JP2008044633A - Synthetic resin bottle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a synthetic resin bottle which can keep a collapse strength surely improved in the leg part even when the capacity change relative to the decompression of the inside of the bottle is small. <P>SOLUTION: The bottom part 4 of this synthetic resin bottle comprises a leg part 6, a reversible inclining part 7 which is freely and irregularly reversible toward the inside and the outside of a barrel 3 and a bottom center part 8. The leg part 6 is formed with a plurality of recesses 13 with predetermined intervals peripherally. A plurality of downward protrusions 14 are formed by each of the recesses 13 between the recesses 13 and the bottom end face of the protrusions 14 is a contact face 9. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a synthetic resin bottle including a mouth portion, a cylindrical body portion provided continuously below the mouth portion, and a bottom portion that closes a lower portion of the body portion.

  Conventionally, a blow molded bottle (PET bottle) made of, for example, polyethylene terephthalate is known as this type of synthetic resin bottle.

  In this type of bottle, if the contents are cooled after the mouth is sealed with a cap, the inside of the bottle is depressurized due to the volume reduction of the contents, etc. It is not preferable.

  Therefore, the bottom of the bottle is provided with a reversing inclined part that allows part of the reversal to be reversed, the liquid refill is filled with the reversing inclined part protruding outside the bottom, and the bottle mouth is sealed with a cap. There has been known one in which an inverted inclined portion is recessed inward of a bottle after stopping (see Patent Document 1). The inversion inclined portion is formed in a region surrounded by a leg portion having a ground contact surface at the bottom of the bottle, and is accommodated at a position above the ground contact surface at least in a state of being recessed in the body portion.

In the bottle described in Patent Document 1, the bottle is filled with the liquid content in a state where the inverted inclined portion of the bottom of the bottle protrudes outward, and the bottle mouth is sealed with a cap. Thereafter, the inverted inclined part of the bottom of the bottle protruding outward is pushed up into the bottle and recessed. As a result, the pressure inside the bottle is increased, and even if the liquid content is cooled, the pressure inside the bottle is offset and the decompression deformation of the container body does not occur. In this way, by providing a reversing inclined portion that can be turned up and down at the bottom of the bottle and sealing the contents, the reversing inclined portion can be reversed, so that the bottle can be prevented from being deformed under reduced pressure. Therefore, the material cost of the bottle can be reduced.
Special table 2006-501109

  By the way, in a bottle that employs so-called aseptic filling in which a beverage near normal temperature is filled in a sterile environment, the volume reduction inside the bottle accompanying cooling of the filled content is relatively small. For this reason, it is necessary to reduce the volume change inside the bottle when the inversion slope is inverted, for example, by reducing the size of the inversion slope, and to cope with a relatively small volume reduction.

  However, since the inversion inclined portion is formed in the region surrounded by the leg portion, if the size of the inversion inclination portion is reduced, the ground contact surface of the leg portion becomes relatively large (wide). Usually, the legs are curved and formed in a shape that bulges downward, so if the ground contact surface is excessively large, the curvature of curvature will also increase, and compared to legs with low curvature, There is an inconvenience that the dent deformation due to impact or the like is likely to occur, and the buckling strength is lowered.

  The present invention has been made in view of the above problems, and a synthetic resin capable of reliably improving the buckling strength of the leg even if the capacity change corresponding to the decompression inside the bottle is small. The purpose is to provide a bottle.

  In order to achieve the above object, the present invention provides a synthetic resin bottle comprising a mouth portion, a trunk portion provided continuously below the mouth portion, and a bottom portion that closes a lower portion of the trunk portion. Is formed in a leg part connected to the lower end of the trunk part and having a ground contact surface, and is formed in a region surrounded by the leg part, and is inclined so as to be concavo-convex in a symmetrical shape from the inside of the trunk part to the outside of the trunk part. A biaxially stretched inverted slope part, and a bottom center part surrounded by the inverted slope part, and the leg part includes a plurality of recesses formed at predetermined intervals in the circumferential direction, The lower end surfaces of the plurality of downward projecting portions formed between the recesses are grounding surfaces.

  According to the synthetic resin bottle of the present invention, the inversion inclined portion is provided at the bottom thereof, and the inversion inclined portion can be reversed in an inward and outward direction by applying a predetermined pressing force. ing. As a result, the inverted inclined part is protruded outward and downward from the barrel part, the contents are filled into the bottle, and the cap is fitted into the mouth and sealed, and then the inverted inclined part is positioned above the inner side of the barrel part. The capacity inside the bottle can be reduced simply by pushing up and reversing the recess, so that the reduced pressure state inside the bottle can be easily eliminated.

Furthermore, the inversion inclination part can make the intensity | strength at the time of inversion sufficiently high by carrying out biaxial stretching, and can prevent generation | occurrence | production of the crack and crack of an inversion inclination part reliably. ,
And, in the present invention, by providing a plurality of recesses in the leg, by providing a plurality of lower protrusions that relatively project between the recesses, the lower end surface of each of the lower protrusions as a ground contact surface, Even if the size of the inversion inclined portion is made small in order to employ aseptic filling, the leg portion is reinforced by the plurality of concave portions, and the buckling strength of the leg portion can be reliably improved.

  Moreover, in this invention, the said inversion inclination part is shape | molded in the state protruded outside the trunk | drum by blow molding in a blow molding die. By blow-molding the inversion inclined portion toward the outside of the body portion, the inversion inclined portion can be sufficiently extended. Moreover, if the reversing inclined part is taken out from the blow mold while protruding outward from the body part, it is not necessary to project the reversing inclined part below the body part prior to the filling operation, and the reversing inclination after filling. Since the deformation under reduced pressure due to cooling can be prevented only by recessing the part inside the body part, the working efficiency can be improved.

  Further, in the present invention, the inversion inclined portion is molded so as to protrude outward from the barrel by blow molding in a blow molding die, and is pressed into the barrel inward in the blow molding die after blow molding. It is formed into a state. According to this, not only can the blow-molded mold be blown into a shape protruding outward from the body part, and the reverse inclined part can be sufficiently stretched, but when taking out the bottle from the blow-molding mold, The inversion inclination part of the bottom part is recessed in the trunk | drum inside, and can make a bottle self-supporting. Thereby, after taking out from a blow molding die, the stable self-supporting conveyance by a conveyor etc. can be performed.

  Further, in the present invention, when the inversion inclined portion protrudes outward from the trunk portion, the inversion inclined portion is accommodated in an inner portion surrounded by the leg portion at a position higher than the ground contact surface of the leg portion. May be. As a result, even if the inverted inclined portion protrudes outward from the body portion, the inverted inclined portion does not protrude below the ground contact surface of the leg portion, and the bottle is made to stand by the ground contact surface of the leg portion. Can do.

  Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an explanatory side view showing the external shape of the synthetic resin bottle of the first embodiment of the present invention, FIG. 2 is an explanatory bottom view showing the bottom of the synthetic resin bottle of the first embodiment, and FIG. FIG. 4 is an explanatory view schematically showing a part of the blow molding process, FIG. 5 is an explanatory view showing an inversion operation of the inclined portion, and FIG. 6 is a first view. FIG. 7 is an explanatory bottom view showing another bottom shape that can be adopted in the synthetic resin bottle of the embodiment, FIG. 7 is a sectional explanatory view of the bottom shown in FIG. 6, and FIG. 8 is a synthetic resin bottle of the second embodiment of the present invention. FIG. 9 is an explanatory bottom view showing the bottom of the synthetic resin bottle of the second embodiment, and FIG. 10 is a sectional explanatory view showing the bottom of the synthetic resin bottle of the second embodiment. FIG. 11 shows another bottom shape that can be adopted in the synthetic resin bottle of the second embodiment. It is an explanatory bottom view.

  As shown in FIG. 1, a synthetic resin bottle 1 according to a first embodiment of the present invention includes a mouth portion 2, a cylindrical body portion 3 provided continuously below the mouth portion 2, and the body portion. 3 and a bottom part 4 that closes the lower part of 3. The bottle 1 is biaxially stretched and blow-molded from a preform (not shown) made of an injection-molded polyethylene terephthalate resin, whereby the body portion 3 and the bottom portion 4 are formed in a biaxially stretched state. A screwing portion 5 for screwing a cap (not shown) is formed on the outer periphery of the mouth portion 2.

  Next, the bottom part 4 of the synthetic resin bottle 1 of the first embodiment will be described in detail. As shown in FIGS. 2 and 3, the bottom part 4 includes a leg part 6 continuously formed at the lower end of the body part 3, an inversion slope part 7 formed in a region surrounded by the leg part 6, and And an inward projecting portion 8 (bottom portion center portion) formed at the center portion of the bottom portion 4. The leg portion 6 has a curved shape so as to protrude downward from the body portion 3, and is provided with a grounding surface 9 that is grounded when the bottle 1 is made to stand on its lower end.

  The inversion inclined portion 7 includes an outer peripheral hinge portion 10 on the outer peripheral edge (boundary with the inner peripheral edge of the leg portion 6). Moreover, the inversion inclination part 7 is provided with the inner periphery hinge part 11 in the inner periphery (boundary with the outer periphery of the inward protrusion part 8). As a result, the inversion inclined portion 7 is configured to be concavo-convex reversible in a symmetrical shape toward the inside of the body portion 3 to the outside of the body portion 3 by bending of the outer peripheral hinge portion 10 and the inner peripheral hinge portion 11.

  The reverse inclined portion 7 is biaxially stretched together with the outer peripheral hinge portion 10 and the inner peripheral hinge portion 11 during blow molding described later. The outer peripheral hinge portion 10 is formed thinner than the inversion inclined portion 7, and has a curved sectional shape that is recessed inward of the bottle 1. The inner peripheral hinge portion 11 is formed thinner than the inversion inclined portion 7. Thereby, the outer periphery hinge part 10 and the inner periphery hinge part 11 have acquired the high bending strength with respect to the reversal | inversion operation | movement of the inversion inclination part 7, ensuring the bendability as a hinge.

  The inward protruding portion 8 rises from the inner peripheral hinge portion 11 toward the axis of the barrel portion 3 and protrudes into the barrel portion 3 (indented when viewed from the outside), and the top portion is formed to be substantially flat. Yes. The center of the top portion of the inward protruding portion 8 substantially coincides with the axis of the bottle 1 (that is, the center of the bottom portion 4). Note that the size of the inward projecting portion 8 can be appropriately selected according to the outer diameter of the bottom portion 4.

  The inversion inclination portion 7 is inverted via the outer peripheral hinge portion 10 and the inner periphery hinge portion 11. However, the inversion inclination portion is not inadvertently inverted in the return direction after being protruded or recessed. The surface shape of the part 7, the inclination angle of the inversion inclination part 7, the size of the inversion inclination part 7, and the like are appropriately set. A plurality of radially indented recesses 12 are formed in the inversion inclined portion 7 of the bottom portion 4. By providing the recess 12, the inversion slope 7 can be prevented from being inadvertently deformed when the inversion slope 7 is inverted, and inadvertent inversion from a protruding state or a recessed state can be prevented. Can do. In addition, the quantity of the hollow part 12, a radiation angle, etc. are suitably determined by the inclination angle and magnitude | size of the inversion inclination part 7, and the hollow part 12 does not need to be provided depending on the case.

  Further, as shown in FIGS. 2 and 3, the leg portion 6 is provided with a plurality of concave portions 13 formed at predetermined intervals in the circumferential direction. Between each recessed part 13, the some downward protrusion part 14 which protrudes below relatively is formed. The lower end surface of each downward projecting portion 14 is the ground contact surface 9. The leg 6 is provided with a plurality of recesses 13 so that each recess 13 acts as a reinforcing bead and can prevent inadvertent deformation of the leg 6 even when subjected to an impact such as dropping. Can be improved.

  The bottle 1 is molded by a blow molding die 15 as schematically shown in FIGS. The mold 15 includes a body part molding part 16, a bottom part molding part 17, and a stretch rod 18. The stretch rod 18 includes an air nozzle 19 on its peripheral wall. The body forming part 16 corresponds to the outer shape of the body part 3, and the bottom part forming part 17 is a leg part 6 and the inversion inclined part 7 in a state in which the inversion inclination part 7 is inclined downward of the body part 3 (that is, And a state in which the inversion inclined portion 7 protrudes outward from the body portion 3). Furthermore, a projection 20 corresponding to the recess 13 is provided on the molding portion of the leg portion 6 in the bottom molding portion 17. In addition, a pressing member 21 having a shape corresponding to the inward protruding portion 8 and the recessed inversion inclined portion 7 is provided at the center of the bottom molding portion 17.

  In forming the bottle 1 with the blow molding die 15, first, a preform (not shown) is attached to the blow molding die 15, and then, as shown in FIG. Biaxial stretch blow molding is performed by supplying air from Thereby, the trunk | drum 3 and the bottom part 4 are formed so that it may closely_contact | adhere to the trunk | drum molded part 16 and the bottom part molded part 17. FIG. At this time, the bottom forming portion 17 corresponds to the shape of the bottom portion 4 in a state in which the inversion inclined portion 7 protrudes outward from the body portion 3, so that the inversion inclined portion 7 and the hinge portions 11, 12 are The biaxial stretching is reliably performed along the bottom molding part 17. At the same time, the leg portion 6 is formed by the bottom portion forming portion 17 and the concave portion 13 is formed by the protrusion 20. And when the bottom part 4 is formed along the bottom molding part 17, then, as shown in FIG.4 (b), the stretch rod 18 will raise and the press member 21 will be the inward protrusion part 8 and the inversion inclination part. 7 is pushed up toward the inside of the body 3. As a result, the inverted inclined portion 7 is separated from the bottom molding portion 17, and the inclined portion 8 and the inward protruding portion 8 are located above the ground surface 9 of the leg portion 6 at the leg portion 6 in the blow molding die 15. It is in a state of being housed inside the enclosed area. Thereafter, although not shown, the blow molding die 15 is divided and the bottle 1 is taken out from the inside.

  The bottle 1 blow-molded as described above and taken out from the blow-molding die 15 is in a state in which the inversion inclined portion 7 and the inward projecting portion 8 are accommodated inwardly surrounded by the leg portion 6. Yes. Thereby, the self-supporting conveyance of the bottle 1 by the conveyor etc. to the next process (for example, the process of filling the contents) can be stably performed. In addition, since the plurality of recesses 13 are formed in the leg portion 6, inadvertent deformation of the leg portion 6 can be reliably prevented.

  When the bottle 1 is filled with the contents, for example, the reverse inclined portion 7 is pushed down by applying a pressing force from the inside of the barrel portion 3 with a pusher (not shown) or the like. The contents are filled into the bottle 1 protruding outward. Subsequently, a cap 1 is fitted into the mouth portion 2 of the bottle 1 filled with the contents and sealed. Thereafter, at the time of depressurization accompanying the temperature drop of the contents inside the bottle 1, the activator punch 22 is abutted against the inside of the inward projecting portion 8 from below the bottom portion 4 as shown in FIG. Push 4 up. Thereby, the inversion inclination part 7 inverts toward the inner side of the trunk | drum 3 via the outer side hinge part 11 and the inner peripheral hinge part 11, and inward of the trunk | drum 3 as shown in FIG.5 (b). It is recessed. And the inversion inclination part 7 does not re-invert easily, and the internal volume of the bottle 1 for the part in which the inversion inclination part 7 was recessed decreased, and the decompression deformation | transformation of the bottle 1 is prevented.

  In the first embodiment, as shown in FIG. 4 (b), a method of forming the inversion inclined portion 7 of the bottom portion 4 inside the blow molding die 15 so as to be recessed inside the barrel portion 3. However, the present invention is not limited to this. For example, the bottle 1 in a state in which the inversion inclined portion 7 protrudes outward from the body portion 3 from the inside of the blow molding die 15 without being pushed up by the pressing member 21. You may take it out. According to this, it is necessary to carry the bottle 1 by gripping the mouth portion 2 instead of the self-conveyance of the bottle 1 by a conveyor or the like, but a process of pushing down the reverse inclined portion 7 from the inside of the trunk portion 3 by a pusher or the like. Can be omitted, and the efficiency can be improved.

  Moreover, in the bottom part 4 of 1st Embodiment of this invention, it may replace with the recessed part 13 of the shape shown in FIG.2 and FIG.3, and may employ | adopt the recessed part 23 shown in FIG.6 and FIG.7. The recess 23 is formed to extend to the outer peripheral side of the leg 6. As a result, the concave portion 23 acts as a reinforcing bead over a wide range with respect to the leg portion 6, and a higher buckling strength can be imparted to the bottom portion 4.

  Moreover, in 1st Embodiment, although the example in which the inversion inclination part 7 inclines flatly in cross section view was shown, although not shown in figure, it is a cross section toward the inner side of the trunk | drum 3, although not shown in figure. It can also have a convex shape (that is, a shape that curves inward), so that after indenting and reversing inward of the body part 3, inadvertent protrusion reversal to the outside of the body part 3 is performed. It can be made more difficult.

  Moreover, in 1st Embodiment, when the inversion inclination part 7 protrudes on the outer side of the trunk | drum 3, although the part protruded below the ground surface 9, although not shown in figure, inversion inclination Even when the portion 7 protrudes outside the body portion 3, the inverted inclined portion 7 is shaped so as to be housed in an inwardly surrounded by the leg portion 6 at a position above the ground plane 9. May be formed.

  Next, a second embodiment of the present invention will be described. As shown in FIG. 8, the synthetic resin bottle 24 according to the second embodiment includes a mouth portion 25, a cylindrical body portion 26 continuously provided below the mouth portion 25, and a lower portion of the body portion 26. And a bottom portion 27 for closing. The bottle 24 is biaxially stretched and blow-molded from a preform (not shown) made of an injection-molded polyethylene terephthalate resin, whereby the body portion 26 and the bottom portion 27 are formed in a biaxially stretched state. A screwing portion 28 for screwing a cap (not shown) is formed on the outer periphery of the mouth portion 25.

  As shown in FIGS. 9 and 10, the bottom portion 27 of the synthetic resin bottle 24 of the second embodiment is surrounded by a leg portion 29 formed continuously at the lower end of the body portion 26 and the leg portion 29. The inversion inclined part 7 formed in the region and the inward projecting part 8 formed at the center of the bottom part 27 are provided. The reverse inclined portion 7 and the inward protruding portion 8 have the same configuration as that described in the first embodiment, and the outer peripheral edge and the inner peripheral edge of the reverse inclined portion 7 are the outer peripheral hinge portion 10 and the inner peripheral portion, respectively. The hinge part 11 is provided. The inversion inclined portion 7 can be inverted in a symmetrical manner symmetrically toward the inside of the body portion 26 or the outside of the body portion 26 by bending of the outer peripheral hinge portion 10 and the inner peripheral hinge portion 11.

  In addition, the reversing inclined portion 7 is formed with a plurality of radially-shaped streak-like depressions 12 as described in the first embodiment. In addition, the number, the radiation angle, and the like of the hollow portion 12 are appropriately determined depending on the inclination angle and size of the inversion inclination portion 7, and may not be provided depending on circumstances.

  Further, as shown in FIGS. 9 and 10, the leg portion 29 is provided with a plurality of concave portions 30 formed at predetermined intervals in the circumferential direction, and a relative space is provided between the concave portions 30. A plurality of downward projecting portions 31 projecting downward are formed. As shown in FIG. 10, the recess 30 has a shape that is relatively large and continuously recessed into the body 26, and the lower protrusion 31 extends relatively downward and has a flat contact with its lower end. A ground 32 is formed. In addition, although the bottom part 27 has the external shape similar to what is called a petaloid shape generally employ | adopted as what contains carbonated drinks, the synthetic resin bottle 24 of 2nd Embodiment is the content filled. It is not limited to carbonated drinks. Although not shown in the drawing, the bottle having a conventional petaloid-shaped bottom is formed with a very thick central part at the bottom, but as shown in FIG. 10, the bottom of the synthetic resin bottle 24 according to the second embodiment. 27 is advantageous in that the material cost can be drastically reduced by providing the thin inversion inclined portion 7 that is biaxially stretched.

  Then, when the bottle 24 is filled with the contents, the contents are filled in a state where the inversion inclined portion 7 protrudes outside the body portion 26. Subsequently, the bottle 24 filled with the contents is sealed with a cap fitted to the mouth portion 25, and the inversion inclined portion 7 is replaced with the body portion 26 at the time of decompression accompanying the temperature drop of the contents inside the bottle 24. Recessed inside. Thereby, the internal capacity of the bottle 24 corresponding to the inversion of the inversion inclined portion 7 is reduced, and the decompression deformation of the bottle 24 is prevented.

  Also, in the synthetic resin bottle 24 of the second embodiment, by providing the leg portion 29 with a plurality of recesses 30, the leg portions 29 are sufficiently reinforced by the respective recesses 30, and even when subjected to an impact such as dropping. Inadvertent deformation of the leg 29 can be prevented, and extremely high buckling strength can be obtained.

  In the second embodiment, an example in which the inversion inclined portion 7 is inclined flat in a cross-sectional view is shown, but in addition to that, as shown in phantom lines in FIG. It is also possible to have a convex shape in a sectional view toward the inside (that is, a shape curved toward the inside). It can be made difficult to protrude and reverse outward.

  Further, in the second embodiment, when the reversing inclined portion 7 is projected to the outside of the body portion 26, it is formed so as to be accommodated in the inner portion surrounded by the leg portion 6 at a position above the ground surface 32. In addition to this, other than that, when the inversion inclined portion 7 protrudes outside the body portion 26, a part of the inversion inclined portion 7 may protrude below the ground surface 32. In this case, as an example, as shown in FIG. 11, it is possible to form the inversion inclined portion 7 via the outer peripheral hinge portion 10 adjacent to the inside of the ground surface 32.

  It is also conceivable to employ the bottle 24 for carbonated beverages. In this case, the carbonated beverage is filled with the inverted inclined portion 7 recessed inside the trunk portion 26 and sealed with a cap. According to this, even if the internal pressure of the bottle 24 is extremely increased by the carbonated beverage as the contents, the inversion inclined portion 7 can be reversed to the outside of the body portion 26 to reduce the pressure, so that the body portion 26 swells. Such pressure deformation can be eliminated. As described above, according to the synthetic resin bottle 24 of the second embodiment, since the inversion inclined portion 7 can be inverted according to the contents to be filled, in either the decompression deformation or the pressure deformation of the bottle 24. Can also be resolved.

BRIEF DESCRIPTION OF THE DRAWINGS Explanatory side view which shows the external appearance shape of the synthetic resin bottles of 1st Embodiment of this invention. Explanatory bottom view which shows the bottom part of the synthetic resin bottles of 1st Embodiment. Cross-sectional explanatory drawing of the bottom part of the synthetic resin bottles of 1st Embodiment. Explanatory drawing which shows a part of blow molding process typically. Explanatory drawing which shows the inversion work of an inclination part. Explanatory bottom view which shows the other bottom part shape employable in the synthetic resin bottle of 1st Embodiment. Sectional explanatory drawing of the bottom part shown in FIG. Explanatory side view which shows the external appearance shape of the synthetic resin bottles of 2nd Embodiment of this invention. Explanatory bottom view which shows the bottom part of the synthetic resin bottles of 2nd Embodiment. Cross-sectional explanatory drawing which shows the bottom part of the synthetic resin bottles of 2nd Embodiment. Explanatory bottom view showing another bottom shape that can be employed in the synthetic resin bottle of the second embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1,24 ... Synthetic resin bottle, 2,25 ... Mouth part, 3,26 ... Trunk part, 4,27 ... Bottom part, 6,29 ... Leg part, 7 ... Inversion inclination part, 8 ... Inward protrusion part (bottom part) (Central part), 9, 32 ... grounding surface, 13, 23, 30 ... concave part, 14, 31 ... downward projecting part, 15 ... blow molding die.

Claims (4)

In a synthetic resin bottle comprising a mouth part, a body part provided continuously below the mouth part, and a bottom part closing the lower part of the body part,
The bottom part is formed in a leg part connected to the lower end of the trunk part and having a ground contact surface, and is formed in a region surrounded by the leg part, so that the concave and convex can be reversed in a symmetrical shape from the inside of the trunk part to the outside of the trunk part. A biaxially-stretched inverted inclined part inclined to the center, and a bottom center part surrounded by the inverted inclined part,
The leg portion includes a plurality of recesses formed at predetermined intervals in the circumferential direction, and lower end surfaces of a plurality of downward projecting portions formed between the recesses are grounded surfaces. Synthetic resin bottle.   The synthetic resin bottle according to claim 1, wherein the inversion inclined portion is formed in a state of protruding outward from the body portion by blow molding in a blow molding die.   The inversion inclined portion is formed in a state protruding outward from the body portion by blow molding in a blow molding die, and is pressed into the body portion in the blow molding die after blow molding to be recessed. The synthetic resin bottle according to claim 1.   The reversal inclined portion is housed in an inner part surrounded by the leg portion at a position higher than the ground contact surface of the leg portion when protruding to the outside of the trunk portion. Item 4. The synthetic resin bottle according to any one of Items 1 to 3.

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