JP2970857B2 - Cover material for press-through pack - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[Industrial applications]

The present invention relates to a cover material for a press-through pack, which is a container for individually storing contents such as pharmaceuticals.

[Prior art]

2. Description of the Related Art Conventionally, a press-through pack has been known which includes a container body made of a synthetic resin such as polyvinyl chloride or polypropylene, and a lid made of aluminum foil for sealing an opening of the container body. The container main body has many pockets, and tablets such as medicines are stored in the pockets. When removing the tablet, the pocket is pressed from the outside, and the pressing force causes the lid to burst. Conventionally, as this lid material, the symbol HX in JIS H 0001
A so-called hard aluminum foil having a hardness not less than the hardness defined in 8 is used. This hard aluminum foil has high breaking strength and low elongation, and is suitably used as a cover material of a press-through pack. Here, the reason why the breaking strength is high is to prevent the lid material from breaking during manufacturing or transportation of the press-through pack. The low elongation is used so that the lid material is easily ruptured when taking out the tablet stored in the container body. However, this lid material had the following disadvantages. That is, the press-through pack is manufactured by laminating the container body and the hard aluminum foil, heat sealing at a temperature of about 200 ° C. and a time of about 0.1 second, and then cooling. At the time of this production, there was a disadvantage that the press-through pack was warped toward the container body. This is because the thermal shrinkage of the lid is smaller than the thermal shrinkage of the container body, and the load applied to the lid is deformed by the lid itself and cannot be absorbed. That is, the hard aluminum foil has a large deformation load. When the press-through pack is warped, there are disadvantages in that it is difficult to pack and pack and to store the press-through pack. For this reason, if a so-called soft aluminum foil having a hardness defined by the symbol O in JIS H 0001 is used as the lid, the deformation load is small, so that the load applied to the lid is absorbed. Thus, the disadvantage that the press-through pack warps toward the container body can be avoided. However, since the soft aluminum foil has a high elongation, when the tablet stored in the container body is taken out, the lid material may only extend without bursting.

[Problems to be solved by the invention]

In order to solve the above drawbacks, the present applicant has proposed an invention according to Japanese Patent Application No. 2-153039 (hereinafter, referred to as "prior invention"). The prior invention prevents the drawback that the press-through pack is warped to the container body side by bonding two aluminum foils having different hardnesses to form a cover material of the press-through pack, and stores the foil in the container body. It is intended to make it easier to take out the pills. The present invention intends to further promote the effects of the prior invention by adopting two aluminum foils having different hardness in the prior invention and having a thickness satisfying a specific condition.

[Means for Solving the Problems]

That is, in the present invention, the symbols O to
Soft aluminum foil with hardness defined by HX4 and JIS H
0001, a hard aluminum foil having a hardness not less than the hardness defined by the symbol HX8 is bonded with an adhesive, and the thickness of the soft aluminum foil (t _o ) and the thickness of the hard aluminum foil (th _h ) and it may satisfy the relationship of _{0.40 ≦ t o / (t o} + t h) ≦ 0.75, and the soft aluminum foil side, that heat sealing layer is provided for sealing the mouth of the container body The present invention relates to a lid material for a press-through pack, which is a feature. The soft aluminum foil used in the present invention has a hardness defined by symbols O to HX4 in JIS H0001. That is, it has a hardness ranging from the symbol O to HX4. Specifically, an aluminum foil having a hardness of O, HX1, HX2, HX3, HX4 is used. Here, the symbol O means that the aluminum foil is annealed so as to obtain the softest state. The symbol HX4 has a tensile strength intermediate between the symbols O and HX8. The symbol H
X1 has a tensile strength intermediate between the symbol O and the symbol HX2, a symbol HX2 has a tensile strength intermediate between the symbol O and the symbol HX4, and a symbol HX3 has a tensile strength equal to the symbol HX2. Symbol HX
It is in the middle of 4. The hard aluminum foil used in the present invention has a hardness higher than the hardness defined by the symbol HX8 in JIS H0001. Here, the symbol HX8 means that the cross-sectional reduction rate is almost 7
It refers to those with tensile strength obtained when cold-worked to 5%. In the present invention, a material having a hardness equal to or higher than that of the symbol HX8 is used as the hard aluminum foil. In the present invention, the thickness (t _o ) of the soft aluminum foil and the thickness (t _h ) of the hard aluminum foil need to satisfy the following relationship. That is, 0.40 ≦ t _o /
It is necessary to satisfy the relationship of (t _o + t _h ) ≦ 0.75. When the ratio of the thickness of the soft aluminum foil is less than 0.4 with respect to the total thickness of the soft aluminum foil and the hard aluminum foil,
It is not preferable because the press-through pack is warped for the following reasons. That is, when the thickness of the soft aluminum foil is smaller than a predetermined ratio, the load applied to the lid material caused by the difference in the thermal shrinkage between the container body and the lid material during the production of the press-through pack is reduced by the soft aluminum foil. Cannot be sufficiently absorbed, and the press-through pack is warped. Further, when the ratio of the thickness of the soft aluminum foil exceeds 0.75 with respect to the total thickness of the soft aluminum foil and the hard aluminum foil, it becomes difficult to take out the tablets stored in the container body for the following reasons, Not preferred.
That is, when the thickness of the high elongation soft aluminum foil is greater than a predetermined ratio, the lid itself also has a high elongation, the lid is hard to rupture, and it is difficult to take out the tablets stored in the container body. . In the present invention, the soft aluminum foil and the hard aluminum foil as described above are bonded with an adhesive. As the adhesive, conventionally known various adhesives can be employed, but it is particularly preferable to use a solution-type urethane-based adhesive for dry lamination. In the lid material for a press-through pack according to the present invention, a heat sealing layer for sealing the mouth of the container body is provided on the surface of the soft aluminum foil. As the adhesive constituting the heat sealing layer, a conventionally known adhesive can be used. In particular, it is preferable to use dicarboxylic acid-modified polypropylene, specifically, maleic acid or maleic anhydride-modified polypropylene. The reason why the heat sealing layer is provided on the soft aluminum foil side is that the soft aluminum foil is in contact with the container body so that the soft aluminum foil can easily absorb the load caused by the contraction of the container body. Thus, since the soft aluminum foil is arranged on the container body side, the hard aluminum foil is arranged outside. Therefore, it is preferable to provide an overcoat layer made of an epoxy resin or a nitrocellulose resin on the surface of the hard aluminum foil to improve the corrosion resistance of the hard aluminum foil. By the way, aluminum foil generally has a glossy surface on one side and a disappearing surface on the other side. This is because when the aluminum foil is cold-rolled, since the two rolls are cold-rolled, the surface in contact with the rolling roll becomes a glossy surface, and the surface in contact with another aluminum foil becomes a vanishing surface. Also in the case of the soft aluminum foil and the hard aluminum foil used in the present invention, one side is often glossy and the other side is erased. On the other hand, when an aluminum foil is used as the lid material of the press-through pack, it is preferable that both sides are erased. This is to prevent the eyes of the inspector from becoming tired when visually inspecting the identification symbol, the quality number, and the like printed on the lid material. Therefore, also in the present invention, when bonding the soft aluminum foil and the hard aluminum foil, it is preferable to bond the two aluminum foils with an adhesive such that the glossy surfaces of the two aluminum foils face each other. When the glossy surfaces are adhered to each other with an adhesive, both surfaces of the obtained lid material are erased. Therefore, a lid material that makes it hard for the eyes of the inspector or the like to be tired can be obtained and can be suitably used.

【Example】

Using soft aluminum foils and / or hard aluminum foils shown in Table 1, lid materials Nos. 1 to 11 for press-through packs were obtained using a solution urethane-based dry laminating adhesive. A maleic anhydride-modified polypropylene resin was applied to the surface of the aluminum foil shown in Table 1 as a cover material, and a heat sealing layer was provided. The soft aluminum foil used in the examples has a hardness defined by a symbol O in JIS H0001, and a hard aluminum foil has a hardness defined by a symbol HX8 in JIS H0001. Things. The above lid materials No. 1 to 11 and the container body (manufactured by Taisei
TAS2230), and using a blister packaging machine (Model M-2 manufactured by CK Corporation) at a temperature of 220 ° C. and a pressure of 4 kg.
/ cm ^2, to obtain a press-through pack by heat sealing at a speed 2m / min. The container body had a width of 37 mm and two rows of pocket groups in the longitudinal direction. The height of the warpage of the press-through pack was measured, and the result was as shown in Table 1. As is clear from the results shown in Table 1, the lid material for the press-through pack according to the example has a small Erichsen value and is easy to burst. Also, when the press-through pack is manufactured, the warpage of the press-through pack is small. In contrast, the lid material No. 5 in the comparative example
In Nos. To 7, since the soft aluminum foil was not used for the lid material, the obtained press-through pack was significantly warped. Moreover, since the hard aluminum foil is not used or the ratio of the hard aluminum foil is small for the lid materials No. 8 and 9,
The lid material is difficult to burst. Furthermore, since the lid material No. 10 has a small proportion of the soft aluminum foil, the obtained press-through pack has a large warp, and the lid material No. 11 has a heat sealing layer on the surface of the hard aluminum foil. Since the soft aluminum foil hardly absorbs the load due to the shrinkage of the main body, the obtained press-through pack has large warpage.

[Action and effect of the invention]

The cover material for a press-through pack according to the present invention is formed by laminating a soft aluminum foil and a hard aluminum foil having a predetermined thickness with an adhesive, and providing a heat sealing layer on the surface of the soft aluminum foil. is there. Therefore, when manufacturing a press-through pack, even if an external force is applied to the lid member due to a difference in thermal shrinkage between the container body and the lid member, the external force is absorbed by deformation of the soft aluminum foil itself. Therefore, the press-through pack can be prevented from warping to the container body side, and the press-through pack can be easily packaged in a box, and can be easily stored. Also, when taking out the tablet stored in the pocket of the container body, the pressing force applied to the pocket causes the outer hard aluminum foil to rupture first, and the pressing force concentrates on the soft aluminum foil with this rupture, The soft aluminum foil also bursts. Therefore, the lid material is easily broken out of the container body to take out the tablet, and the lid material does not burst at a stroke (that is, the hard aluminum foil and the soft aluminum foil do not burst at the same time but burst one after another), so that a large plosive sound is generated. Difficult,
It also has the effect of not causing discomfort to the patient. Furthermore, if the soft aluminum foil and the hard aluminum foil are bonded so that the erased surface becomes the outer surface, that is, if the soft aluminum foil and the hard aluminum foil are bonded such that the glossy surfaces thereof face each other, the lid material surface Even if the identification symbols, quality symbols, and the like printed on the surface are visually inspected, the eyes are hardly tired.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Yoshiko Tanaka, Inventor 61-8 Sasaya, Yamadera-cho, Kusatsu-shi, Shiga Japan Foil Co., Ltd. Shiga Factory (72) Inventor Hiroyuki Hado Doi 61-, Sasaya, Yamadera-cho, Kusatsu-shi, Shiga 8 Made in Japan Foil Co., Ltd. Shiga Factory

Claims (2)

(57) [Claims] A soft aluminum foil having a hardness defined by symbols O to HX4 in JIS H 0001, and JIS H 0001
And a hard aluminum foil having a hardness equal to or higher than the hardness defined by the symbol HX8 is bonded with an adhesive, and the thickness (t _o ) of the soft aluminum foil and the thickness (t _h ) of the hard aluminum foil and it is characterized by satisfying the relation of _{0.40 ≦ t o / (t o} + t h) ≦ 0.75, and the soft aluminum foil side, and the heat sealing layer is provided for sealing the mouth of the container body Cover material for press-through packs. 2. The press-through pack according to claim 1, wherein the glossy surfaces of the soft aluminum foil and the hard aluminum foil, one surface of which is glossy and the other surface of which are erased, are bonded with an adhesive. Cover material.