JPH07257638A - Ptp packing cover material - Google Patents

Abstract

PURPOSE:To obtain a packing cover material which is excellent in all such respects as gas-barrier, unsealing, and disposing characteristics. CONSTITUTION:In a PTP packing cover material 1 with which medicines are contained in a package container and the containing part of medicines is covered with heat-sealing, a flat smooth layer 3, a metal or metal oxide layer 4, an overcoat layer 5, and an adhesive layer 6 for heat-sealing are laminated in turn.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention stores a chemical in a package container, and uses a PTP (Press Thruu) used to cover the chemical containing portion by heat sealing.
gh Package) PTP that is excellent in all of the gas barrier property, the unsealing property, and the disposal property, especially for the packaging lid material.
The present invention relates to a packaging lid material.

[0002]

2. Description of the Related Art Generally, a PTP packaging lid material is used for the purpose of accommodating a medicine (for example, tablet) in a package container and covering the medicine accommodating portion by heat sealing.

Aluminum (Al) foil has been widely used as a PTP packaging lid material of this type. Since the PTP packaging lid material made of this Al foil has excellent gas barrier properties, it is suitable not only for maintaining the quality of chemicals, but also because it is easy to open (easy to tear), it is easy to take out chemicals from the package container. , An excellent PTP packaging lid material.

However, such a PTP packaging lid material made of Al foil is difficult to incinerate as a waste after its use ((a) high heat is generated during incineration, which may damage the incinerator. (B) Since there is much residue, the incinerator must be cleaned frequently). Therefore, the appearance of a PTP packaging lid material made of a material that can be easily disposed of has been strongly demanded.

Therefore, recently, a PT that can be easily disposed of
As a P packaging lid material, for example, a material that is easily broken and is coated with a smooth surface to smooth the surface of the paper and then a metal oxide such as silicon oxide is vapor-deposited has been considered.

[0006] However, this type of PTP packaging lid material has good opening property, but pinholes, cracks, and
There is a problem that defects such as grain boundaries or fine pores are easily generated, and good gas barrier properties cannot be obtained.

Also, a plastic substrate (eg PET1
It has been considered that a metal oxide such as silicon oxide is vapor-deposited on 2 μ).

[0008] However, although this type of PTP packaging lid material has a good gas barrier property, it has a problem in that it is difficult to open, and in order to improve the openability, it is necessary to devise a scratch on the film.

[0009]

As described above, there has been a problem that none of the conventional PTP packaging lid materials satisfy the gas barrier property, the unsealing property, and the disposal property.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a PTP packaging lid material excellent in all of gas barrier properties, opening properties, and disposal properties. To do.

[0011]

In order to achieve the above object, the present invention stores a chemical in a package container,
In a PTP packaging lid material used to cover the chemical storage portion by heat sealing, a smooth coating layer, a metal or metal oxide layer, an overcoat layer, and a heat sealing adhesive are sequentially provided on a paper material. It is made by stacking.

Here, in particular, the metal or metal oxide is made of aluminum, tin, one of silicon oxide, aluminum oxide, tin oxide, or a composite thereof.

Further, as the overcoat layer, an aqueous solution containing at least one of a water-soluble polymer, one or more kinds of metal alkoxide and its hydrolyzate, or tin chloride, or a water / alcohol mixed solution is a main component. The coating agent is applied and heated to dry to form a glassy film.

Furthermore, polyvinyl alcohol is used as the water-soluble polymer.

Further, the metal alkoxide is tetraethoxysilane, triisopropoxyaluminum, or a mixture thereof.

[0016]

Therefore, in the PTP packaging lid material of the present invention,
Smooth coating layer, metal or metal oxide layer on paper material,
By sequentially laminating the overcoat layer and the heat-sealing adhesive, the gas barrier property, the unsealing property, and the disposal property can be made excellent.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is a sectional view showing a structural example of a PTP packaging lid material according to the present invention.

That is, as shown in FIG. 1, the PTP packaging lid material 1 of this embodiment comprises a paper material 2, a smooth coating layer 3,
The metal or metal oxide layer 4, the overcoat layer 5, and the heat sealing adhesive 6 are sequentially laminated.

Here, as the paper material 2, for example, high-quality paper,
Medium-quality paper, art paper, coated paper, kraft paper, etc. can be used and are not limited as long as they have sufficient strength and openability, and can be appropriately selected according to the type of contents and the type of package. it can.

The smooth coat layer 3 is for smoothing the surface of the paper material and for uniformly providing the subsequent metal or metal oxide layer 4, for example, vinyl chloride / vinylidene chloride resin, acrylic polyol system. Resins, polyester resins, polyester / melamine resins, nitrified cotton / acrylic polyol resins, nitrified cotton resins, amino / alkyd resins, etc. can be used.

These resins are applied to the paper material 2 by using, for example, a gravure coater after diluting to an appropriate viscosity with an appropriate solvent, followed by drying and, if necessary, aging. And is provided on the paper material 2.

At this time, the type and amount of the solvent, the drying conditions and the like vary depending on the type of the resin to be coated and may be appropriately selected. The most important thing is that the surface of the smooth coat layer 3 is smooth. That is, no solvent remains in the smooth coat layer 3.

That is, when the surface of the smooth coat layer 3 lacks in smoothness, the metal or metal oxide layer 4 to be laminated thereon is formed.
Are difficult to provide uniformly, and pinholes and cracks are likely to occur. Further, if there is a residual solvent in the smooth coat layer 3, it takes time to exhaust gas due to degassing in the process of providing the metal or metal oxide layer 4 on it by a vacuum process such as PVD or CVD. In some cases, degassing may be incorporated into the metal or metal oxide layer 4 and even adversely affect its properties.

On the other hand, the metal or metal oxide layer 4 is made of, for example, aluminum, tin, or one of silicon oxide, aluminum oxide, tin oxide, or a composite thereof.

The silicon oxide referred to in this embodiment means various compounds of oxygen and silicon (SiO, SiO ₂ , Si ₂ O).
₃ , Si ₃ O _4, etc.), particularly good gas barrier properties can be obtained in the case of silicon suboxide represented by SiOx x = 1.0 to 1.8.

The aluminum oxide referred to in this embodiment means various compounds of oxygen and aluminum (AlO, A
l ₂ O, is that of Al ₂ O _3, and the like).

Further, the tin oxide referred to in this embodiment means various compounds of oxygen and tin (SnO, Sn ₂ O ₃ , SnO _2).
Etc.).

On the other hand, the thickness of the metal or metal oxide layer 4 is desired to be in the range of 50 to 10,000 angstrom (1 μ).

That is, if it is thinner than 50 angstroms, a continuous film may not be formed, and if it is thicker than 1 μm, the incineration processability (the amount of heat generated during incineration is small and the residue after incineration is small) is poor. This is because not only the productivity but also the productivity will deteriorate.

As a means for providing the metal or metal oxide layer 4 as described above, for example, a vacuum deposition method, a sputtering method, an ion plating method or the like, or a film formation in a reactive gas atmosphere such as oxygen gas It is possible to use a reactive vacuum vapor deposition method or a reactive sputtering method for performing

In addition to the PVD method, a plasma activated CVD method or the like can be used.

On the other hand, the overcoat layer 5 is to be coated on the metal or metal oxide layer 4 because a sufficient gas barrier property cannot be obtained only by the metal or metal oxide layer 4 described above.

The overcoat layer 5 comprises an aqueous solution containing at least one of a water-soluble polymer, (a) at least one metal alkoxide and its hydrolyzate, or (b) tin chloride, or water / alcohol. A glass film formed by applying a coating agent containing a mixed solution as a main component and heating and drying, and by forming such an overcoat layer 5 on the metal or metal oxide layer 4,
By filling and reinforcing defects such as pinholes, cracks, grain boundaries and the like or fine holes generated in the metal or metal oxide layer 4, a dense structure is formed and a high gas barrier property can be obtained.

The respective components contained in the coating agent used for the overcoat layer 5 will be described in detail below.

Examples of the water-soluble polymer used in this coating agent include polyvinyl alcohol, polyvinylpyrrolidone, starch, methyl cellulose, carboxymethyl cellulose, sodium alginate and the like. In particular, when polyvinyl alcohol (hereinafter referred to as PVA) is used, the overcoat layer 5 having the best gas barrier property can be obtained.

The PVA referred to here is generally obtained by saponifying polyvinyl acetate and has several tens% of acetic acid groups remaining, that is, only a few% of acetic acid groups remain from so-called partially saponified PVA. It is not particularly limited, including completely saponified PVA which is not prepared.

The tin chloride may be, for example, stannous chloride (SnCl ₂ ), stannic chloride (SnCl ₄ ), or a mixture thereof, and an anhydride or a hydrate can be used. .

Further, as the metal alkoxide, for example, tetraethoxysilane [Si (OC ₃ H ₅ ) ₄ ],
Triisopropoxy aluminum [Al (O-2'-C
₃ H ₇ ) ₃ ] etc., M (OR) _n (M: metal such as Si, Ti, Al, Zn etc., R: CH ₃ ,
Alkyl such as C ₂ H _{5 and} the like). Among them, tetraethoxysilane and triisopropoxyaluminum are more preferable because they are relatively stable in an aqueous solvent after hydrolysis.

Each of the above-mentioned components can be added to the coating agent alone or in combination of two or more thereof, and as long as the gas barrier property of the coating agent is not impaired,
Known additives such as an isocyanate compound, a silane coupling agent, or a dispersant, a stabilizer, a viscosity modifier, and a colorant can be added.

On the other hand, the heat-sealing adhesive 6 is used for heat-sealing the package container containing the chemical and the PTP packaging lid material, and for example, polyester / nitrified cotton type resin or the like can be preferably used. it can.

Next, a more specific example of the PTP packaging lid material of this embodiment will be described.

(Specific Example 1) First, clay coated paper (60
g / m ² ) on top of vinyl chloride /
A vinylidene chloride resin was coated at a dry weight of 4 g / m ² .

Then, about 500 angstroms of silicon monoxide (Si) is formed thereon by vacuum evaporation of resistance heating method.
O) A thin film was provided.

A gravure coater was further applied thereon to coat a coarse overcoat layer described below, and after sufficiently heating and drying, a polyester / nitrified cotton type heat-sealing adhesive was also applied by a gravure coater.
It was coated with g / m ² to obtain a PTP packaging lid material.

(Overcoat layer) Tetraethoxysilane [Si (OC ₂ H ₅ ) ₄ : hereinafter referred to as TEOS] 1
89.6 g of hydrochloric acid (0.1N) was added to 0.4 g, and 30
Solid content of 3 wt% (SiO ₂
3w of polyvinyl alcohol and hydrolysis solution
A t% water / isopropyl alcohol solution (water: isopropyl alcohol weight ratio 90:10) was added to the mixture ratio (wt
%) A glassy film having a thickness of about 0.3 μ, which was sufficiently dried after being mixed at 60/40 and coated with a gravure coater.

(Comparative Example 1) In the above specific example 1, an adhesive for heat sealing was directly provided on the vapor deposition layer of SiO without coating the overcoat layer.

(Specific Example 2) Except that the vapor deposition layer was silicon dioxide (SiO ₂ ) of about 500 angstrom provided by vacuum vapor deposition of EB heating method, it was manufactured in exactly the same manner as in Specific Example 1.

(Comparative Example 2) In the above specific example 2, the heat-coating adhesive was directly provided on the SiO ₂ vapor-deposited layer without coating the overcoat layer.

(Specific Example 3) Specific Example 1 except that the vapor deposition layer was aluminum oxide (Al ₂ O ₃ ) having a thickness of about 300 angstroms provided by vacuum vapor deposition of an EB heating system.
Was manufactured in exactly the same manner as in.

(Comparative Example 3) In Specific Example 3, the heat seal adhesive was directly provided on the vapor-deposited layer of Al ₂ O ₃ without coating the overcoat layer.

(Specific Example 4) Except that the vapor-deposited layer was made to be about 500 angstrom tin dioxide (SnO ₂ ) provided by vacuum vapor deposition of resistance heating method, it was manufactured in exactly the same manner as in Specific Example 1.

(Comparative Example 4) In the above specific example 4, the heat-coating adhesive was directly provided on the SnO ₂ vapor-deposited layer without coating the overcoat layer.

(Specific Example 5) Except that the vapor deposition layer was made of metal aluminum (Al) having a thickness of about 400 angstroms provided by vacuum vapor deposition of a resistance heating system, it was manufactured in exactly the same manner as in Specific Example 1.

(Comparative Example 5) In the above-mentioned specific example 5, the overcoat layer was not coated, and on the Al vapor deposition layer,
An adhesive for direct heat sealing was provided.

Comparative Example 6 First, the PET film (12
Approximately 500 μm thick) by resistance heating vacuum deposition
An Angstrom silicon monoxide (SiO) thin film was provided.

Next, a polyester / nitrified cotton type heat-sealing adhesive was applied to the surface by a gravure coater.
It was coated with g / m ² to obtain a PTP packaging lid material.

Table 1 shows a comparison of the evaluation results of the gas barrier properties and the unsealing properties of the PTP packaging lid materials produced as described above.

[0059]

[Table 1] From Table 1, it can be seen that the PTP packaging lid materials of Concrete Examples 1 to 5 of the present example are superior in gas barrier property to the PTP packaging lid materials of Comparative Examples 1 to 5.

In addition, the PTP packaging lid material of Comparative Example 6 has the gas barrier property of each PT of Concrete Examples 1 to 5 of this Example.
Although it is possible to obtain almost the same material as the P packaging lid material, it can be seen that the openability is not so good.

In Table 1, the tablet method is, for example, as shown in the schematic diagram of FIG. After heat-sealing the material, the tablet was pushed by hand from the polyvinyl chloride-based medicine storage portion side to determine whether or not the lid material was broken.

As described above, in this embodiment, in the PTP packaging lid material used for accommodating the medicine in the package container and covering the medicine accommodating portion by heat sealing, the paper material 2 is The smooth coat layer 3, the metal or metal oxide layer 4, the overcoat layer 5, and the heat-sealing adhesive 6 are laminated in this order.

Therefore, it is possible to obtain the PTP packaging lid material 1 excellent in all of the gas barrier property, the unsealing property, and the disposal property.

[0064]

As described above, according to the present invention, in a PTP packaging lid material used to store a medicine in a package container and cover the medicine storage portion by heat sealing, Since a smooth coating layer, a metal or metal oxide layer, an overcoat layer, and an adhesive for heat sealing are sequentially laminated on top of each other, PTP packaging excellent in all of gas barrier property, opening property and disposal property A lid material can be provided.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of a PTP packaging lid material according to the present invention.

FIG. 2 is a schematic view for explaining a function and effect of a PTP packaging lid material in the same embodiment.

[Explanation of symbols]

1 ... PTP packaging lid material, 2 ... paper material, 3 ... smooth coat layer, 4
... Metal or metal oxide layer, 5 ... Overcoat layer, 6
… Heat seal adhesive.

 ─────────────────────────────────────────────────── ─── Continued Front Page (72) Inventor Taketo Tomita 1-5-1 Taito, Taito-ku, Tokyo Toppan Printing Co., Ltd. (72) Inventor Junichi Homma 1-5-1 Taito, Taito-ku, Tokyo Toppan Imprint Co., Ltd.

Claims (5)

[Claims] 1. A PTP packaging lid material used for accommodating a chemical in a package container and covering the chemical accommodating portion by heat sealing, wherein a smooth coating layer, a metal or a metal oxide is provided on a paper material. layer,
A PTP packaging lid material comprising an overcoat layer and an adhesive for heat sealing, which are sequentially laminated. 2. The metal or metal oxide includes aluminum, tin, silicon oxide, aluminum oxide,
The PTP according to claim 1, wherein the PTP is composed of any one of tin oxides or a composite thereof.
Packaging lid material. 3. The base material of the overcoat layer is an aqueous solution containing at least one of a water-soluble polymer, one or more metal alkoxides and hydrolysates thereof, or tin chloride, or a water / alcohol mixed solution. The PTP packaging lid material according to claim 1, wherein the PTP packaging lid material is a glassy coating formed by applying a coating agent of the following and heating and drying. 4. The P according to claim 3, wherein the water-soluble polymer is polyvinyl alcohol.
TP packaging lid material. 5. The PTP packaging lid material according to claim 3, wherein the metal alkoxide is tetraethoxysilane, triisopropoxyaluminum, or a mixture thereof.