JPH0449023A - Manufacture of plastic bottle - Google Patents

Abstract

PURPOSE:To make the thickness of a section set in a low temperature section thicker than that of a section set in a high temperature section by regulating the temperature of a striped shape formed by dividing a parison in the longitudinal direction so as to have the high temperature section and the low temperature section within a range higher than a mold temperature at the time of drawing blow molding, inserting the parison into a mold, blowing in compressed air and blow-molding the parison. CONSTITUTION:A temperature regulating bar 2 is inserted to a parison 1, and a temperature is regulated. The temperature regulating bar 2 is formed in an approximately circular shape, a large number of projecting strips 3 are protruded from the circumferential surface of the bar 2, only sections oppositely faced to the projecting strips 3 are cooled, and the temperature of the sections oppositely faced to the strips 3 is made lower than other sections. When the sections oppositely faced to the projecting strips 3 are used as low temperature sections 4 and other sections as high temperature sections 5 at that time, it is favorable that the high temperature sections 5 are adjusted at approximately 90-120 deg.C and the low temperature sections 4 at approximately 60-90 deg.C when a mold temperature at the time of blow molding is set at 60-90 deg.C. The low temperature sections 4 and the high temperature sections 5 are distributed in a longitudinal striped shape, and it is preferable that the low temperature sections 4 are mounted at locations obtained by equally dividing the parison 1. Accordingly, the parison 1 adjusted is inserted into the mold, and compressed air is fed in and the parison is blow-molded.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention involves molding a bottomed cylindrical parison made of resin such as polyethylene terephthalate (hereinafter referred to as PET) by injection molding. The present invention relates to a method for producing plastic bottles, which involves making a parison into a direct or cold parison, inserting the parison into a mold in a heated state, clamping the mold, and stretch blow molding.

<Prior art> Conventionally, when forming plastic bottles to be filled with liquids such as beverages and oil using this type of stretch blow molding, the body shape of the plastic bottle is shaped into a smooth curved surface, for example, a shape with a circular or elliptical cross section. When this is done, the bottle is stretched and formed to have a smaller wall thickness, which weakens the strength, particularly the buckling strength. To solve this problem, it is necessary to provide reinforcement irregularities on the body of the bottle. Ta.

<Problems to be Solved by the Invention> When unevenness is formed on the bottle body as described above, (i) processing of the mold becomes complicated and costs increase.

(11) The position where the label can be pasted is restricted.

(ij) When integrating the labels in a mold, air bubbles remain between the bottle and the label.

Due to these problems, there has been a desire for a method for manufacturing bottles that can provide similar strength without forming irregularities on the mold.

<Means for Solving the Problems> The present invention solves the above problems, and includes a method for manufacturing a plastic bottle in which an injection-molded bottomed cylindrical parison is stretch-blow-molded in a mold. The parison is divided into strips in the longitudinal direction, the temperature is adjusted to have a high temperature part and a low temperature part in a range higher than the mold temperature during stretch blow molding, and the parison is inserted into the mold, and then compressed. The present invention provides a method for manufacturing a plastic bottle in which the part set as the low temperature part is made thicker than the part set as the high temperature part by blow molding by blowing air into the bottle.

<Function> In the above method, if the plastic bottle after molding is cooled by the supplied compressed air until the shrinkage stabilizes, and then taken out from the mold, the surface conforms to the mold, and the wall thickness is only on the inside. A bottle with a change in shape can be obtained, and if the bottle is taken out during cooling, a bottle can be obtained in which the portion corresponding to the low temperature region has a smaller curvature than the other portions, and a plastic bottle with excellent strength can be obtained in both cases.

<Example> Hereinafter, the method for manufacturing a plastic bottle according to the present invention will be explained with reference to an example.

First, a hot parison method will be described in which a heated parison immediately after injection molding is used as it is.

A cylindrical parison with a bottom is made of PET resin using the injection molding method.
1) is molded to a predetermined size, and a temperature control rod (as shown in Figures 1 and 2) is attached to the parison (1) taken out from the injection molding machine.
2) and adjust the temperature of this parison (1). As shown in the cross-sectional view of FIG.
) is provided protrudingly, and the surface of the protruding strip (3) is set to be in contact with the inner surface of the parison (1) or located in the vicinity thereof, and this temperature control rod (2) When inserted into the parison (1), only the part facing the protrusion (3) is cooled, and the temperature is lower than that of the other parts. Here, when the part facing the protruding strip (3) is defined as a low temperature part (4) and the other part is defined as a high temperature part (5), the temperature adjustment is such that the mold temperature during blow molding, which will be described later, is 60 - If the temperature is 90°C, the high temperature part (5) of the parison (1) is 9O-12
0C is preferably adjusted to about 60-90C in the low temperature section (4).

The low temperature part (4) and the high temperature part (5) are now distributed in a vertical stripe shape, and the low temperature part (4) can be located anywhere, but generally it is located at a position where the parison (1) is equally divided. It is preferable to provide the In addition, when the cross-sectional shape of the body is an ellipse as shown in Fig. 3, it is preferable to arrange the corresponding mold (6) so that the cavity surface is within a certain range (χ). The parison (1) adjusted in this way is molded into a mold (6).
Insert the rond (
(not shown) and then blow molding by blowing compressed air.

There are two methods for cooling the molded bottle. First, the bottle is cooled by compressed air until the body shrinks stably, and then the bottle is removed from the mold. The curvature is constant so that the outer surface matches the inner surface, and the part that was the low temperature part (4) in the parison state has a thick wall part (11) because the elongation due to compressed air is small. ) and high temperature section (5)
A bottle 00) is obtained in which the thin wall portion α force forms a vertical stripe at a portion corresponding to .

On the other hand, if you take out the bottle during cooling, the thin wall part (21
) and the thick part (22), as shown in Figure 5, there is a part with a small curvature, and the synergistic effect ratio with the thick part results in reinforcement of that part. The hot parison method was explained in the explanation, but when using the cauldrison method, a pre-formed parison (preform) is heated to a predetermined temperature using a temperature control device, etc., and then a temperature control rod is used as in the above-mentioned real parison method. It may be inserted into a heated parison, partially adjusted to a low temperature section and a high temperature section, and stretch blow molded using the same method as in the above embodiment.

In the above embodiment, a flat bottle with a circular cross section was manufactured, but it is possible to produce a variety of shapes such as a cylindrical shape and a prismatic shape.

<Effects> Since the present invention has the above-described configuration, the mold does not have a complicated shape with unevenness, and the molded bottle does not have a thick wall part like a vertical stripe or a curved part. By providing a small portion to increase strength, it is possible to manufacture bottles that can withstand lateral pressure, that is, prevention of denting of hot-filled bottles such as beverages, and buckling strength when capping. In addition, when pasting a label, unlike conventional methods, there is no unevenness formed on the outer surface, so it can be easily and neatly pasted after molding or at the same time as molding. This is an excellent method for producing plus bottles.

[Brief explanation of drawings]

Fig. 1 is an explanatory diagram showing the process of adjusting the temperature of a parison according to the method for manufacturing a plastic bottle of the present invention, Fig. 2 is an explanatory diagram showing a cross section of Fig. 1, and Fig. 3 is an explanatory diagram showing a cross section during bottle molding. FIG. 4 is an explanatory cross-sectional view showing one embodiment of a molded bottle, and FIG. 5 is an explanatory cross-sectional view of a bottle molded according to another embodiment. (1) --------- Parison (2) ---
--One temperature control stick (3)・-・-・Convex strip (4)-・
−−−−−1 Low temperature part (5) −・・−−−−−1 High temperature part
(6) ---Meshing type (10) (20) --
Bottle (11) (21) -Thin wall part (12) (23)-・-・--・-・-Thick wall section Patent applicant Toppan Printing Co., Ltd. Representative Kazuo Suzuki No. 1rl1 4... N 1

Claims (1)

[Claims] In a plastic bottle manufacturing method in which an injection-molded bottomed cylindrical parison is stretch-blow-molded in a mold, the parison is divided into stripes in the longitudinal direction before being inserted into the mold, and the mold temperature during stretch-blow molding is The temperature is adjusted so that it has a high temperature part and a low temperature part in a higher range, and this parison is inserted into a mold, and then compressed air is blown into it for blow molding, so that the part set as the low temperature part becomes a high temperature part. A method of manufacturing a plastic bottle that has a thicker wall than the specified part.