JP2010095269A - Plastic bottle - Google Patents

Abstract

To provide a plastic bottle that can be reduced in weight without sacrificing strength of a bottle mouth portion.
In a plastic bottle 1 in which an outer peripheral surface 14 of a peripheral wall 10 of a bottle mouth portion 2 is formed with a support ring 20 protruding below a male screw portion 16 and a male screw portion 16, a screw thread of the male screw portion 16 is provided. And the lightening part 24 was formed in the surrounding wall part of the position removed from the support ring 20. The lightening portion 24 can be formed between the male screw portion 16 and the support ring 20.
[Selection] Figure 2

Description

  The present invention relates to a mouth structure of a plastic bottle.

  Plastic bottles typified by PET bottles are manufactured by biaxial stretch blow molding of preforms molded by injection molding, etc. In recent years, plastic bottles have become lighter from the viewpoint of resource and cost savings. It has been. In reducing the weight, it is necessary to give the bottle strength as a commercial value.

  Patent Document 1 discloses a bottle in which the body portion and shoulder portion of the bottle are thinned as a whole, while the bottle mouth portion has a necessary wall thickness to ensure its strength. At the mouth portion of the bottle, a male screw portion for screwing the cap is formed to protrude from the outer peripheral wall, and a flange-like support ring is formed to protrude below the male screw portion.

As described in Patent Documents 2 and 3, there is a bottle that secures tamper evidence, and a bead ring is formed between the external thread portion and the support ring at the mouth portion of such a bottle. When the cap is opened with this type of bottle, the tamper evidence band is separated from the cap body and finally held by the bead ring and the support ring so as not to come off.
JP 2001-113589 A Japanese Patent Laid-Open No. 2004-26201 JP 2008-143588 A

  From the viewpoint of saving resources in recent years, it is desirable to reduce the weight of the mouth. In this regard, the mouths described in Patent Documents 2 and 3 are not thermally reduced, although they are given heat resistance by thermal crystallization so as not to be deformed by hot fill filling. Moreover, in patent document 1, only the trunk | drum etc. are reduced in weight, and sufficient weight reduction is not achieved about the opening | mouth part. In fact, the bottle illustrated in Patent Document 1 has a very large body thickness of 2.2 mm while the body thickness is 0.5 mm.

  If the same method as that of the body part is adopted to reduce the weight of the bottle mouth part described in Patent Document 1, the entire mouth part becomes thin, so that the strength is significantly reduced. . For this reason, a mouth part may deform | transform or crack by opening operation of a cap. In addition, the portion of the mouth portion to be chucked (for example, in Patent Documents 2 and 3, the peripheral wall portion between the support ring and the bead ring) is damaged by the chucking in the bottle manufacturing process before capping, and the tamper. There is also a risk of losing evidence.

  An object of the present invention is to provide a plastic bottle that can be reduced in weight without sacrificing strength of the bottle mouth portion.

  In order to achieve the above-mentioned object, the plastic bottle of the present invention is the one in which the outer peripheral surface of the peripheral wall of the bottle mouth part is formed with a support ring protruding below the external thread part, and the peripheral wall of the bottle mouth part. Has a thinned portion.

According to the present invention, since the thickness is partially reduced, it is possible to reduce the weight without impairing the strength of the bottle mouth portion as compared with the case where the whole is uniformly thinned. Moreover, it is suppressed that the fluidity | liquidity of the resin at the time of shape | molding a bottle mouth part is inhibited, and it does not need to impair the moldability of a preform.
Preferably, the lightening portion is located at a position away from the thread of the male screw portion and the support ring. Thereby, the lightening part can be formed in a position that does not interfere with the screw thread and the support ring.
More preferably, the lightening portion may be positioned between the male screw portion and the support ring. As a result, the portion between the male screw portion and the support ring, which is generally often formed thick, is thinned, so that weight reduction in consideration of strength can be achieved.

  Here, when the bottle mouth portion is sealed by a separable cap with a tamper evident band, it is preferable to adopt the following configuration. That is, it is preferable that a bead ring protrudes from the outer peripheral surface of the peripheral wall at a position between the male screw portion and the support ring and deviated from the lightening portion. Further, when the bottle mouth portion is opened by operating the cap, the tamper evidence band may be cut off and dropped onto the support ring, and may remain on the bottle mouth portion so as not to come off by the bead ring and the support ring.

  According to such a configuration, even in a bottle having tamper evidence, weight reduction can be achieved by removing the meat.

  More preferably, the bottle mouth portion has a tamper-evidence band when the cap is sealed with a cap. It is good to have the largest diameter part which has. The thinned portion may be formed from the lower edge of the maximum diameter portion to the upper edge of the support ring on the outer peripheral surface of the peripheral wall.

  According to this configuration, since the strength of the portion where the tamper evidence band is applied is ensured, the tamper evidence property can be maintained. In addition, since the maximum diameter portion is generally in a portion that is often chucked in the manufacturing process, it can be chucked without modifying existing manufacturing equipment. In addition, since there is a maximum diameter portion, an existing specification can be used regardless of the shape of the tamper evidence band portion (for example, a tab described later). In addition, since the thinned portion is formed on the outer peripheral surface of the peripheral wall, there is also an advantage that the mold for injection molding can be easily opened as compared with the case where it is formed on the inner peripheral surface of the peripheral wall.

  More preferably, between the maximum diameter portion and the support ring, a column portion having the same maximum diameter as the maximum diameter portion may be formed adjacent to the lightening portion and the maximum diameter portion. And the difference of the maximum diameter in a maximum diameter part and the minimum diameter in a thickness reduction part is good in it being 3.0 mm or less.

  According to this configuration, since the column portion having the same diameter as that of the maximum diameter portion is flush with the same diameter, a portion that can be stably chucked can be secured widely. Moreover, the fluidity | liquidity of resin at the time of carrying out injection molding of a bottle mouth part is securable by setting it as said upper limit (3.0 mm). On the other hand, if the upper limit is exceeded, there is a high possibility that the resin will not reach the column part, and molding defects are likely to occur.

  According to another more preferable aspect, the plurality of the lightening portions are formed in line symmetry at equal intervals in the circumferential direction, and between the adjacent lightening portions, a column having the same maximum diameter as the maximum diameter portion. The part may be formed adjacent to the maximum diameter part.

  According to this configuration, since not only the lightening portion but also the plurality of pillar portions are line symmetric, there is an advantage that centering when the pillar portions are chucked is easily performed. Moreover, since it is line symmetrical, the molding balance when the bottle mouth portion is injection-molded is improved, and molding defects are less likely to occur when the mold for injection molding is opened.

  Preferably, the portion connecting the lightening portion and the column portion may be rounded by an arc having a center of curvature inside the bottle mouth portion. According to this structure, it can suppress that a connection part is damaged with chucking.

  Preferably, the cross-sectional shape of the thinned portion is an arc shape. For example, compared to a trapezoidal shape, stress concentration in the lightening portion due to the inward force of the bottle mouth portion is less likely to occur.

  Preferably, the external thread portion is composed of a continuous single thread that makes at least one round of the outer peripheral surface of the peripheral wall. By this, compared with the case where it is a three-thread screw, for example, when it is a non-continuous single-thread screw with a vent slot, and when it is a single-thread screw that does not even go around the outer peripheral surface of the peripheral wall, The reinforcing effect of the mouth can be further enhanced.

  More preferably, in the peripheral wall of the bottle mouth portion, the thickness of the portion where the male screw portion exists is thinner than the thickness of the portion below the male screw portion. For example, the former thickness is preferably 0.8 mm or more and 1.3 mm or less. Since the reinforcing effect is born with the above-mentioned single thread screw with respect to the thin wall thickness intended for weight reduction, deformation and cracking can be suppressed even with the thin wall thickness.

A plastic bottle according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.
In the following description, the direction where the bottle mouth portion exists is the upper side, and the direction where the bottle bottom portion exists is the lower side. The height means a length along the direction (vertical direction) of the central axis of the bottle. The cross-sectional shape means a cross-sectional shape in a plane (transverse section) orthogonal to the central axis. The circumferential direction means a direction along the outline of the cross-sectional shape.

  As shown in FIG. 1, a plastic bottle 1 (hereinafter referred to as “bottle 1”) has a mouth portion 2, a shoulder portion 3, a trunk portion 4, and a bottom portion 5 in order from the upper side. These parts (2, 3, 4 and 5) are integrally formed and constitute a bottle wall for storing a beverage therein. Examples of the beverage include non-carbonated beverages such as water, green tea, oolong tea, and fruit juice. However, in another embodiment, the liquid filled in the bottle 1 may be a food such as a carbonated beverage or a sauce.

The bottle 1 is molded by a stretch molding method such as biaxial stretch blow molding using, for example, a thermoplastic resin such as polyethylene, polypropylene, or polyethylene terephthalate as a main material.
An example of the manufacturing process of the bottle 1 will be described. First, using a mold, a thermoplastic resin is injected into the mold, and a preform is injection-molded. This preform is composed of a mouth part having the same shape as the mouth part 2 and a bottomed cylindrical part connected to the lower side of the mouth part. After injection molding, the mouth mold is opened in the left-right direction, the cylindrical mold is opened in the up-down direction, the preform is taken out, and set in a blow molding machine. In the blow molding machine, only the tubular part of the preform is heated, and the tubular part is stretched in the vertical direction by the stretching rod, and the tubular part is stretched in the lateral direction by blowing compressed air, thereby the shoulder part. 3. Form the body 4 and the bottom 5. Thereby, a series of shaping | molding of the bottle 1 is completed. Thereafter, washing and sterilization are performed to fill the beverage, and the cap 6 (see FIG. 3) is fastened to the mouth portion 2 that functions as a beverage spout.

  As shown in FIGS. 2 to 4, the mouth portion 2 has a cylindrical peripheral wall 10 having an upper end opened. The inner peripheral surface 12 of the peripheral wall 10 extends without a step in the vertical direction. On the other hand, a male thread portion 16, a bead ring 18 and a support ring 20 are formed on the outer peripheral surface 14 of the peripheral wall 10 so as to protrude. The male thread portion 16 exists over the upper half of the peripheral wall 10, and the bead ring 18 and the support ring 20 are separated from each other by a predetermined distance below the male thread portion 16.

  The male thread portion 16 may employ a double thread or a triple thread, but in the present embodiment, the male thread 16 is configured by a single thread that is less loose and has high strength. The thread of the male thread portion 16 is not formed with a so-called vent slot, and one height continues in the length direction. The length of the thread may be one or more rounds on the outer peripheral surface 14, that is, the effective angle may be 360 ° or more, and here, it is about 720 ° (for example, complete screw portion 650 ° + incomplete screw portion 70 °). ing.

  Both the bead ring 18 and the support ring 20 protrude outward from the outer peripheral surface 14 in the circumferential direction. The support ring 20 has an upper portion 3a of the shoulder 3 connected to the lower end on the base side (see FIG. 4). In addition, the bead ring 18 and the support ring 20 may be called by another way (for example, a flange part etc.).

  Here, if the peripheral wall 10 is vertically divided from the viewpoint of the thickness, the peripheral wall 10 includes a thin portion 10a and a thick portion 10b having a thickness larger than the thin portion 10a, as shown in FIG. It can be said that it has. The thin-walled portion 10 a is a cylindrical portion having a screw portion 16 on the outer peripheral surface thereof, and the thick-walled portion 10 b is a cylindrical portion on the lower side of the male screw portion 16. A bead ring 18 is present at the upper end of the thick portion 10b, and a support ring 20 is present at the lower end of the thick portion 10b. The thin wall portion 10a and the thick wall portion 10b have a constant wall thickness in the vertical direction (see FIG. 4).

  The thickness of each of the thin wall portion 10a and the thick wall portion 10b is determined in consideration of one wall thickness so as to satisfy the required strength of the mouth portion 2 as a whole. Generally, since the peripheral wall portion between the bead ring 18 and the support ring 20 is often chucked in the manufacturing process of the bottle 1, it is necessary to ensure strength against chucking. In view of this point, in the mouth portion 2 of the present embodiment, the peripheral wall portion is configured as the thick wall portion 10b to ensure the strength, while the remaining peripheral wall portion is configured as the thin wall portion 10a while considering the strength. Yes. And the reinforcement effect of the thin part 10a is heightened by comprising the external thread part 16 which exists in the thin part 10a as a continuous single thread.

  Taking an example of dimensions in such a configuration, the thickness of the thick portion 10b is preferably about 2.0 mm, and the thickness of the thin portion 10a is preferably 0.8 mm or more and 1.3 mm or less. More preferably, it is 1.0 mm or more and 1.2 mm or less. When the thickness of the thin portion 10a is less than 0.8 mm, it becomes difficult to secure the strength of the thin portion 10a only by the reinforcing effect of the external thread portion 16, and the molding cycle increases and the production efficiency of the preform decreases. To do. On the other hand, if the thickness of the thin portion 10a exceeds 1.3 mm, it is insufficient for reducing the weight of the mouth portion 2. If the thickness of the thin portion 10a is 1.0 mm or greater and 1.2 mm or less, it is easy to achieve both strength securing and weight reduction.

  Next, a description will be given of a thinning structure of the thick portion 10b which is lightened by partially thinning. This thinning structure is more effective when combined with the above structure (one in which the upper and lower sides of the peripheral wall 10 are divided by the thin part 10a and the thick part 10b), but when used alone (that is, the peripheral wall) (When the thickness of 10 is constant in the vertical direction) is also suitable for weight reduction.

  The thick portion 10 b has a maximum diameter portion 22 at the lower end on the base side of the bead ring 18, and has a plurality of thinned portions 24 and a plurality of column portions 26 below the maximum diameter portion 22. The largest diameter part 22 is a cylindrical part which has the outermost surface of the largest diameter among the outer peripheral surfaces 14 of the surrounding wall 10, for example, has a height of 1.4 mm. The column portion 26 is a portion having the same maximum diameter and thickness as the maximum diameter portion 22 and is continuous with the maximum diameter portion 22 in a flush manner. As shown in FIG. 5, the portion 28 that connects the lightening portion 24 and the column portion 26 is rounded by an arc having a center of curvature inside the mouth portion 2 so as to connect the two gently.

  The plurality of thinned portions 24 are formed on the outer peripheral surface 14 from the lower edge of the maximum diameter portion 22 to the upper edge of the support ring 20 at equal intervals in the circumferential direction and in line symmetry. And the pillar part 26 is formed between the meat | thickening parts 24 and 24 adjacent to each other. In the present embodiment, a total of eight lightening portions 24 and column portions 26 are alternately arranged in the circumferential direction, but the number is not limited.

  As shown in FIG. 5, the cross-sectional shape of the thinned portion 24 is an arc shape curved inward of the mouth portion 2. The arcuate R (curvature radius) of the thinned portion 24 is preferably in the range of 5 to 50 mm, more preferably 30 mm. Since R of less than 5 mm is too small, it becomes undercut and it becomes difficult to take out the preform from the mold. On the other hand, since R exceeding 50 mm is too large, it is not possible to sufficiently obtain a lightening effect for weight reduction.

  The center portion of the lightening portion 24 is the thinnest, and the thickness is gradually increased toward both ends. The thinnest portion constitutes the smallest diameter portion of the thinned portion 24, and the thickness thereof can be the same as or similar to the thickness of the thin portion 10a described above. However, as long as the fluidity and strength of the resin during molding can be ensured, it is not necessary to make the minimum thickness of the thinned portion 24 comparable to the thickness of the thin portion 10a. The difference between the minimum diameter of the thinned portion 24 and the maximum diameter of the maximum diameter portion 22 is preferably 3.0 mm or less in diameter, and more preferably 1.5 mm to 2.0 mm. If the thickness exceeds 3.0 mm, there is a possibility that the thermoplastic resin does not reach both ends of the thinned portion 24 when the preform is injection-molded. On the contrary, if it is 3.0 mm or less, the flow of the thermoplastic resin at the time of injection molding is not hindered, and molding defects can be avoided.

Next, the cap 6 will be described with reference to FIG.
The cap 6 is fitted into the mouth portion 2 by being rotated, and closes the opening of the mouth portion 2. The cap 6 may be one that does not have tamper evidence (tamper-opening display function), but here, an example having tamper evidence is described.

The cap 6 includes a cap main body 30 and a tamper evident band 32, and the cap main body 30 includes a disk-shaped lid portion 36 that covers the upper portion of the mouth portion 2, a cylindrical portion 38 that covers the side of the mouth portion 2, and Have The cylindrical portion 38 is a portion that hangs down from the periphery of the lid portion 36. On the inner peripheral surface of the cylindrical portion 38, a screw portion 40 that is screwed into the male screw portion 16 of the mouth portion 2 is formed.
The tamper evident band 32 is connected to the lower end of the cylindrical portion 38 via a detachable bridge 42. A tab 44 (locking portion) is formed on the lower inner surface of the tamper evident band 32 so as to face upward, and the tab 44 is engaged with a step portion defined by the bead ring 18 and the maximum diameter portion 22. Match.

  In the state shown in FIG. 4 in which the mouth portion 2 is closed by the cap 6, the cap 6 is prevented from being pulled out by the tab 44 being applied to the bead ring 18 and the maximum diameter portion 22. In this state, when the cap 6 is rotated in the opening direction, the bridge 42 is broken, and the tamper evident band 32 is separated from the cap body 30 and falls onto the upper surface of the support ring 20. The tamper-evident band 32 after falling is held so that the upper end faces the bead ring 18 and is not easily pulled out in the vertical direction by the support ring 20 and the bead ring 18. More specifically, the tamper-evident band 32 that remains in the mouth portion 2 after opening is regulated by the support ring 20 in the downward movement, and the tab 44 hits the bead ring 18 in the upward movement. Be regulated.

  The effect of the mouth part 2 of the bottle 1 of this embodiment demonstrated above is demonstrated.

1. In view of strength, weight reduction, etc. In general, a portion that is often thickly formed in consideration of chucking (a peripheral wall portion from the bead ring 18 to the support ring 20) is thinned to partially reduce the thickness. A portion 24 is formed. Thereby, it is not necessary to sacrifice the strength of the mouth portion 2 as compared with the case of reducing the overall thickness while reducing the weight. Further, as described above, since the thin portion 10a having a reinforcing effect is set in the mouth portion 2, the entire mouth portion 2 can be reduced in weight while preventing the thin portion 10a from being deformed or broken.

  Furthermore, since the maximum diameter portion 22 is present at the portion where the tamper evident band 32 is applied, a part of the same thickness as the existing mouth portion can be left in the mouth portion 2. Thereby, since the strength of the maximum diameter portion 22 is ensured, the tamper evidence can be maintained, and the existing cap 6 can be used.

  Further, since the cross-sectional shape of the lightening portion 24 is an arc shape, even if a force acts inward of the mouth portion 2 as the pressure in the bottle 1 is reduced, stress concentration in the lightening portion 24 occurs. It becomes difficult. Similarly, even if a carbonated beverage is filled and the inside of the bottle 1 is pressurized, stress concentration at the meat removal portion 24 hardly occurs. Thereby, compared with the case where a cross-sectional shape is made into a trapezoid shape, for example, the strength reduction of the thinned portion 24 can be suppressed.

2. Chucking Viewpoint In the manufacturing process of the bottle 1, the mouth 2 is chucked when the preform is moved to a blow molding machine. Since the maximum diameter portion 22 is present in the portion that is often chucked, it can be chucked without deforming the mouth portion 2 even if the existing manufacturing equipment is used as it is.

  In addition, since the column part 26 is continuous below the maximum diameter part 22 without a step, stable chucking can be provided even when the chucking is displaced in the vertical direction. In other words, the column part 26 itself can also be used as a part to be chucked. Further, since the plurality of column portions 26 are arranged in line symmetry, it becomes easy to perform centering when the column portions 26 are chucked. Further, since the connecting portions 28 positioned at both ends of the column portion 26 are rounded, it is possible to suppress damage when the chucking is performed.

3. From the viewpoint of fluidity and mold release of thermoplastic resin The fluidity of the thermoplastic resin during injection molding of the preform affects the productivity of the bottle 1. In this respect, since the thinned portion 24 is thinned into an arc shape, it is easy to ensure the fluidity of the resin for forming the thinned portion 24. Moreover, since the thick part is also provided equally with respect to the flow direction of resin, there also exists a merit that it is hard to inhibit a moldability at the time of shaping | molding of the opening part 2. Furthermore, since it forms in the outer peripheral surface 14 of the surrounding wall 10, compared with the case where the thinning part 24 is formed in the inner peripheral surface 12 of the surrounding wall 10, it is easy to open the metal mold | die for the opening part 2 in the left-right direction. In addition, since the arrangement of the thinned portion 24 and the column portion 26 is axisymmetric, the molding balance is improved and molding defects are less likely to occur when the mold is pulled in the left-right direction. Therefore, the productivity of the bottle 1 can be improved.

Modification of the Embodiment The structure of the mouth portion 2 described above can be appropriately changed without departing from the scope of the present invention. For example, the thinned portion 24 may not be formed on the lower side of the bead ring 18 but may be formed on the upper side of the bead ring 18. Further, it is also possible to form the thinned portion 24 in a portion of the male screw portion 16 that is out of the screw thread, that is, in a spiral peripheral wall portion between the adjacent screw threads. Alternatively, a part of the lightening portion 24 may be applied to the end of the thread of the external thread portion 16. In either case, the present invention can be suitably applied when the peripheral wall 10 of the mouth 2 is formed with a single thickness. In addition, although it is possible to form the thinned portion 24 on both the inner peripheral surface 12 and the outer peripheral surface 14 of the peripheral wall 10, it is formed on the outer peripheral surface 14 from the viewpoint of the ease of die cutting described above. Is preferable. Furthermore, heat resistance may be imparted to the mouth portion 2 by performing a heat treatment for thermally crystallizing the mouth portion 2.

It is a front view of the plastic bottle which concerns on embodiment. It is a perspective view which expands and shows the opening | mouth part of the plastic bottle of FIG. It is a front view of the opening part of FIG. FIG. 3 is a half sectional view showing a state in which the mouth portion of FIG. 2 is closed with a cap. It is the cross-sectional view cut | disconnected by the VV line | wire of FIG.

Explanation of symbols

  1: bottle, 2: mouth part, 6: cap, 10: peripheral wall, 10a: thin part, 10b: thick part, 14: outer peripheral surface, 16: external thread part, 18: bead ring, 20: support ring, 22 : Maximum diameter portion, 24: Meat removal portion, 26: Column portion, 28: Tie portion, 32: Tamper evidence band, 44: Tab

Claims (12)

In a plastic bottle in which a male thread part and a support ring project below the male thread part on the outer peripheral surface of the peripheral wall of the bottle mouth part,
The peripheral wall is a plastic bottle having a meat removal portion.   2. The plastic bottle according to claim 1, wherein the lightening portion is located away from a screw thread of the male screw portion and the support ring.   The plastic bottle according to claim 2, wherein the lightening portion is located between the male screw portion and the support ring. The bottle mouth portion is sealed by a cap with a separable tamper evidence band,
On the outer peripheral surface of the peripheral wall, a bead ring is formed so as to protrude between the male screw portion and the support ring and at a position removed from the lightening portion,
When the bottle mouth portion is opened by operating the cap, the tamper evidence band is cut off and falls onto the support ring, so that the bottle mouth portion does not come off by the bead ring and the support ring. The plastic bottle according to claim 3, which remains. The bottle mouth portion includes a maximum diameter portion having an outer peripheral surface having a maximum diameter among outer peripheral surfaces of the peripheral wall at a lower end on a base side of the bead ring.
The maximum diameter portion is a portion where the tamper evidence band is applied when the bottle mouth portion is closed by the cap,
5. The plastic bottle according to claim 4, wherein the lightening portion is formed from a lower edge of the maximum diameter portion to an upper edge of the support ring on an outer peripheral surface of the peripheral wall. Between the maximum diameter portion and the support ring, a column portion having the same maximum diameter as the maximum diameter portion is formed adjacent to the lightening portion and the maximum diameter portion,
The plastic bottle according to claim 5, wherein a difference between a maximum diameter at the maximum diameter portion and a minimum diameter at the lightening portion is 3.0 mm or less.   A plurality of the thinned portions are formed in line symmetry at equal intervals in the circumferential direction, and between the adjacent thinned portions, a column portion having the same maximum diameter as the maximum diameter portion has the maximum diameter. The plastic bottle according to claim 5, which is formed adjacent to the portion.   The plastic bottle according to claim 4 or 5, wherein a portion connecting the lightening portion and the column portion is rounded with an arc having a center of curvature inside the bottle mouth portion.   The plastic bottle according to any one of claims 3 to 8, wherein a cross-sectional shape of the lightening portion is an arc shape.   The plastic bottle according to any one of claims 3 to 9, wherein the male thread portion is a continuous single thread that makes at least one round of the outer peripheral surface of the peripheral wall.   11. The plastic bottle according to claim 10, wherein the peripheral wall of the bottle mouth portion has a thickness of a portion where the male screw portion is present thinner than a thickness of a portion below the male screw portion.   The said plastic bottle is a plastic bottle as described in any one of Claim 1 thru | or 11 for drinks by which biaxial stretch blow molding was carried out.

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