 8 inlets

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[Procedure amendment]

[Submission date] June 18, 1999 (1999.6.1
8)

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Title of the invention: Composite plastic film balloon

[Claims]

2. A composite plastic film balloon of claim 1, wherein the outer skin gas barrier plastic film of vinylidene chloride-coated nylon film is silica or alumina transparent material layer deposited nylon Fi <br/> Le beam, Al metallized barrier nylon fill beam, the composite plastic film balloon that, characterized by an either.

3. A composite plastic film balloon of claim 1 Symbol placement, composite plastic films balloon the laminate film to be extruded laminate film or dry laminated film, characterized by.

4. A gas-filled endothelium in which a transparent plastic film is welded so as to form a balloon and is filled with gas, and a plastic film is welded in such a way that a balloon is formed. A composite plastic film balloon, which is provided as a separate body and in which gas is injected between the inner skin and the outer skin.

5. The composite plastic film balloon according to claim 4 , wherein the welded portions of the outer skin and the inner skin are cut without leaving a welding allowance in order to prevent generation of wrinkles when inflated. A composite plastic film balloon characterized by being present.

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a novel composite plastic film balloon in which a transparent plastic film balloon-shaped outer skin is inserted and inflated into a separate plastic film balloon-shaped inner skin. Regarding

2. Description of the Related Art Conventionally, as disclosed in Japanese Utility Model Publication No. 5-34711, two plastic films are polymerized to form a balloon-shaped outer cover, and a rubber balloon is inserted into the outer cover. A double balloon formed by inflating a rubber balloon is known. The rubber balloon is filled with air or helium gas. According to this conventional double balloon, since the rubber balloon is inserted into a balloon-shaped body made of a plastic film whose tissue is denser than that of the rubber balloon, the texture of the material of the rubber balloon is coarse. Despite this, rubber balloons can be prevented from running out of gas on short-term days.

However, since the inner rubber balloon of this conventional double balloon has an essentially coarse structure, the air balloon escapes and deflates within a few days. was there. When the helium gas is enclosed, the molecule size of the helium gas is much smaller than the molecule size of the air, so that the helium gas is withered faster than when the air is enclosed. The present invention has been made in view of the above circumstances, and an object thereof is to use a film material having a high gas barrier property so that gas outflow can be significantly reduced as compared with a conventional one, and it is different from the endothelium. An object of the present invention is to provide a composite plastic film balloon that can be used as a body balloon for a long time.

According to a first aspect of the present invention, the inner skin of a separate balloon made of a plastic film is inserted into the outer skin of a balloon made of a transparent plastic film. A composite plastic film balloon composed of a gas barrier coextruded plastic film or a gas barrier plastic film / laminated film of linear low density polyethylene film, and an inner skin of gas barrier plastic film / linear low density polyethylene film. Laminated film or Al metal evaporated nylon film /
A composite plastic film balloon made of a laminated film of a linear low-density polyethylene film.
The invention according to claim 2 is a composite plastic film in which the gas barrier plastic film that is the outer layer is any one of a vinylidene chloride-coated nylon film, a transparent material layer vapor-deposited nylon film of silica or alumina, and an Al metal vapor-deposited barrier nylon film. It is a balloon. The invention according to claim 3 is the composite plastic film balloon, wherein the laminate film is an extrusion laminate film or a dry laminate film.
According to a fourth aspect of the present invention, a transparent plastic film is welded to form a balloon, and a plastic film is welded to form a balloon in the outer skin filled with gas. This is a composite plastic film balloon in which a filled inner skin is provided separately and gas is injected between the inner skin and the outer skin. The invention according to claim 5 is the composite plastic film balloon, wherein the welded portions of the outer skin and the inner skin are cut without leaving a welding margin in order to prevent the generation of wrinkles when inflated. In the case of a laminated film, it may be an extrusion laminate or a dry laminate in which film layers are laminated with an adhesive.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a balloon body 1 as a composite plastic film balloon in which a separate inner skin 3 is housed in an outer skin 2. The balloon body 1 is composed of an outer skin 2 and an inner skin 3. The outer cover 2 is composed of a transparent plastic film 4 having a three-layer structure shown in FIG. 2. The plastic film 4 is composed of a polyethylene layer 4a, a gas barrier layer 4b, and a polyethylene layer 4c in order from the inside as shown in FIG. 2 (a). Composed. The gas barrier layer 4b is made of an ethylene vinyl alcohol copolymer, and the polyethylene film layers 4a and 4c are provided on both sides of the ethylene vinyl alcohol copolymer film layer. As shown in FIG. 2B, the composite plastic film 4 includes a polyethylene layer 4a and a gas barrier layer 4 in order from the inside.
It may have a three-layer structure of b and nylon layer 4d. The gas barrier layer 4b may be formed by depositing silicon dioxide (SiO2: silica) or aluminum oxide (Al2 O3: alumina) as a transparent material on at least one of the front surface of the polyethylene layer 4c and the back surface of the nylon 4d. The plastic film 4 having a three-layer structure shown in FIGS. 2 (a) and 2 (b) has gas barrier properties, seal strength, elongation, and transparency, and (a) shows three layers simultaneously coextruded from a molding machine (not shown). (B) is formed by laminating polyethylene on a vapor-deposited nylon film, and then (a),
In both (b), each peripheral portion is heat-welded to form a balloon, and in FIG. 1, 5 is the welded portion, and 6 is the insertion port of the endothelium 3. The welded portion 5 is cut without leaving a welding margin, and a wrinkle-free seam appears in the welded portion 5 when the outer cover 1 is inflated. The endothelium 3 is composed of a plastic film 7 having gas barrier properties, elongation and sealing strength of a three-layer structure shown in FIG. As shown in FIG. 3 (a), this plastic film 7 comprises a linear low-density polyethylene layer 7a, a nylon layer 7b, and a gas barrier layer 7c vacuum-deposited on the surface of the nylon layer 7b from the inside.
It consists of and. The gas barrier layer 7c is composed of a glossy aluminum vapor deposition film and also functions as a metal reflection film, and the surface of the aluminum vapor deposition film is a printed surface 7d as required, giving a design appearance. The plastic film 7 may be formed by vacuum-depositing the gas barrier layer 7c on the nylon layer 7b with transparent silica or alumina as shown in FIG. 3 (b), or as shown in FIG. 3 (c). , Linear low-density polyethylene layer 7
A transparent gas barrier layer 7c may be provided between a and the nylon layer 7b. The gas barrier layer 7c is formed by vacuum-depositing silica or alumina on at least one surface of the linear low-density polyethylene layer 7a and the nylon layer 7b. The endothelium 3 formed of a plastic film is inserted into the outer skin 2 through the insertion port 6 before it is inflated, and the gas injection port 8 of the endothelium 3 is exposed to the outside from the insertion port 6 to some extent. Inject helium gas from 8 to inflate. FIG. 4 shows an example using an inner skin and an outer skin having different shapes. In FIG. 5, a smaller endothelium 3'injected with helium gas is further enclosed inside the endothelium 3, whereby a balloon body 1'having a triple structure is formed.
Oxygen molecules in the gas barrier layers 4b and 7c (equivalent to air)
The air permeability is 1 cubic cm under the condition of a pressure difference of 1 atm per day, and in the case of helium gas, the air permeability is higher than this, but in any case, it is used for the composite plastic film balloon. Thus, the presence of the gas barrier layers 4b and 7c makes the outflow of helium gas extremely small as compared with the conventional case. Even if the balloon body 1 deflates due to gas escape, it can be inflated any number of times by refilling with helium gas, and the shape of the composite plastic film balloon can be maintained for a long time. In the embodiment of the present invention, the one in which two composite plastic film balloons are configured, and the one in which the endothelium 3 is further provided with the endothelium 3'to form a triple (and more) composite plastic film balloon are shown. . In FIG. 1, the endothelium 3
Is inserted into the outer skin 2 and inflated to an appropriate size to seal the gas injection port 8 by tightening, and then gas is injected between the outer skin 2 and the inner skin 3 until the outer skin 2 is not wrinkled. After inflating, the insertion port 6 is tightly sealed to form the composite plastic film balloon 1, which can be floated by injecting helium gas into both the inner skin 3 and the outer skin 2. It is desirable to make the gas pressure of the inner skin 3 higher than the pressure of the outer skin 2 in order to minimize outgassing. Therefore, it is a feature of the present invention that the sealing strength and gas barrier property of the inner skin 3 are enhanced. As in the past, when a single rubber balloon is filled with helium gas, the balloon deflates in about 6 hours to about 12 hours, and even a single plastic film requires about 3 days to about 1 week. Even in the case of a conventional double balloon whose body is deflated and whose outer skin is composed of a plastic film and whose inner skin is composed of a rubber balloon, the rubber balloon is a balloon-like body composed of a plastic film which also constitutes the outer skin in about 3 days. Wilts in about two weeks. As an example of the case of the composite plastic film balloon according to the present invention, the balloon-shaped body which becomes the outer skin 2 after being filled with gas and inflated gradually begins to deflate in about 2 weeks, but the balloon-shaped body which becomes the inner skin 3 is formed. The body was not deflated even after one month or more, and the balloon-shaped body serving as the endothelium 3 maintained its shape as it was when the gas was filled. In addition, "gas"
In that case, air shall be included.

[Modification] The composite plastic film balloon according to the present invention is not limited to the one used as a balloon toy.
It can also be used for an underwater floating device, an air bed, a wrapping tool, and the like.

As described above, the present invention is a composite of balloons made only of a plastic film having a plastic film having at least a three-layer structure and provided with a gas barrier layer.
The effect of imparting long-term shape retention is exerted, and the following derivative effects are thereby produced. (1) Since it can be displayed for a long time and has excellent design, it can be used as an advertising medium such as POP. (2) Since the composite balloon is capable of protecting the inner skin with a transparent outer skin, when the inner skin is printed, the print is not peeled off due to rain or the like, and the deterioration of the product quality can be prevented even in outdoor sales. (3) Since the plastic film such as nylon has a high sealing strength at its welded portion, the balloon body is less likely to be ruptured, and it is possible to manufacture balloons of complicated shapes for humans, animals, etc. Both the outer skin and the inner skin are plastic films. Since it is composed, it has elongation and transparency, and has excellent designability. (4) It can be used any number of times by refilling with gas.

[Brief description of drawings]

FIG. 1 is a diagram showing an example of a composite plastic film balloon according to the present invention.

2 is a view showing a cross-sectional structure of the plastic film of the outer cover shown in FIG. 1, wherein (a) shows a case where the plastic film is composed of polyethylene, a gas barrier layer and polyethylene in order from the inside, and (b) shows The case where the plastic film is composed of a polyethylene layer, a gas barrier layer, and a nylon layer in this order from the inside is shown.

FIG. 3 is a diagram showing a cross-sectional structure of the inner plastic film shown in FIG. 1, in which (a) is a linear low-density polyethylene layer, a nylon layer, and an aluminum layer on the surface of the nylon film in order from the inside. A case where the gas barrier layer is composed of a vapor-deposited film is shown, (b) is a case where the gas barrier layer is made of transparent silica or alumina, and (c) is between a linear low-density polyethylene layer and a nylon layer. The case where a transparent gas barrier layer is provided in the above is shown.

FIG. 4 is a view showing a composite plastic film balloon having a different shape from that of FIG. 1 according to the present invention.

FIG. 5 is a diagram showing an example of a triple-layer composite plastic film balloon according to the present invention.

[Explanation of symbols] 2 outer skin 3 Endothelium 3'endothelium 4 plastic film 4b gas barrier layer 5 Welded part 6 insertion slot 7 plastic film 7c Gas barrier layer 8 inlets

Claims (8)

[Claims] 1. A multiple plastic film balloon composed of an outer skin and an inner skin, wherein the outer skin comprises a gas barrier co-extruded plastic film or a laminated film of a gas barrier plastic film / linear linear low density polyethylene film, and the inner skin comprises a gas barrier One of an extruded plastic film, a gas barrier plastic film / a linear low density polyethylene film laminate film, and an Al metal evaporated nylon film / a linear low density polyethylene film laminate film is selected. Multiple plastic film balloons. 2. The multiple plastic film balloon according to claim 1, wherein the gas barrier coextruded plastic film is a three-layer coextruded film of polyethylene / ethylene vinyl alcohol copolymer / polyethylene, nylon / ethylene vinyl alcohol copolymer / straight line. 3-layer coextruded film of linear low-density polyethylene, 4-layer coextruded film of linear low-density polyethylene / nylon / ethylene vinyl alcohol copolymer / linear low-density polyethylene,
A multiple plastic film balloon comprising a polyethylene / nylon / ethylene vinyl alcohol copolymer / nylon / polyethylene 5-layer coextrusion film. 3. The multiple plastic film balloon according to claim 1, wherein the gas barrier plastic film is a vinylidene chloride-coated nylon film, a transparent material layer-deposited nylon film, an ethylene vinyl alcohol copolymer film, a barrier nylon film, or an ethylene vinyl alcohol copolymer film. A multiple plastic film balloon characterized by being one of a polymer-coated nylon film and a polyvinyl alcohol-coated nylon film. 4. The multiple plastic film balloon according to claim 3, wherein the transparent material is silica or alumina. 5. The multiple plastic film balloon of claim 3, wherein the barrier nylon is nylon /
One of MXD-6 / nylon and nylon / ethylene vinyl alcohol copolymer / nylon coextruded nylon, a multiple plastic film balloon. 6. The multiple plastic film balloon according to claim 1 or any one of claims 3 to 5, wherein the laminate film is an extrusion laminate film or a dry laminate film. . 7. A gas-filled endothelium in which a transparent plastic film is welded so as to form a balloon and is filled with gas, and a plastic film is welded in such a manner that a balloon is formed. A multiple plastic film balloon provided by injecting gas between the inner skin and the outer skin. 8. The multiple plastic film balloon according to claim 7, wherein the welded portions of the outer skin and the inner skin are cut without leaving a welding allowance in order to prevent wrinkles from being generated when inflated. The multiple plastic film balloon characterized by being.