JPH0427112B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an easily openable heat seal cap. At the same time, when opening from one end of the cap, it is easy to open with finger force, and it is difficult to reseal, so the contents are untouched and have no function to guarantee their quality. The present invention relates to a heat seal cap having a heat seal cap.

(Prior technology) Conventional peelable lids have been used as easy-to-open lids that seal the mouth of containers by heat-sealing.
is known as. This peelable lid has a protective resin coating on the outer surface of metal foil such as aluminum foil, and a heat-sealable resin inner material on the inner surface. It is adjusted to a range of 0.05 to 2 kg/15 mm width.

(Problems to be Solved by the Invention) However, the heat-sealed lid described above is functionally flexible, and the mechanical strength of the lid material itself is insufficient, and it is difficult to protect it from external destructive forces. If so, there is the trouble of having to cover the outer cover separately.

In addition, the seal strength between the container opening and the lid changes depending on the heat sealing temperature, and when the contents are heat sterilized, the seal strength also fluctuates due to this heat sterilization. There is a problem in that it is difficult to obtain sealing strength (opening force).

In particular, heat seal packages whose contents have been retort sterilized are required to have a sealing strength (peel strength) of 2.3 kg/15 mm width or more from the inside. Seal lids of the type that are opened by breaking the heat-sealed portion have not yet been put to practical use.

Therefore, there is a great need in the art for a cap that has a rigid outer shell, can be sealed tightly by heat sealing, and can be easily opened with a finger.

An object of the present invention is to provide a rigid outer shell and a heat-sealing function that is tightly attached to the inside of the outer shell, and to have an extremely high pressure-resistant sealing force against opening from the inside of the container, and to provide a seal at one end of the cap. It is an object of the present invention to provide a heat-seal cap which can be easily opened using finger force from the inside, and which also has a function of guaranteeing the quality of the contents since resealing is difficult.

(Means for Solving the Problems) According to the present invention, the top plate part integrally formed of a rigid material, the peripheral part, and an opening flange or tab provided on at least a part of the peripheral part are provided. An outer shell, a heat-sealable resin inner material located on the container side joined to the inner surface of the top plate of the outer shell, a base material located on the shell side, and the heat-sealable resin and other materials located between the two. It consists of an inner laminate with a weakened layer made of a blend with resin, and when it is heat-sealed to the mouth of the container, it weighs more than 10Kg to 2.3Kg when opened uniformly around the entire circumference. 15
An easy-open heat seal that requires an opening force of mm width or more, but can be opened with a finger when opening from one end of the opening flange or tab, and is not resealable. A cap will be provided.

(Function) In FIG. 1 showing the cross-sectional structure of an example of the heat seal of the present invention, this cap 1 has a rigid outer shell 2, and this outer shell 2 includes a top plate portion 3,
It has a peripheral part 4 and an opening flange or tab 5 provided on at least a part of the peripheral part (first
The figure is an example of a flange). An inner laminate 6 is bonded to the inner surface of the top 3 of the outer shell 2.

In FIG. 2 showing an enlarged cross-sectional structure of an example of the inner side laminate 6 (the container side is shown as the bottom surface), the laminate 6 has a heat-sealable resin inner material 7 on the container side and a heat-sealable resin inner material 7 on the container side. A weakened layer 8 made of a blend of the heat-sealable resin and another resin is provided as a lower layer of the inner resin material. Second
In the specific example shown in the figure, the inner side laminate 6 includes, in addition to the heat-sealing inner surface material 7 and the blend weakening layer 8, a base resin film layer 9, a base metal foil layer 10, and an adhesive resin layer. It also has 11. The inner side laminate 6 is bonded to the top plate portion and inner surface of the outer shell 2 via an adhesive resin layer 11.

In FIGS. 3 and 4 (enlarged views of main parts) showing a state in which the cap 1 of the present invention is applied to a container, the container 12 includes a cylindrical body 13, a bottom bottom 14 at the lower end,
It has a shoulder 15 and a neck 16 at its upper end. The upper open end of the neck 16 is a sealing opening 17, and heat sealing is performed between this sealing opening 17 and the inner side laminate 6 of the cap 1 covered thereon. The container is sealed.

In FIG. 5, which shows an enlarged cross-sectional structure of this heat-sealing part, the inner surface side laminate 6 of the cap and the sealing opening part 17 are covered with a heat-sealing inner material layer 7 over the entire surface of their engagement. Since the cap is heat-sealed through the cap, an extremely large opening force of 10 kg or more is required to pull it uniformly around the entire circumference of the cap and open it. In this way, an extremely high pressure-resistant sealing force can be obtained against opening from the inside of the container.

On the other hand, as shown in Fig. 6 and Fig. 7 (enlarged view), when you put your finger on the opening flange 5 of the cap and push the cap upward, the inner surface material for heat sealing on the opening side first The layer 7 breaks from the container side towards the outer shell 2 and then the blend weakened layer 8
Cohesive failure occurs, and finally, the heat-sealing inner material layer 7 breaks again from the outer shell side toward the container side, causing the cap to separate from the container mouth. Since the cap outer shell 2 is made of a rigid material, the heat-sealed portion is destroyed all at once over the entire circumference of the container opening. Further, since the heat-sealed portion is destroyed in the above-mentioned order, an advantage is achieved in that the cap can be opened easily with fingers.

FIGS. 6 and 7 show the state of the cap inner laminate after opening.

Furthermore, since the inner diameter of the peripheral portion 4 of the cap shell 2 is manufactured to be larger than the outer diameter of the container opening 17, the cap 1 cannot be resealed after being opened. Since the facts are clear, a guarantee function is provided to determine whether or not the contents have been touched.

In the present invention, the outer shell 2 of the cap can be made of any material such as synthetic resin, ceramic, metal, etc. as long as it is made of a rigid material. Here, the rigidity of the cap refers to a property that allows the cap to be lifted all at once without being substantially bent when the cap is opened. In terms of heat sealability, the cap shell has an isotactic
Olefin resins such as polypropylene, high-density polyethylene, propylene-ethylene copolymer, poly-4-methylpentene-1; styrene resins such as styrene-butadiene copolymer, ABS resin, polystyrene; nylon resins; saturated polyesters It is preferably made of resin; polyarylate resin; polycarbonate resin; hard vinyl chloride resin, etc. The cap shell can be manufactured by injection molding or press molding. The thickness of the top plate should generally be in the range of 0.5 to 3.0 mm, and the diameter should be in the range of 10 to 3.0 mm.
A range of 200 mm is desirable in terms of ease of opening.
Also, the height of the peripheral part of the cap shell varies depending on the diameter of the top plate, but is 0.1 to 0.1 of the diameter of the top plate.
It is desirable to have a height of 0.3 times.

Of course, it should be understood that the outer shell of the cap may be made of aluminum, tinplate, electrolytic chromic acid treated steel plate, etc. without any problem.

Heat-sealable resin inner surface material 7 of inner surface side laminate 6
are heat sealing materials known per se, e.g.
Low-, medium- or high-density polyethylene, polypropylene, propylene-ethylene copolymer, acid-modified olefin resin, olefin resin heat sealant such as EVA; polyester or copolyester heat sealant; polyamide or copolyamide heat sealant Sealant; can be made of polyvinyl acetal resin.

When the container opening to be heat-sealed is made of resin, it is preferable to use a heat-sealing resin of the same type as this resin as the inner surface material 7. However, acid-modified olefin resins and polyamide heat sealants can form strong heat seals on metals, and polyvinyl acetal resins can form strong heat seals on glass. Since the heat seal inner material is opened by the mechanism described above, it should have a thickness as thin as possible, generally 2 to 30 μm, particularly 5 to 30 μm.
Preferably, it has a thickness of 10 μm.

As the base material of the laminate, a resin film, a metal foil, or a combination thereof is used. Generally, as shown in FIG. 2, the base material consists of a resin film intermediate layer, a metal foil, and an adhesive resin layer. The resin film intermediate layer adheres the weakened layer made of the blend and facilitates the rupture of the inner layer from the shell side to the container side when the package is opened, and the weakened layer does not adhere well to the base material. Then, after opening the container, the inner surface material layer remains in the form of a film at the mouth of the container. As the resin film intermediate layer, those exemplified above as heat-sealable resins can be used.
Its thickness is generally 20 to 80 μm, especially 30 to 60 μm.
It is desirable that it be in the range of m.

The metal foil acts as a heating element during high-frequency induction heating during heat sealing, and also provides the cap with barrier properties against gases, scents, and the like. Metal foils include aluminum foil, steel plate, iron foil,
Tin foil, etc. is used, and its thickness is 5 to 50μ.
m, preferably in the range of 10 to 30 μm.

The adhesive resin to the shell is used to bond the laminate to the shell. In the case of thermal bonding, the heat-sealing resins listed above can be used, as well as urethane adhesives. , epoxy adhesive, etc. can also be used.

Note that when heat sealing is performed by ultrasonic heat sealing or spin welding, the metal foil can of course be removed from the base material. in this case,
It is also possible that the use of adhesive resin on the shell can be omitted.

The weakened layer used in the present invention is provided as an intervening layer between the aforementioned heat-sealable inner material layer and the base material, and is made of a blend of the heat-sealable resin of the inner material layer and another resin. By using such a blend, the resin layer itself is weakened compared to the case where a single resin is used, and cohesive failure easily occurs when peeled off.

It is desirable that the resin (B) blended with the heat-sealing resin (A) is a resin that constitutes the intermediate layer of the resin film, and the blend ratio of the two is A:B=20:80 to 60:40, especially 30: A ratio of 70 to 45:55 is desirable. In addition, it is desirable that the resin (A) and the resin (B) are the same but different resins, and therefore, combinations of propylene-ethylene copolymer and polypropylene; combinations of low-density polyethylene and high-density polyethylene; , a combination of acid-modified polyethylene and unmodified polyethylene, and the like.

The thickness of the blend layer is generally 5 to 40 μm, especially
It is preferably within the range of 10 to 20 μm.

In addition, the thickness ratio of base film (C ₁ ): blend weakening layer (C ₂ ): heat seal inner layer (C ₃ ) should be approximately (2 to 10): (3 to 1): 1. gives the most desired result. In addition, the seal strength (P) of each layer is expressed by the formula Pc ₁ −c ₂ >Pc ₂ −c ₃ ...(1) Pc ₃ −B>Pc ₁ −c ₃ ...(2) Pc ₁ −c ₂ Pc ₃ − B...(3) In the formula, Pc ₁ - _{c 2} represents the seal strength between the C ₁ and C ₂ layers, and the same applies below, and Pc ₃ - B represents the seal strength between the C ₃ layer and the container mouth (B). It is desirable that the strength (T) of each layer satisfies the following expressions: Tc ₃ <Tc ₁ (4) Tc ₂ <Tc ₁ (5).

To seal a container with a cap, the laminated body is cut out in the shape of a disc, this is fitted into the outer shell of the cap, this assembly is placed over the container mouth, and the container is pressed against the container mouth with a certain pressing force. This is done by high-frequency induction heating in a heated state. Pressure force is generally 0.5
A range of 2 kg to 2 kg is appropriate, and heat sealing is performed at a temperature higher than the melting point or softening point of the resin.

In FIG. 1, small protrusions 18 provided on the inner periphery of the cap shell prevent the laminate from coming off.

In addition, there is an opening flange 5 around the entire area around the cap.
Instead of providing an opening tab 5a, it is also possible to provide an opening tab 5a only at one end, as shown in FIG.

Further, as shown in FIG. 9, a plastic ring-shaped inner stopper 16a is fitted into the open end 17a of the glass container, and the sealing opening 19 is heated by the heat of the cap. It is also possible to perform sealing.

(Effects of the Invention) The cap according to the present invention has a rigid outer shell,
Equipped with a heat seal function that is tightly attached to the inside of the outer shell, it has a significantly high pressure-resistant sealing force against opening from the inside of the container, and can be easily opened from one end of the cap with finger pressure. Moreover, since resealing is difficult, the advantage of also having a quality assurance function for the contents is achieved.

This cap is useful as a simple heat seal cap for soft drink containers, alcoholic beverage containers, milk beverage containers, fruit filling containers, infusion containers, and the like.

(Example) Outer diameter injection molded by ink injection method
Homopolypropylene (d=0.90,
MI = 6) Homopolypropylene (d = 0.90, MI = 4) as a base film layer on a laminated film made by laminating a 20 μs Al foil on a 35 μm thick film.
20μm, thickness made of homopolypropylene and copolypropylene blended at a ratio of 60:40 as the intermediate layer
10 μs weakening layer, copolypropylene (d
= 0.90, MI = 2.5) A laminated film made by laminating a three-layer coextruded film with a heat seal layer having a thickness of 5 μm was punched to a diameter of 29φ and mounted. A tabbed CAP layered with this laminated film was placed over a 500ml polypropylene plastic bottle with a diameter of 27φ, and using a Shimada Rika Kogyo transistor inverter (high frequency induction heating machine), the current value was 4A, the heating time was 1.1 seconds, the cooling time was 1.0 seconds. The CAP, 35 μm polypropylene layer, bottle mouth and heat seal layer were simultaneously fused together under a pressure of 1.0 kg.

In order to check the opening force of the heat-sealed CAP, the tensile strength was measured using Tensilon.

(a) When the CAP was pulled evenly around the entire circumference, it was able to be opened at 18.2 kg.

(b) When only the tab part is pulled up in the same way
It weighed 1.3Kg.

As a comparative example, the thickness of the homopolypropylene of the base film layer was set to 35 μs, and the same procedure was performed as in the example except that the intermediate layer and inner layer were removed.The opening force was measured, and it was found that the opening force was uniform over the entire circumference of the CAP. When pulled up, it takes a force of 26 kg, and pulling up only the tab requires a force of 12.5 kg, which causes the Al foil to break between the aluminum foil and the base film, and the base film to the bottle opening. There was a lot of residue left and it was not possible to open the bottle properly.

[Brief explanation of drawings]

Fig. 1 is a cross-sectional structure of the cap of the present invention, Fig. 2 is a cross-sectional structure of the inner side laminate, and Figs. 3 and 4 are a front view and a cross-section of essential parts showing a state in which the cap of the present invention is applied to a container. Fig. 5 is an enlarged view of the main part of Fig. 4, Fig. 6 and Fig. 7 are sectional views of the main part showing the cap in the opened state, and an enlarged view of the main part, and Fig. 8 is the cap with an opening tab. FIG. 9 is a front view showing a state in which the cap is applied to a container, and FIG. 9 is a sectional view of a main part showing a state in which the cap is applied to a container via a ring-shaped inner stopper. 1...Cap, 2...Outer shell, 3...Top plate part,
5... Flange, 6... Inner side laminate, 7... Inner surface material, 8... Blend weakening layer, 12... Container,
16...Neck, 17...Sealing mouth, 18...Protrusion.

Claims (1)

[Scope of Claims] 1. An outer shell including a top plate integrally formed of a rigid material, a periphery, and an opening flange or tab provided on at least a part of the periphery; a top plate of the outer shell; A weakened material consisting of a heat-sealable resin inner material located on the container side joined to the inner surface, a base material located on the shell side, and a blend of the heat-sealable resin and another resin located between the two. When it is heat-sealed to the container mouth, a large opening force is required to uniformly open the container around the entire circumference, but there is no opening flange or tab. An easy-to-open heat-seal cap that has an opening property that allows it to be opened with a finger when opening from one end of the cap, and which cannot be resealed. 2 The inner side laminate is composed of a laminate of an olefin resin inner material, a blended resin weakening layer, an olefin resin intermediate layer, a metal foil, and an olefin resin layer, and the inner side laminate is heat-fused to the top plate of the base material by high-frequency induction heating. An easy-to-open heat seal cap according to claim 1. 3 2 or 2 where the olefin resin inner material is easy to break
The easily openable heat seal cap according to claim 1, having a thickness of 30 μm.