JPH0314403A - Press, through, package and backing roll for manufacturing same - Google Patents

Abstract

PURPOSE:To suppress the generation of curling to a degree which is equivalent to a case of vinyl chloride or lower while using a polyolefin synthetic resin, which has an excellent moisture resistance but has a large heat shrinkage ratio, as a sheet material by a method wherein a bonded part by thermal contact bonding between a sheet made of a polyolefin synthetic resin material and an aluminum foil is formed into an annular shape with a specific width, around the opening of a pocket for storage. CONSTITUTION:As a material for a synthetic resin sheet 1, a polyolefin synthetic resin, such as polypropylene, etc., is used, and the thickness is desirable to be 300 mum, but it can be selected in a range of 150 - 400 mum. Also, a bonded part 6 by thermal contact bonding between an aluminum foil 7 and the synthetic resin sheet 1 is formed into an annular shape with a width of 1.7mm - 3mm around the opening of a pocket for storage 2. While using polypropylene as the sheet material 1, the sheet material 1 is strongly bonded to the aluminum foil at a bonded part 6, and other parts are pseudo-sealed with a weak bonding force or barely bonded. Therefore, a gap by heat shrinkage between the upper and lower parts at the bonded part can be kept small.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention is based on the following method: After storing tablets, etc. in a large number of storage pockets provided in a composite resin sheet, the pockets are opened [one part is wrapped in anoremi foil, Kopress, Snowley Pa + J Cage (
This will be described below as P. T. (Prior art) Currently, P.P. is used for packaging tablets such as pharmaceuticals. T. P is widely used as its base material.
Polyvinyl chloride sheet of Mikukuchi is used, and aluminum foil of about 17 to 25 m.I1 is used as a sealing material.

After filling the numerous collection pockets formed in the vinyl chloride sheet with tablets or capsules, the sheets are run on the circumference of the receptacle, and aluminum foil is thermocompression bonded to the sheet surface with a heat seal roll. and stacked to close the pocket opening.

Problems to be solved by this invention> However, when laminating by heat sealing, the difference in heat shrinkage rate between aluminum foil and the resin sheet becomes a problem. Since the heat shrinkage rate of the coalescent resin sheet and the synthetic resin sheet are naturally different, the laminate will curl toward the side with the larger shrinkage rate after heat sealing. This curling phenomenon may be influenced to some extent by the curved surface of the receiving roll during heat rolling, or the aluminum side may be slightly stretched by the beat seal roll, which may be a major cause of the difference in the heat shrinkage rate. Such curls not only look unsightly, but also have the disadvantage of obstructing the smooth flow on the line in automatic backing. Therefore, conventionally, at least P. T. Vinyl chloride, which has a heat shrinkage rate closest to that of aluminum foil, is selected and used within the range that meets the physical conditions for P. However, since vinyl chloride has poor moisture resistance, it is not preferred for tablets that particularly require moisture resistance. In terms of moisture resistance, polyolefin-based synthetic resin materials such as polyethylene are preferred, but they have a large gap in heat shrinkage compared to aluminum foil, and the above-mentioned curling phenomenon appears significantly, making it impossible to obtain a quality appearance as a product.

Therefore, the present invention aims to reduce the occurrence of the curling phenomenon to the same level as that of vinyl chloride, even though it uses polyolefin-based synthetic resin, which has excellent moisture resistance and high heat shrinkage, as a sheet material. The following P. T. The main purpose of the present invention is to provide a receiving roll used in a device that manufactures the same.

Means for Solving the Problem> In order to achieve the above object, the P. T. After filling tablets into a large number of storage pockets provided on a synthetic resin sheet, the sheet is heated and bonded between an aluminum foil receiving roll and a heat-sealing roll to form the storage pockets. P. whose opening was occluded. T. P, the synthetic resin container is shaped with a polyolefin synthetic resin material having a thickness of 150 to 400 microns, and the bonded portion of the aluminum foil and the synthetic resin sheet by thermocompression bonding is connected to the opening of the storage pocket. Around]. 7mm~3lTlm
It is formed into a ring shape with a width of .

Furthermore, the above P. T. In the above-mentioned receiving roll for manufacturing P, a 1TII.
A ring-shaped convex receiving surface of 7 mm to 3 mm is formed.

Gusakugawa> In the present invention constructed as described above, polypropylene having a high heat shrinkage rate is used as the sheet material 1, so it is strongly bonded to the aluminum foil by the ring-shaped bonding part 6. and use weak adhesive force to pseudo-seal other parts, or
In addition, since it hardly connects, it is possible to suppress the heat shrinkage of the upper and lower parts at the joint part,
As a result, the occurrence of curling due to heat shrinkage after heat-rolling can be suppressed to the same level as that of vinyl chloride, or even lower than that of vinyl chloride.Therefore, it is possible to suppress the occurrence of curling phenomenon due to heat shrinkage after heat-rolling. The sheet can be used as it is without having to be laminated with other composite resins, making it particularly suitable for use in tablets and capsules that require moisture resistance. T. P can be manufactured at low cost.

<Examples> Examples of the present invention will be described below with reference to the drawings.

In the present invention, a polyolefin compound such as polypropylene is used as the material for the synthetic resin sheet. Is the thickness of the sheet l preferably 300 microns?1
Selected within the range of 50-400 microns.

Moreover, polybropylene is preferable as the polyolefin-based composite resin material.

The above-mentioned composite JRPA resin sheet is formed of a long strip, and a large number of storage pockets 2 are formed into a stretched shape by vacuum forming or pressure forming force means. After the storage pocket 2 is filled with tablets 3 such as medicines, they are sequentially sent between the heat seal roll 4 and the receiving roll 5 together with the aluminum foil 7 to be heat sealed.

A diamond lattice pattern is formed on the circumferential surface of the heat seal roll 4 by a large number of mutually intersecting ridge lines 4a, 4b, and so on. Therefore, the portion to be crimped by the heat seal roll 4 is formed in a rhombic lattice pattern. still,
The distance l between each of the ridge lines 4a and 4b is 0.8 m.
Although the size is specified as 0.6 to 1. omm
It is possible to make changes within the range of 4.

Further, the socket ring 5 is provided with a large number of recesses 5a for receiving the storage sockets 2, and a ring-shaped convex receiving surface 5b having a height of 20 microns is formed around the recesses 5a. The height of this ring-shaped convex receiving surface is selected between 10 and 80 microns depending on the object to be packaged, as will be described later. The width (L) of the ring-shaped convex receiving surface 5b is
It is formed with dimensions that include at least two intersections P and P of the diagonal portions of the thorns formed by the ridgeline of the heat seal roll 4, that is, L≧0.8 mm x SI2 X 2 -C.

Therefore, the width (L) of the above-mentioned ridge-shaped convex receiving surface is most preferably approximately 2. Although it is formed of 3 mm,
These dimensions! ．． It is permissible within the range of 7m+n to 3mm.

Between the heat seal roll 4 and the socket roll 5 formed as described above, the joint resin sheet 1-1 with tablets filled in the pocket 2 and the aluminum foil 7 with adhesive applied to the joint are sent. Crimp at an appropriate temperature. This results in synthetic resin part 1 and aluminum'? The i7 is strongly pressed and connected by a ring-shaped convex receiving surface 5b formed on the circumferential surface of the recess 5a.

At this time, in the embodiment described above, since the height of the convex receiving surface 5b of the socket ring 5 is formed as low as 20 microns, as shown in FIG. The roll 4 will touch lightly, and portions other than the ring-shaped joint 6 will be pseudo-sealed with weak adhesive force.

Incidentally, the degree of this pseudo-sealing is different from that of the heat seal roll 5.
Therefore, if the height of the convex receiving surface 5a is increased to, for example, 80 microns, the pseudo seal portion will almost disappear and only the ring-shaped joint portion 6 will be strongly crimped and connected. It is something.

The thus heat-sealed strip has suitable dimensions, for example, the P. of the IVL unit containing two rows of storage pockets as shown in FIG. T. It is canted by P and becomes a product. At this time, although polypropylene with a high heat shrinkage rate is used as the bond material, it is strongly bonded to the aluminum foil at the ring-shaped bonding part 6, and other parts are not bonded or have a weak adhesive force. Since the material is pseudo-sealed with the material, it is possible to suppress the heat shrinkage gap between the upper and lower sheets to a small extent, thereby suppressing the occurrence of the above-mentioned curl dyeing to the same level as in the case of vinyl chloride, or less than that. can.

The table below shows the power phenomenon caused by thermal shrinkage after heat sealing, and was measured by the inventor at each elapsed time. In the table, ■ indicates the P. of the unit according to the present invention. T. P
(■) is made of the same material as the present invention, and the entire surface is heated, and (■) is a P.I. made of the conventional PVC sheet. T. This indicates P. Further, the numerical values in the table indicate the curl degree X shown in FIG. 2, and the unit is mm.

From the table of the first offense, P. T. P is in the curl that occurs after the seal, and δt. It is clear that it is the same rod as the one using K vinyl chloride sheet, R or more.

Further, in the present invention, as shown in FIG. 5, the P.I. T. A connecting portion 8 having a width similar to that of the ring-shaped connecting portion 6 may also be provided around the P. This can prevent the aluminum foil peripheral portion from peeling off.

<Effects of the Invention> As detailed above, the present invention uses polypropylene, which has a high heat shrinkage rate, as a sheet material.
It is strongly bonded to the aluminum foil at the ring-shaped bonding part 6,
Since the other parts are hardly joined or are pseudo-sealed with weak adhesive force, it is necessary to suppress the gap of heat shrinkage between the upper and lower parts at the joint part to a small extent. The occurrence of curling due to subsequent heat shrinkage can be suppressed to the same level or less than that of vinyl chloride, and therefore, polyolefin-based composite resin sheets with high weather protection properties, which could not be used alone in the past, can be used with other materials. It has become possible to use it as it is without laminating it with a composite resin, and it is especially suitable for tablets that require moisture resistance. T. The storage pocket can be manufactured with a diameter of approximately 1.7 to 1.7 mm around its opening.
Because it is strongly connected in a ring shape with 3mm 1tI,
The interior of the storage pocket is completely sealed, and at the same time, the resin sheet and aluminum foil can be reliably joined with the necessary bonding force.

Furthermore, in the peripheral part of the pocket fitting recess of the receiving roller according to the present invention, a height of 10 to 80 microns is 11"Il.
．． Since a ring-shaped convex receiving surface of 7 mm to 3 mm was formed, f
By changing the height of the ring-shaped convex receiving surface described in lif within the above-mentioned setting range, for example, by lowering the height, the heat-seal opening can be made to lightly touch parts other than the ring-shaped joint part described in +iif. By making a false seal with a weak adhesive force, or conversely, by increasing the height of the seal, the false seal part can be almost eliminated, and only the ring-shaped joint can be reliably and strongly adhered. P. according to the target object. T. It has the effect of allowing you to obtain P.

[Brief explanation of the drawing]

No. IL71 is the P.I. T. FIG. 2 is an enlarged cross-sectional view of P.P, FIG. 3 is a cross-sectional view showing the heat-on-roll process, FIG. T. A plan view showing another embodiment of P, FIG. 6 is a partially enlarged view showing the circumferential surface of the heat seal roll, FIG.
Fig. 8 is a partially enlarged cross-sectional view of the receiver ``J-ru''.
is a tablet, 4 is a heat seal roll, 5 is a receiving roll, 5a is a recessed part, 5b is a convex receiving surface, 6
is a ring-shaped joint, and 7 is an aluminum foil. Figure 2

Claims (3)

[Claims] (1) After filling a large number of storage pockets provided in a synthetic resin sheet with tablets, the sheet receives aluminum foil and is bonded by thermocompression between a roll and a heat seal roll to open the storage pockets. Press with closed section,
The synthetic resin sheet is formed of a polyolefin synthetic resin material with a thickness of 150 to 400 microns, and the bonded portion of the aluminum foil and the synthetic resin sheet by thermocompression is connected to the opening of the storage pocket. Around 1
．． A press, through, package characterized by being formed into a ring shape with a width of 7 mm to 3 mm. (2) The press, through, package according to claim (1), wherein the contact surface between the synthetic resin sheet and the aluminum foil other than the joint around the pocket opening is pseudo-sealed with a weak adhesive force. (3) At the periphery of the storage pocket fitting recess formed on the circumferential surface of the receiving roll, a height of 10 to 80 microns and a width of 1.
Claim (1) wherein a ring-shaped convex receiving surface of 7 mm to 3 mm is formed.
Receiving roll for manufacturing presses, throughs, and packages described in 1).