JP2021127167A - Tube container - Google Patents

Abstract

To provide a tube container which suppresses absorptivity to a component contained in contents while securing connection strength between a body part and a spout, and can suppress the residue of contents inside the container.SOLUTION: A tube container includes: a cylindrical body part having one blocked end and can store contents; and a spout capable of blocking the other end of the body part mounted on the other end of the body part. The spout includes: a plate-like blocking part orthogonal to a longitudinal direction of the body part; and a low adsorption film mounted so as to cover a surface on the body part side of the blocking part and contains a low adsorptive resin. The body part is formed using a laminated film of two or more layers in which an innermost layer in the cylindrical state is a low adsorptive sealant layer containing a low adsorptive resin, and the other end is stuck to a surface on a side opposite to one end side of the body part of the blocking part on an end edge of the blocking part.SELECTED DRAWING: Figure 1

Description

The present invention relates to a tube container.

Tube containers that can be filled and packaged with pharmaceuticals, cosmetics, foods, etc. are known. In general, a tube container has a tubular body whose one end is closed and the other end is open, and an outer diameter which is attached to the other end of the body opening by welding or the like and whose outer diameter increases as the distance from the body opening increases. Includes a spout (also called a shoulder) formed in a smaller tapered shape. An opening through which the contents can be taken out is provided on the opposite side of the spout portion from the body, and the user of the tube container can squeeze the contents out of the opening by crushing the body.

Patent Document 1 discloses a tube container in which a body portion and a spout portion are integrally formed of a metal material such as aluminum. Further, Patent Document 2 discloses a tube container in which the body portion and the spout portion are each formed by using a resin material, and one end of the body portion is welded to the tapered outer peripheral surface of the spout portion.

Japanese Unexamined Patent Publication No. 2009-067401 Japanese Unexamined Patent Publication No. 2016-199280

Since the tube container of Cited Document 1 is formed by using a metal material, the medicinal and aroma components contained in the contents have a body and a spout as compared with a tube container formed by using a resin material. By being adsorbed on the material to be formed, it is possible to prevent the effectiveness of the contents from being reduced or the fragrance from being changed, but on the other hand, the body formed by using the metal material has repeated contents. There was a problem that the body was torn when the object was squeezed out.

On the other hand, since the body of the tube container of Cited Document 2 is made of a material containing a low adsorption resin, it is possible to suppress the adsorption of components and the like contained in the contents and the occurrence of pinholes. The body portion formed by using a material containing a low adsorption resin generally has a low welding strength, and there is a problem that it is difficult to secure a sufficient connection strength with the spout portion.

Further, in each of the tube containers of Cited Documents 1 and 2, since the spout portion is formed in a tapered shape, a part of the contents remains in the tapered shape when the contents are taken out. , There was a problem that it was difficult to squeeze out all the contents.

The present invention has been made in view of such a problem, and the adsorbability to the components contained in the content is suppressed while ensuring the connection strength between the body portion and the spout portion, and the content remains inside the container. It is an object of the present invention to provide a tube container capable of suppressing.

One aspect of the present invention for solving the above problems is to close one end of the tubular body portion capable of accommodating the contents and the other end of the body portion attached to the other end of the body portion. A tubing container that includes a possible spout, the spout is a flat plate-shaped closure that is orthogonal to the longitudinal direction of the body and a low that is attached to cover the body-side surface of the closure. A low-adsorption film containing an adsorptive resin is provided, and the body is formed by using two or more laminated films in which the innermost layer in a tubular state is a low-adsorption sealant layer containing a low-adsorption resin. The other end of the tube container is attached to the surface of the closed portion opposite to one end side of the body portion of the closed portion.

According to the present invention, there is provided a tube container capable of suppressing the adsorptivity to the components contained in the contents and suppressing the residual contents inside the container while ensuring the connection strength between the body portion and the spout portion. can do.

Front view and side view of the tube container according to the first embodiment of the present invention. Cross-sectional view of the body of the tube container according to the first embodiment of the present invention. Cross-sectional view of the body of the tube container according to the first embodiment of the present invention. Sectional drawing which shows the usage method of the tube container which concerns on 1st Embodiment of this invention. Sectional drawing which shows the usage method of the tube container which concerns on 1st Embodiment of this invention. The figure which shows the state which the body part of the tube container which concerns on 1st Embodiment of this invention is stuck together. Front view and side view of the tube container according to the second embodiment of the present invention.

An embodiment of the present invention will be described with reference to the drawings. In the following description, the same or corresponding configurations in each embodiment are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

<First Embodiment>
The tube container 100 according to the first embodiment of the present invention includes a body portion 10 having one end closed and a spout portion 20 attached to the other end of the body portion 10. 1 is a front view and a side view of the tube container 100, FIGS. 2 and 3 are cross-sectional views of the body portion 10 cut along the AA'line, and FIGS. 4 and 5 are the tube container 100. It is sectional drawing which shows the usage of. Note that FIG. 1 is shown through the periphery of the spout portion 20 in order to clarify the shape of the spout portion 20.

(Torso)
The body portion 10 is a tubular member in which the bottom portion 11 located at one end is closed, and includes an accommodating portion 13 capable of accommodating contents (not shown). The body portion 10 is formed by using two or more laminated films in which the innermost layer in a tubular state is a low adsorption sealant layer 10a containing a low adsorption resin. The bottom portion 11 of the body portion 10 is closed by a heat seal.

The body portion 10 includes a bonding portion 14 formed by bonding the edges of the laminated films. As shown in FIGS. 1 and 2, the bonded portion 14 has low adsorption sealant layers 10a at the edge of the laminated film opposed to each other by a heat seal or the like, and is stretched along the longitudinal direction of the body portion 10. It is formed to do. The bonded portion 14 may be covered with an edge protective tape in order to prevent the laminated film from peeling off.

As shown in FIG. 3, the bonded portion 14 may be bent along the surface of the body portion 10 and attached to the body portion 10 with an adhesive or the like to be fixed. As a result, when the tube container 100 is grasped and used, it is possible to prevent the bonding portion 14 extending from the surface of the body portion 10 from coming into contact with the hand or the like and interfering with the use.

The low-adsorption resin used for the low-adsorption sealant layer 10a is not particularly limited, but any one of ester-based, cyclic polyolefin-based, ethylene-vinyl alcohol polymer-based, polyacrylic nitrile-based, and barrier nylon-based resin is preferable. Can be used.

The material of the layer other than the low adsorption sealant layer 10a of the laminated film used for forming the body portion 10 is not particularly limited, but for example, polyethylene terephthalate (PET), nylon (NY), linear (linear) low. A resin material such as density polyethylene (LLDPE) can be used. Further, the laminated film may contain a well-known functional film according to the function required for the body portion 10, and includes, for example, an aluminum foil, an ethylene vinyl alcohol polymer (EVOH) resin, or the like in order to impart gas barrier properties. You may have a film.

As described above, the bonding portion 14 of the tube container 100 is formed by bonding the low adsorption sealant layers 10a at the edge of the laminated film so as to face each other. For this reason, the laminated film is compared with the body of the tube container according to the prior art, in which an adhesive layer (sealant layer) is provided on the innermost layer and the outermost layer of the laminated film and the ends are overlapped and bonded to each other. Can be formed thinly. Therefore, in the tube container 100, it is possible to prevent the laminated film from becoming thicker and the rigidity of the body portion 10 from increasing, and as a result, the outside air is returned to the accommodating portion 13 which returns to the original shape when the force for crushing the body portion 10 is released. The air back phenomenon that flows backward is less likely to occur. The thickness of the laminated film is preferably 250 μm or less in consideration of the ease of squeezing out the contents and the suppression of the air bag phenomenon.

The shape of the body portion 10 shown in FIG. 1 is an example, and the shape of the body portion 10 is not limited as long as it is a tubular shape capable of forming the accommodating portion 13. It may be a two-way seal type including two portions 14.

(Outlet part)
The spout portion 20 is a member that is attached to the top portion 12 located at the other end of the body portion 10 and can close the top portion 12 of the body portion 10. The spout portion 20 includes a flat plate-shaped closing portion 21 orthogonal to the longitudinal direction of the body portion 10, an annular half-cut 22 provided at a substantially central portion of the closing portion 21, and a body portion from the inside of the half-cut 22. A knob portion 23 extending toward the side opposite to the bottom portion 11 of the 10 and a tubular peripheral wall 24 extending outward from the half cut 22 toward the side opposite to the bottom portion 11 of the body portion 10. A low adsorption film 25 containing a low adsorption resin is provided so as to cover the surface of the closing portion 21 on the body 10 side. The half-cut 22, the knob 23, and the peripheral wall 24 are examples, and the spout 20 does not have to include at least a part of them.

The closing portion 21 is a disk-shaped member that closes the top 12 of the body portion 10. The closed portion 21 has a disk shape as an example, but the shape in a plan view is not limited as long as it has a flat plate shape, and may be an ellipse, an oval, a polygon, or the like.

The knob portion 23 is provided to form an opening in the closing portion 21 for taking out the contents by removing a part of the spout portion 20 along the half cut 22. As an example, the knob portion 23 is a pull ring including a support portion 23a extending from the closing portion 21 and a ring portion 23b provided at an end portion of the support portion 23a opposite to the spout portion 20. As shown in FIG. 4, the user of the tube container 100 removes the planned opening portion 21a surrounded by the half cut 22 and the low adsorption film 25 at the closing portion 21 by pulling the knob portion 23 with a predetermined force. It is possible to form an opening for taking out the contents. A weakening line corresponding to the shape of the half-cut 22 may be formed on the low adsorption film 25 to facilitate the removal of the planned opening portion 21a.

The shape of the picking portion 23 is not limited to the pull ring as long as a part of the closing portion 21 can be removed by pulling by the user, and even if it is a plate-shaped picking allowance extending from the closing portion 21, for example. good.

The peripheral wall 24 is provided for attaching a cap (not shown) that closes the opening formed in the spout portion 20. The peripheral wall 24 may be provided with threads or engaging claws for fixing the cap.

The closed portion 21, the knob portion 23, and the peripheral wall 24 of the spout portion 20 can be integrally formed by injection molding or the like using a resin material capable of heat-sealing with the low adsorption sealant layer 10a of the body portion 10. can. According to the spout portion 20 in which the closing portion 21 is formed in a flat plate shape, the material used can be reduced as compared with the spout portion formed in a tapered shape according to the prior art.

The low adsorption film 25 is attached so as to cover the surface of the closing portion 21 on the body portion 10 side in order to prevent the medicinal components and aroma components of the contents from being adsorbed on the resin material forming the spout portion 20. It is a film-like member containing an adsorptive resin. The shape of the low adsorption film 25 is preferably the same as the shape of the closed portion 21 in a plan view so that the surface of the closed portion 21 on the body portion 10 side can be covered.

The low-adsorption resin contained in the low-adsorption film 25 is not particularly limited, and for example, an ester-based resin, a cyclic polyolefin-based resin, an ethylene vinyl alcohol polymer-based resin, a polyacrylic nitrile-based resin, or a barrier nylon-based resin is preferably used. Can be done.

Examples of the layer structure of the low adsorption film 25 include ionomer / aluminum (AL) / ionomer and acid copolymer / AL / acid copolymer. In this case, examples of the acid copolymer include ethylene methacrylic acid copolymer resin (EMAA resin) and ethylene-methyl acrylate copolymer resin (EMA resin). Further, the low adsorption film 25 may include a well-known functional film according to the function required for the spout portion 20, like the laminated film used for forming the body portion 10, and imparts gas barrier property, for example. Therefore, a film containing an aluminum foil, an EVOH resin, or the like may be provided.

As an example, the low adsorption film 25 is attached to the spout portion 20 by a heat seal. The method of attaching the low adsorption film 25 to the spout portion 20 is not limited to the heat seal, and may be integrally insert-molded to the closing portion 21, for example.

As shown in FIG. 1, the top portion 12 of the body portion 10 is bent and bonded at the edge of the closing portion 21 along the surface of the closing portion 21 opposite to the bottom portion 11 side of the body portion 10. ing. The body portion 10 and the closing portion 21 are attached to each other by a heat seal as an example.

In this way, in the tube container 100 in which the spout portion 20 is attached to the body portion 10, the connecting surface between the body portion 10 and the spout portion 20 is a surface orthogonal to the longitudinal direction of the body portion 10. Therefore, as compared with the conventional technique in which one end of the body portion is attached to the outer peripheral surface of the tapered shape, a force is applied to each of the body portion 10 and the spout portion 20 so as to separate from each other in the longitudinal direction of the body portion 10. In some cases, the force acting on the connecting surface in the shear direction can be reduced. Therefore, according to the tube container 100, sufficient connection strength can be ensured even by welding using the low adsorption sealant layer 10a containing a low adsorption resin having a relatively low welding strength.

Further, the accommodating portion 13 of the tube container 100 thus formed becomes a space covered by the low adsorption sealant layer 10a and the low adsorption film 25. Therefore, the tube container 100 suppresses the medicinal properties and aroma components of the contents from being adsorbed by the resin material other than the low-adsorption resin contained in the body portion 10 and the spout portion 20, and the contents. It is possible to prevent the efficacy of the resin from being reduced and the scent from being changed.

When each of the laminated film and the low adsorption film 25 used for forming the body portion 10 has a film having a gas barrier property, the region where the body portion 10 is bonded and the low adsorption film 25 are formed in the spout portion 20. It is preferable that the body portion 10 is attached to the spout portion 20 so that the region to which the is attached overlaps with each other when viewed from the longitudinal direction of the body portion 10 in the region extending over the entire circumference of the closing portion 21. In the tube container 100 in which the spout portion 20 is attached to the body portion 10 in this way, in the region extending over the entire circumference of the closed portion 21, the laminated film and the low adsorption film 25 each have gas barrier properties. Since they overlap each other when viewed from the longitudinal direction of the above, a region having no gas barrier property is not generated, and a high gas barrier property can be realized.

(how to use)
As described above, when the grip portion 23 is pulled by a predetermined force, the planned opening portion 21a, which is a part of the closing portion 21, is removed together with the low adsorption film 25 along the half cut 22, and the opening is opened in the closing portion 21. Is formed. As a result, the user of the tube container 100 can squeeze the contents outward through the opening by crushing the body portion.

Further, the tube container 100 includes a flat plate-shaped closing portion 21 in which the spout portion 20 is orthogonal to the longitudinal direction of the body portion 10, and the top portion 12 of the body portion 10 is the closing portion 21 at the end edge of the closing portion 21. It is adhered to the surface of the body portion 10 opposite to the bottom portion 11 side. Therefore, as shown in FIG. 5, when a small amount of the content 30 remains in the accommodating portion 13, the user of the tube container 100 bends the body portion 10 near the edge of the spout portion 20. As a result, the content 30 can be sandwiched between the inner flat surface of the closed portion 21 and the inner surface of the body portion 10 and easily pushed out toward the periphery of the opening of the spout portion 20.

Further, since the closed portion 21 of the spout portion 20 has a flat plate shape, unlike the spout portion formed in a tapered shape, the closed portion 21 does not have a space for the contents 30 to remain on the inner side. Therefore, the contents extruded toward the periphery of the opening of the spout portion 20 are squeezed out from the opening without remaining inside the body portion 10 and the spout portion 20. Therefore, according to the tube container 100, it is possible to suppress the residual contents inside the container.

(Modification example)
The top portion 12 may be attached to the closing portion 21 so that a plurality of pleated portions 12a folded so that the low adsorption sealant layers 10a of the body portion 10 are in contact with each other are formed. FIG. 6 is a diagram showing a state in which the body portion 10 having the pleated portion 12a formed is attached to the closing portion 21. FIG. 6A is a plan view of the top portion 12 as viewed from the longitudinal direction of the body portion 10, and FIG. 6B is a pleated portion 12a taken along the line BB'of FIG. 6A. It is a cut sectional view.

The number of pleated portions 12a can be appropriately adjusted depending on the shape of the closing portion 21 and the thickness of the laminated film forming the body portion 10. In the tube container 100, 16 pleated portions 12a are provided as an example. The number of pleated portions 12a is preferably 3 or more and 60 or less, particularly preferably 3 or more and 36 or less, from the viewpoint of the strength and design of the processing apparatus for forming the pleated portions 12a.

Further, the distance between the pleated portions 12a in the closing portion 21 can also be appropriately adjusted depending on the shape of the closing portion 21 and the thickness of the film forming the body portion 10. When the shape of the closed portion 21 is an ellipse or the like in which the radius of curvature changes over the circumferential direction of the body portion 10, as an example, the distance between the pleated portions 12a in the portion having a small radius of curvature is reduced, and in the portion having a large radius of curvature. The pleated portions 12a can be arranged with a large spacing. The folded portion of the top portion 12 does not have to be along the edge of all the closing portions 21, but in order to increase the joint strength between the body portion 10 and the spout portion 20, the longitudinal direction of the body portion 10 is increased. It is preferable that the edge of the closing portion 21 is inscribed in the folded portion when viewed from the viewpoint.

<Second embodiment>
Next, the tube container 101 according to the second embodiment of the present invention will be described focusing on the difference from the tube container 100. The tube container 101 includes a body portion 10 whose one end is closed and a spout portion 20a attached to the other end of the body portion 10. FIG. 7 is a front view and a side view of the tube container 101.

The difference between the tube container 101 and the tube container 100 is that the spout portion 20a does not have the low adsorption film 25, and the closed portion 21, the knob portion 23, and the peripheral wall 24 of the spout portion 20a are made of a resin having low adsorption. It is a point formed by a resin material containing. The half-cut 22, the knob 23, and the peripheral wall 24 are examples, and the spout 20a does not have to include at least a part of them.

The accommodating portion 13 of the tube container 101 thus formed is a space covered by the low adsorption sealant layer 10a and the spout portion 20a formed of a resin material containing a low adsorption resin. Therefore, in the tube container 101 as well as the tube container 100, the medicinal properties and aroma components of the contents are adsorbed by the resin material other than the low-adsorption resin contained in the body portion 10 and the spout portion 20. By suppressing it, it is possible to prevent the efficacy of the contents from being reduced or the aroma from being changed.

The low-adsorption resin used for forming the closed portion 21, the knob portion 23, and the peripheral wall 24 of the spout portion 20a is not particularly limited, but is an ester-based resin, a cyclic polyolefin-based resin, an ethylene vinyl alcohol polymer-based resin, or a polyacrylic nitrile. Either the based resin or the barrier nylon based resin can be preferably used.

Since the tube container 101 is the same as the tube container 100 except for the above-mentioned differences, the low adsorption sealant layer and the spout portion 20a can be connected with sufficient strength, and the contents remain inside the container. It can be suppressed, and the occurrence of the air bag phenomenon can be suppressed.

The spout 20a of the tube container 101 may further include a low adsorption film 25 that covers the surface of the closing portion 21 on the body 10 side.

The tube containers according to Examples 1 to 19 and Comparative Examples 1 and 2 were produced, and the adsorptivity of the aroma component was evaluated. In each tube container, the inner peripheral diameter (caliber) of the peripheral wall is 21 mm, and the length of the body portion is 100 mm. The layer structure of each laminated film described below is in the order from the outside to the inside when the body portion is formed.

(Example 1)
As the first embodiment, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (12 μm) / NY (15 μm) / AL (9 μm) / heat-sealable PET (HS-PET) (50 μm), and the material of the spout was PET-G. ..

(Example 2)
As the second embodiment, the tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is PET (12 μm) / NY (15 μm) / AL (9 μm) / HS-PET (50 μm), the material of the spout is PET-G, and the layer structure of the low adsorption film is Was designated as ionomer (20 μm) / AL (7 μm) / ionomer (20 μm).

(Example 3)
As Example 3, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (16 μm) / AL (7 μm) / NY (25 μm) / HS-PET (30 μm), and the material of the spout was PET-G.

(Example 4)
As Example 4, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is PET (25 μm) / AL (9 μm) / NY (15 μm) / HS-PET (100 μm), the material of the spout is PET-G, and the layer structure of the low adsorption film is Was designated as an acid copolymer (10 μm) / AL (9 μm) / acid copolymer (10 μm).

(Example 5)
As Example 5, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (12 μm) / AL (20 μm) / NY (15 μm) / HS-PET (50 μm), and the material of the spout was A-PET.

(Example 6)
As Example 6, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was transparent vapor-deposited PET (12 μm) / NY (15 μm) / HS-PET (50 μm), and the material for the spout was PET-G.

(Example 7)
As Example 7, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is PET (12 μm) / NY (15 μm) / AL (7 μm) / cycloolefin polymer (COP) multilayer sealant (30 μm), and the material of the spout is polyethylene (PE). The layer structure of the low adsorption film was ionomer (20 μm) / AL (9 μm) / ionomer (20 μm). The layer structure of the COP multilayer sealant is COP (20 μm) / PE (10 μm).

(Example 8)
As Example 8, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (12 μm) / NY (25 μm) / AL (9 μm) / COP multilayer sealant (30 μm), and the material of the spout was COP. The layer structure of the COP multilayer sealant is PE (10 μm) / COP (20 μm).

(Example 9)
As Example 9, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is PET (12 μm) / NY (15 μm) / AL (9 μm) / COP multilayer sealant (50 μm), the material of the spout is COP, and the layer structure of the low adsorption film is ionomer. It was set to (10 μm) / AL (9 μm) / ionomer (10 μm). The layer structure of the COP multilayer sealant is PE (30 μm) / COP (20 μm).

(Example 10)
As Example 10, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is PET (12 μm) / NY (15 μm) / AL (7 μm) / cyclic olefin copolymer (COC) multilayer sealant (50 μm), the material of the spout is PE, and the low adsorption film. The layer structure of was PE (10 μm) / COC (20 μm). The layer structure of the COC multilayer sealant is COC (40 μm) / PE (10 μm).

(Example 11)
As Example 11, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (12 μm) / NY (15 μm) / AL (9 μm) / COC multilayer sealant (30 μm), and the material of the spout was COC. The layer structure of the COC multilayer sealant is PE (10 μm) / COC (10 μm) / PE (10 μm).

(Example 12)
As Example 12, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is PET (25 μm) / NY (25 μm) / AL (20 μm) / polyacrylonitrile (PAN) (30 μm), the material of the spout is PAN, and the layer structure of the low adsorption film is used. Was designated as ionomer (20 μm) / AL (9 μm) / ionomer (20 μm).

(Example 13)
As Example 13, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was transparent vapor-deposited PET (12 μm) / NY (15 μm) / PAN (30 μm), and the material of the spout was PAN.

(Example 14)
As Example 14, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is PET (12 μm) / NY (15 μm) / AL (9 μm) / EVOH multilayer sealant (30 μm), and the material of the spout is a mixed resin of EVOH and PE, with low adsorption. The layer structure of the film was ionomer (10 μm) / AL (9 μm) / ionomer (10 μm). The layer structure of the EVOH multilayer sealant is EVOH (20 μm) / PE (10 μm).

(Example 15)
As Example 15, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (16 μm) / NY (15 μm) / AL (9 μm) / barrier NY multilayer sealant (50 μm), and the material for the spout was a mixed resin of barrier NY and PE. .. The layer structure of the barrier NY multilayer sealant is PE (20 μm) / barrier NY (10 μm) / PE (20 μm).

(Example 16)
As Example 16, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (12 μm) / NY (25 μm) / AL (10 μm) / COP multilayer sealant (30 μm), and the material of the spout was a mixed resin of barrier NY and PE. The layer structure of the COP multilayer sealant is COP (20 μm) / PE (10 μm).

(Example 17)
As Example 17, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is transparent vapor-deposited PET (12 μm) / NY (15 μm) / AL (7 μm) / COP multilayer sealant (30 μm), and the material of the spout is a mixed resin of barrier NY and PE. The layer structure of the low adsorption film was acid copolymer (10 μm) / AL (9 μm) / acid copolymer (10 μm). The layer structure of the COP multilayer sealant is COP (10 μm) / PE (20 μm).

(Example 18)
As Example 18, a tube container according to the first embodiment shown in FIG. 1 was manufactured. The layer structure of the laminated film on the body is transparent vapor-deposited PET (12 μm) / NY (15 μm) / HS-PET (50 μm), the material of the spout is PET-G, and the layer structure of the low adsorption film is an acid copolymer. (20 μm) / AL (9 μm) / acid copolymer (20 μm).

(Example 19)
As Example 19, the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was transparent vapor-deposited PET (12 μm) / NY (15 μm) / COP multilayer sealant (30 μm), and the material of the spout was COP. The layer structure of the COP multilayer sealant is PE (10 μm) / COP (20 μm).

(Comparative Example 1)
As Comparative Example 1, a tube container having the same shape as the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (12 μm) / NY (15 μm) / AL (7 μm) / PE (100 μm), and the material of the spout was PE.

(Comparative Example 2)
As Comparative Example 2, a tube container having the same shape as the tube container according to the second embodiment shown in FIG. 7 was manufactured. The layer structure of the laminated film on the body was PET (12 μm) / NY (15 μm) / AL (7 μm) / polypropylene (PP) (80 μm), and the material of the spout was PP.

The above tube container was produced, filled with 20 mL of a liquid containing limonene containing an aroma component and menthol as a content liquid, and then stored in an environment of 40 ° C. and 75% humidity for 1 month. The residual rate of limonene and menthol in the content liquid at 100% at the start of storage was measured by gas chromatography-mass spectrometry at 1 week, 2 weeks, and 1 month after the start of storage.

Table 1 shows the measurement results (residual rate) and evaluation results. In the comprehensive evaluation, those with a residual rate of 80% or more after one month are indicated by "+" as tube containers with a small amount of adsorption, and those with a residual rate of less than 80% are tubes with a large amount of adsorption. It is indicated by "-" as a container.

As shown in Table 1, the tube containers according to Comparative Examples 1 and 2 had a large amount of adsorbed aroma components, and the residual rate after one month was less than 80%.

On the other hand, in the tube container according to Examples 1 to 19, the storage portion is formed of a low adsorption sealant layer and a low adsorption film, or a resin material containing a low adsorption sealant layer and a low adsorption resin. Since it was covered with the portion 20, the amount of adsorbed aroma components was small, and the residual rate after one month was 80% or more in each case.

The present invention can be used in a packaging container that can be filled with pharmaceuticals, cosmetics, foods, and the like.

10 Body 10a Low adsorption sealant layer 11 Bottom 12 Top 12a Pleated 13 Storage 14 Laminating 20, 20a Spout 21 Closure 22 Half cut 23 Pull ring 24 Peripheral wall 25 Low adsorption film 100, 101 Tube container

Claims (5)

A tubular body that is closed at one end and can accommodate the contents,
A tube container including a spout portion attached to the other end of the body portion and capable of closing the other end of the body portion.
The spout part
A flat plate-shaped closure portion orthogonal to the longitudinal direction of the body portion and
A low-adsorption film containing a low-adsorption resin attached so as to cover the surface of the closed portion on the body side is provided.
The body is
The innermost layer in the tubular state is formed by using two or more laminated films which are low adsorption sealant layers containing a low adsorption resin.
The other end is attached to the surface of the closed portion on the edge opposite to the one end side of the body portion of the closed portion.
Tube container. A tubular body that is closed at one end and can accommodate the contents,
A tube container including a spout portion attached to the other end of the body portion and capable of closing the other end of the body portion.
The spout part
Formed from a resin material containing a low adsorptive resin,
A flat plate-shaped closure portion orthogonal to the longitudinal direction of the body portion is provided.
The body is
The innermost layer in the tubular state is formed by using two or more laminated films which are low adsorption sealant layers containing a low adsorption resin.
The other end is attached to the surface of the closed portion on the edge opposite to the one end side of the body portion of the closed portion.
Tube container. Each of the low-adsorption resins contains any one of ester-based, cyclic polyolefin-based, ethylene-vinyl alcohol polymer-based, polyacrylic nitrile-based, and barrier nylon-based resins.
The tube container according to claim 1 or 2. The body portion includes a bonded portion in which the edge edges of the laminated film are bonded to each other.
The bonded portion is formed so that the innermost layers of the laminated film are bonded to each other and stretched along the longitudinal direction of the body portion.
The tube container according to claim 1 or 2. The body portion includes a pleated portion folded back so that the innermost layers are in contact with each other at the other end.
The tube container according to any one of claims 1 to 3.

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