JP5143686B2 - Plastic bottle - Google Patents

Description

  The present invention relates to a plastic bottle for easily holding a so-called square bottle.

A large number of PET bottles with a substantially rectangular cross section are commercially available as plastic bottles for beverages such as tea and water. It has been subjected.
For example, in the square bottle described in Patent Document 1, it is assumed that each rectangular corner portion is chamfered in the cross section of the body portion, and the finger insertion concave portions are formed to the full width on the two side surfaces on the long side. . Moreover, in this square bottle, the vertical cross-sectional shape of the finger insertion recess is devised so that the light-weight thin barrel can secure the required strength.
JP 2005-247393 A JP 2006-137463 A

However, if the finger insertion concave portion is formed to have a large width as in the bottle described in Patent Document 1, the longitudinal strength is reduced, and as a result, the body portion cannot be made so thin. If the width of the finger insertion recess is shortened, it may be difficult for some consumers to hold the palm at the corner and insert the fingertip into the finger insertion recess.
However, as described in Patent Document 2, if a method is used in which the inside of the bottle is positively charged by adding liquid nitrogen before capping, the strength in the circulation of the bottle can be maintained even if the thickness is reduced. However, since the inside of the bottle returns to normal pressure after the cap is opened, the strength is significantly reduced. As a result, it may not be possible to provide stable handling properties, such as the contents overflowing just by holding the bottle.

  An object of the present invention is to provide a plastic bottle that can ensure strength and ease of holding in shape and contribute to weight reduction.

  In order to achieve the above object, the plastic bottle of the present invention is provided with a body having a cross-sectional shape in which each of the square corner portions is chamfered, and has a corner near the center of gravity when the fluid is fully stored. A constricted portion formed in each of the portions, at least one concave rib formed in the circumferential direction in the body portion and passing through each of the constricted portions, and a grip formed on at least one side surface of the body portion which is not chamfered And a depression for use. And a constriction part is formed by changing gradually so that the chamfering of a corner part may become larger than the other site | part in the upper and lower sides.

  According to the present invention, since the constricted portion is formed, it is possible to prevent the consumer from gripping the bottle at the corner portion and to grip the portion as close as possible to the central axis of the bottle. . Moreover, when gripping, the fingertip can be put on the recess. Moreover, since the constricted portion is in the vicinity of the center of gravity, stable handling can be provided. From the above, it is possible to improve the ease of holding, and hence the ease of pouring the fluid. In addition, the decrease in the longitudinal strength is suppressed by the constricted portion formed by the gradually changed surface, while the lateral strength of the trunk portion as well as the constricted portion is enhanced by the concave rib that passes through the constricted portion. Furthermore, the constricted portion formed in the corner portion is not accompanied by a decrease in strength of the body portion as compared with the case where it is formed on the side surface other than the corner portion. Therefore, since the strength of the body portion can be ensured also in terms of shape, it is possible to contribute to weight reduction.

  Preferably, the hollow portion is at the same height as the constricted portion. Thereby, since the site | part which attaches a palm and the site | part which hangs a fingertip become close, it becomes easy to have.

  More preferably, the side surface of the body portion has flat surfaces on both sides of the recess portion, and the recess portion is adjacent to the constricted portion through the flat surface. Thereby, since a flat surface functions to provide rigidity in the vicinity of the dent, it is possible to suppress deformation of the dent so as to be recessed when a fingertip is applied, and to improve ease of holding.

  Preferably, in the cross section of the concave rib, a portion passing through the constricted portion may be constituted by an arc. Thereby, a bending point can be changed and bottle rigidity can be raised.

  More preferably, the concave rib may pass through the recess. Thereby, the lateral strength of the recess can be reinforced.

  More preferably, the cross section of the concave rib is such that the portion passing through the recess is an arc, and the arc passing through the recess and the arc passing through the constriction are connected by another arc. By doing so, stress concentration at the concave rib is less likely to occur and bottle rigidity can be increased.

  Preferably, there are a plurality of concave ribs in the vertical direction, one of which passes through the center of the constricted portion and the recessed portion, and two of them pass through the upper and lower edges of the recessed portion.

  Moreover, according to another preferable aspect, there are a plurality of concave ribs in the vertical direction, and the concave ribs are preferably arranged at a pitch of 5 to 20 mm. If the pitch is less than 5 mm, the surface configuration cannot be achieved, whereas if the pitch exceeds 20 mm, the reinforcing effect is reduced. By setting it as said pitch, bottle rigidity can be improved.

A plastic bottle according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings. Hereinafter, a square square bottle will be described as the first embodiment, and a rectangular square bottle will be described as the second embodiment.
Moreover, in the following description, the direction where the bottle mouth part exists is the upper side, and the direction where the bottle bottom part exists is the lower side. The height means a length along the direction (vertical direction) of the central axis of the bottle. A transverse section means a section in a plane perpendicular to the central axis. The circumferential direction means a direction along the outline of the cross section. 8, 9 and 18, outlines in the cross section are shown, and hatching in the cross section is omitted.

<First Embodiment>
As shown in FIGS. 1 to 3, the plastic bottle 1 (hereinafter referred to as “bottle 1”) has a mouth portion 2, a shoulder portion 3, a body portion 4, and a bottom portion 5 in order from the upper side. These parts (2, 3, 4, and 5) are integrally formed 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. The bottle wall for storing the is constituted. The center of gravity G (see FIG. 4) of the bottle 1 when the beverage is fully stored is on the central axis Y-Y. An example of the size of the bottle 1 is about 290 mm in height and about 1500 ml in full capacity, but is not limited thereto.

  The mouth part 2 is open at the upper end and functions as a beverage spout. The opening of the mouth 2 is opened and closed by a cap (not shown). The shoulder 3 has a transverse section that gradually expands downward, and the mouth 2 having the smallest diameter in the bottle 1 is connected to the upper end of the body 4 that forms the maximum width in the bottle 1. The bottom 5 is composed of a bottom wall 21 and a peripheral wall 22. The peripheral wall 22 is slightly depressed downward, and the lower end of the body portion 4 is continued to the bottom wall 21.

  The trunk | drum 4 is comprised by the cross section formed by chamfering four square corner parts (corner | corner part where two sides cross | intersect). Specifically, as shown in FIG. 5, the cross section of the body portion 4 is composed of four side surfaces 41 to 44 and four corner surfaces 45 connecting the side surfaces 41 to 44, and is symmetrical with respect to the central axis YY. It is formed symmetrically. The corner surface 45 is a surface constituting a chamfered portion, and is connected to two adjacent side surfaces (for example, the side surfaces 41 and 42) via bent portions 46a and 46b. The bent portions 46a and 46b are rounded with a predetermined radius of curvature.

Returning to FIG. 1 to FIG.
The body portion 4 has a constricted portion 50 and a recessed portion 52 in the upper and lower intermediate portions. When the body part 4 is divided into three areas in the vertical direction, the body part 4 is basically composed of an upper body part 61 and a lower body part 62 having the same cross section as each other, and an intermediate body part 63 between them. It can be said that it consists of. The intermediate body portion 63 is a portion having a center of gravity G in addition to the constricted portion 50 and the recessed portion 52 (see FIG. 4). The constricted part 50 and the hollow part 52 only need to be in the vicinity of the center of gravity G, and preferably the central part of the constricted part 50 and the hollow part 52 is below the center of gravity G.

  Five concave ribs 71 are formed on the upper body portion 61, and three concave ribs 72 are formed on the lower body portion 62. Three concave ribs 73, 74, and 75 are formed on the intermediate body portion 63, and one concave rib 76 and 77 is formed between the intermediate body portion 63, the upper body portion 61, and the lower body portion 62. . The concave ribs 71 to 77 are all continuous over the circumferential direction of the body part 4 and increase the lateral strength of the body part 4. The longitudinal cross section of each concave rib is not limited as long as the strength is reinforced. Here, as shown in FIGS. 8 and 9, the concave ribs 71 and 72 have a triangular longitudinal section, and the concave ribs 73 to 77 have an approximately circular longitudinal section.

  As shown in FIG. 4, the concave rib 73 passes through the center of the constricted portion 50 and the recessed portion 52. The concave ribs 74 and 75 pass through the constricted portion 50 and pass through the upper edge and the lower edge of the recessed portion 52. The concave ribs 76 and 77 pass through the upper edge and the lower edge of the constricted part 50 without passing through the recessed part 52. The pitch of the concave ribs 73 to 77 is preferably 5 to 20 mm, more preferably 10 mm to 15 mm. If it is less than 5 mm, the pitch is too small, and the surface configuration of the intermediate body 63 cannot be made. If it exceeds 20 mm, the pitch is too large, and the reinforcing effect of the intermediate body 63 is not sufficient. On the contrary, if it is the pitch of the above-mentioned range, it will be easy to ensure a surface structure and bottle rigidity. In addition, the position and number of the concave ribs 73 to 77 are not particularly limited as long as an appropriate number is set at a position where strength is desired to be reinforced.

  As shown in FIG. 5, the cross sections of the concave ribs 76 and 77 are octagons formed by chamfering square corner portions, and are similar to the cross sections of the upper body portion 61 and the lower body portion 62. . The cross section of the concave ribs 71 and 72 is the same as this.

  As shown in FIG. 6, the cross section of the concave ribs 74 and 75 is formed by smoothly connecting a plurality of arcs. Specifically, in this cross section, four portions 80 that pass through the constricted portion 50 are configured by arcs, and four portions 82 that pass through the recessed portion 52 are configured by arcs shorter than the portion 80, 80 and portion 82 are smoothly connected by another arc. The radius of curvature of the portion 80 is located inside the concave ribs 74 and 75, and the radius of curvature of the portion 82 is located outside the concave ribs 74 and 75. A cross section 84 of the intermediate body portion 63 at a portion directly above the concave rib 74 and a portion directly below the concave rib 75 is a substantially regular octagon.

  As shown in FIG. 7, the cross section of the concave rib 73 is formed by smoothly connecting a plurality of arcs, but is different from the cross section of the concave ribs 74 and 75 in terms of the radius of curvature. In the cross section of the concave rib 73, the four portions 90 that pass through the constricted portion 50 and the four portions 92 that pass through the recessed portion 52 are smoothly connected by another arc 93. The portions 90 and 92 have smaller radii of curvature than the portions 80 and 82, respectively. The cross section 94 of the intermediate body portion 63 at the portion directly above and below the concave rib 73 is a portion excluding the recess 52 and is closer to a regular octagon.

Subsequently, the constricted portion 50 and the recessed portion 52 will be described in detail with reference to FIGS.
The constricted portion 50 is formed on each of the four corner surfaces 45. The constricted part 50 is formed by gradually changing so that the chamfering of the corner surface 45 becomes larger than the upper body part 61 and the lower body part 62 above and below the neck part 50. Specifically, the constricted portion 50 is formed such that the chamfer gradually increases from the upper edge and the lower edge, and the chamfer is maximized at the center. Note that the constricted portion 50 may be referred to as a waist portion or a narrowed portion because of the shape characteristic that a part of the body portion 4 is narrowed.

  As shown in FIG. 9, the constricted part 50 is formed vertically symmetrically with a concave rib 73 crossing the center as a boundary, and is the deepest part where the position of the concave rib 73 is most narrowed. From another point of view, the constricted portion 50 has two bottom surfaces 100 and 100 that are divided into upper and lower portions by a concave rib 73, an upper surface 102 between the concave ribs 74 and 76, and a lower surface between the concave ribs 75 and 77. 104. The height of the two continuous bottom surfaces 100, 100 is preferably about the width of an adult finger (about 15 mm to 30 mm). The bottom surface 100 is slightly inclined inward on the concave rib 73 side, and the upper surface 102 and the lower surface 104 are inclined inward at a larger angle than the bottom surface 100. The bottom surface 100 constitutes a part of the cross section 94 shown in FIG. The upper surface 102 and the lower surface 104 constitute a part of the cross section 84 shown in FIG.

  The recess 52 is formed at the center of the four side surfaces 41 to 44 that are not chamfered. The front and rear recesses 52 and the left and right recesses 52 are opposed to each other, and all have the same shape (see FIG. 7). The recess 52 is a part where the side surface is slightly recessed so that a human fingertip can be slightly accommodated. As shown in FIG. 7, the recess 52 has a circular cross section. Further, as shown in FIG. 8, the recess 52 is formed to be vertically symmetrical with respect to the concave rib 73 crossing the center, and is formed to be deepest at the position of the concave rib 73. However, the depth of the recessed portion 52 is shallower than the constricted portion 50.

  In another embodiment, the recessed portion 52 may be formed not on all of the side surfaces 41 to 44 but only on one side surface. However, the recessed portion 52 is formed opposite to the front and rear sides or the left and right side surfaces. Better. This makes it easier for a person to access the recess 52 with one hand from either the left or right side of the torso 4, and also reduces the distance when gripping using both the recesses 52. Be improved. In addition, the shape of the hollow part 52 should just be a thing which can apply a fingertip to hold | grip and can ensure intensity | strength, and is not restricted to an above-described shape.

  As shown in FIGS. 1, 4, and 7, there are flat surfaces 110, 110 that are not chamfered on the body 4 on both sides of the recess 52. The flat surfaces 110 and 110 are formed on the side surfaces 41 to 44, and are divided into upper and lower portions by the concave ribs 73, respectively. One recess 52 is adjacent to the constricted portions 50 and 50 through the flat surfaces 110 and 110 on both sides. A round chamfer is formed between the flat surface 110 and the constricted portion 50 (see FIG. 7).

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

1. When a person grasps the bottle 1, the constricted part 50 and the hollow part 52 are actively used. Therefore, it is desirable to secure the strength of the intermediate body part 63 in which these are present.

  In this regard, according to the present embodiment, the constricted portion 50 is formed not on the side surfaces 41 to 44 but on the corner surface 45. Thereby, the constriction part 50 can be formed in the trunk | drum 4 without an intensity | strength fall. In addition, since the constricted portion 50 is formed by gradually changing, it is possible to suppress a decrease in longitudinal strength due to the formation of the constricted portion 50 in the body portion 4. Further, since the plurality of concave ribs 73 to 77 are provided in the constricted portion 50, the lateral strength of the constricted portion 50 can be increased.

  Further, as shown in FIGS. 6 and 7, in the cross section, the portions 80 and 90 of the concave ribs 73 to 75 passing through the constricted portion 50 are formed by arcs, and the constricted portion 50 in the immediate vicinity thereof. The surface is composed of straight lines. Thereby, a bending point can be changed and bottle rigidity can be raised. In addition, since the relationship between the arc and the straight line is alternately repeated in the vertical direction in the constricted portion 50, a synergistic effect is exhibited and the bottle rigidity is further improved.

  In addition, as shown in FIG. 9, the bottom surface 100 of the constricted portion 50 is inclined toward the concave rib 73, and the upper surface 102 and the lower surface 104 are inclined toward the concave ribs 74 and 75. Thereby, compared with the case where these surfaces are extended in parallel with the central axis YY direction, the stress concentration between the adjacent concave ribs can be reduced.

  Moreover, since the recessed part 73 is also provided with the concave ribs 73-75, the lateral strength of the recessed part 52 is also reinforced. Furthermore, since the recess 52 and the constricted part 50 are inclined at different angles in the vertical direction, the flat surface 110 parallel to the vertical direction is formed therebetween, so that the strength on the flat surface 110 is improved. . In other words, a relatively large bottle rigidity is provided in the vicinity of the hollow portion 52 and the constricted portion 50 (flat surface 110).

  As described above, according to the bottle 1 of the present embodiment, the strength of the intermediate body portion 63 can be ensured in shape. Therefore, it is possible to contribute to weight reduction by thinning. This strength can be secured even after the cap is opened.

2. Since the constricted portion 50 is formed in terms of ease of holding , a person can grip the bottle 1 at a portion as close as possible to the central axis YY. Further, since the constricted portion 50 is formed not on the side surfaces 41 to 44 but on the corner surface 45, it is possible to suppress the palm from being held on the corner surface 45 when gripping. This brings about the merit that it is not necessary to form the hollow part 52 to the full width of the side surface. Moreover, since the bottle rigidity in the vicinity of the hollow part 52 and the constricted part 50 is ensured as described above, it is suppressed that the hollow part 52 is deformed so as to be dented when the fingertip is applied. It can be felt that it is easy to hold.

  Furthermore, since the height position of the hollow part 52 is the same as the height position of the constricted part 50, the fingertip can be placed at a position close to the part where the palm is added. Moreover, since the part gripped using the hollow part 52 and the constriction part 50 is the vicinity of the gravity center G, the bottle 1 can also be easily inclined and can provide stable handling. Therefore, according to the bottle 1 of this embodiment, not only the ease of holding with one hand, but also the ease of gripping and the ease of pouring the beverage can be improved.

Second Embodiment
Next, with reference to FIG. 10 and FIG. 11, a bottle 200 according to the second embodiment (a body part having a cross section with a rectangular corner part chamfered) will be mainly described. The main difference from the first embodiment is that the shape is changed between the rectangular long side recess 52a and the short side recess 52b in accordance with the change to the rectangular square bottle. It is. Other basic configurations are the same as those in the first embodiment. About the structure same as 1st Embodiment, description is abbreviate | omitted suitably by attaching | subjecting the same code | symbol to the location required for description.

  The recess 52a is formed on the pair of side surfaces 41 and 43 on the long side. The recess 52b is formed on the pair of side surfaces 42 and 44 on the short side. The recess 52a is formed wider and deeper than the recess 52b. The flat surfaces 110a and 110a on both sides of the recess 52a are designed so as to have the same width as the flat surfaces 110b and 110b on both sides of the recess 52b. However, the design can be changed as appropriate. Note that the center of gravity G (see FIG. 10) of the bottle 200 when the beverage is fully stored is on the central axis YY.

  The bottle 200 of this embodiment also has the same operational effects as the bottle 1 of the first embodiment. In particular, in consideration of the rectangular square bottle, the width of the recess 52a on the long side is widened and deepened, so that it is easy to hold the fingertip in the recess 52a. The ease of holding the bottle has been improved.

<Modification of Second Embodiment>
FIGS. 12-18 shows the bottle 300 which concerns on the modification of a rectangular square bottle. The difference between the bottle 300 and the bottle 200 of the second embodiment is that the hollow portion 52a of the bottle 200 is changed to a hollow portion 310 having a vertically asymmetric shape. In addition, about the structure same as 1st Embodiment and 2nd Embodiment, description is abbreviate | omitted suitably by attaching | subjecting the same code | symbol to the location required for description.

  As shown in FIG. 13, the recessed rib 73 passes through the center of the recessed portion 310, and the recessed ribs 74 and 75 pass through the upper edge and the lower edge of the recessed portion 310, respectively. Similarly to the above, the concave ribs 73 to 75 pass through the constricted portions 50 at the four corners of the central body portion 4, and the pitch and the like are preferably in the same range as in the first embodiment. Flat surfaces 110 a and 110 a adjacent to the constricted portion 50 are formed on both sides of the recessed portion 310. The widths of the flat surfaces 110a and 110a are smaller than the widths of the flat surfaces 110b and 110b on both sides of the recess 52b (see FIG. 12).

  As shown in FIGS. 13 and 18, the hollow portion 310 is formed between two bottom surfaces 320 and 322 divided vertically by the concave rib 73, an upper surface 324 between the concave ribs 74 and 76, and the concave ribs 75 and 77. A lower surface 326. In addition, the depression 310 has two side surfaces 327 and 328 that form a peripheral surface together with the upper surface 324 and the lower surface 326.

  The height of the two continuous bottom surfaces 320 and 322 is preferably about the width of an adult finger (about 15 mm to 30 mm). The bottom surface 320 is parallel to the vertical direction, while the bottom surface 324 is gently curved outwards downward. The indented portion 310 is configured such that the maximum depth (that is, the position where the bottom surface 320 is located) can accommodate one fingertip of an adult and the fingertip can be hooked on the top surface 324.

As shown in FIG. 14, the cross-section of the concave ribs 76 and 77 is an octagon formed by chamfering a rectangular corner portion, and is similar to the cross-section of the upper barrel portion 61 and the lower barrel portion 62. .
As shown in FIG. 15, the cross-section of the concave rib 74 has four arc portions 330 that pass through the constricted portion 50 and portions 332 that are substantially similar to the concave shape of the concave portion 310. And the portion 332 are smoothly connected by another arc.
As shown in FIG. 16, the cross section of the concave rib 73 includes an arc portion 340 having a radius of curvature different from that of the arc portion 330, and a portion 342 that is shallower than the portion 332. Moreover, the cross section of the concave rib 73 has a portion 344 that passes through the recessed portion 52b, and the portion 344 is slightly curved inward in the same manner as the recessed portion 52b. The arc portion 330, the portion 342, and the portion 344 are smoothly connected by an arc.
As shown in FIG. 17, the cross section of the concave rib 75 has an arc portion 350 having a different radius of curvature from the arc portions 330 and 340, and a portion 352 shallower than the portion 342, and these arc portions 350 And the portion 352 are smoothly connected by another arc.

  Also with the bottle 300 of this embodiment, there exists an effect similar to the bottle 1 of 1st Embodiment. Compared with the bottle 200 of the second embodiment, since the depth of the depression 310 is set as described above, even when the bottle 300 is tilted, the fingertip is stably caught on the upper surface 324 of the depression 310. To do. This provides the consumer with stable handling for rectangular square bottles.

  In another embodiment, the recess 52b may be omitted. Further, it is possible to omit one of the two recessed portions 310.

  The beverage filled in the bottles 1,200,300 is water, green tea, oolong tea, blended tea, sports drink or non-carbonated beverage such as fruit juice, but in other embodiments, it is a food such as carbonated beverage or sauce. May be. However, since this bottle has the concave ribs 71 to 77, it is suitable for filling a non-carbonated beverage having a negative bottle internal pressure.

Fig.1 (a) and (b) are the perspective views which looked at the plastic bottle which concerns on 1st Embodiment from another angle, respectively. It is a front view of the plastic bottle of FIG. It is the side view which looked at the plastic bottle of FIG. 2 from the horizontal direction by 45 degrees. It is a front view which expands and shows the constriction part and hollow part of the plastic bottle of FIG. It is the cross-sectional view cut | disconnected by the VV line | wire of FIG. It is the cross-sectional view cut | disconnected by the VI-VI line of FIG. It is the longitudinal cross-sectional view cut | disconnected by the VII-VII line of FIG. It is the longitudinal cross-sectional view cut | disconnected by the VIII-VIII line of FIG. It is the longitudinal cross-sectional view cut | disconnected by the IX-IX line of FIG. It is a front view of the plastic bottle which concerns on 2nd Embodiment. It is the side view which looked at the plastic bottle of FIG. FIGS. 12A and 12B are perspective views of the plastic bottle according to the modification of the second embodiment as seen from different angles. It is a front view which expands and shows the constriction part and hollow part of the plastic bottle of FIG. It is the cross-sectional view cut | disconnected by the XIV-XIV line | wire of FIG. It is the cross-sectional view cut | disconnected by the XV-XV line | wire of FIG. It is the cross-sectional view cut | disconnected by the XVI-XVI line of FIG. It is the cross-sectional view cut | disconnected by the XVII-XVII line | wire of FIG. It is a longitudinal cross-sectional view of the plastic bottle of FIG.

Explanation of symbols

  1: Bottle, 2: Mouth, 3: Shoulder, 4: Body, 5: Bottom, 41-44: Side, 45: Corner, 50: Constricted, 52, 52a, 52b: Recessed, 61: Upper body part 62: Lower body part 63: Intermediate body part 71-77: Recessed rib 110, 110a, 110b: Flat surface, 200: Bottle, 300: Bottle, 310: Recessed part, G: Center of gravity, YY: Center axis

Claims (8)

In a plastic bottle having a body with a cross-sectional shape in which each corner portion of a square is chamfered,
Constrictions formed in each of the corner portions in the vicinity of the center of gravity when the plastic bottle fully stores fluid, and the chamfering of the corner portions is larger than other portions above and below the constriction portions. A constriction formed by gradually changing so that
At least one concave rib formed in the body portion in the circumferential direction and passing through each of the constricted portions;
A holding recess formed on at least one side surface of the body portion that is not chamfered;
With a plastic bottle.   The plastic bottle according to claim 1, wherein the hollow portion is at a height position similar to the constricted portion. The side surface has flat surfaces on both sides of the recess,
The plastic bottle according to claim 2, wherein the recess is adjacent to the constriction through the flat surface.   The plastic bottle according to any one of claims 1 to 3, wherein a cross section of the concave rib is configured such that a portion passing through the constricted portion is an arc.   The plastic bottle according to claim 4, wherein the concave rib also passes through the recess.   The cross section of the concave rib is configured such that a portion passing through the hollow portion is formed by an arc, and an arc passing through the hollow portion and an arc passing through the constricted portion are connected by another arc. 5. The plastic bottle according to 5.   The concave rib has a plurality in the vertical direction, one of which passes through the center of the constricted part and the recessed part, and two of them pass through the upper and lower edges of the recessed part. The plastic bottle according to any one of 1 to 3.   4. The plastic bottle according to claim 1, wherein there are a plurality of the concave ribs in the vertical direction and are arranged at a pitch of 5 to 20 mm.

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