JP4028216B2 - Volume-reducing bottle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a volume-reducible bottle, and more specifically, a plastic molding that can store various beverages, liquid seasonings, edible oils, etc., and is formed into a rectangular tube having a rectangular cross section in the body. The present invention relates to a bottle that can be easily reduced in volume after use.
[0002]
[Prior art]
Conventionally, blow molded bottles including biaxial stretch blow molded bottles are often used as plastic molded bottles that are filled with liquids such as various beverages, liquid seasonings, and edible oils to be distributed. Such plastic molded bottles have shape retention properties and are lighter and less expensive than glass bottles and metal cans. To be used.
[0003]
Such packaging containers are separated and collected by material after use, and are processed for recycling or incineration. However, since they are shape-retaining containers, there is a problem that the empty containers are bulky and the transportation efficiency is deteriorated. There is a demand to reduce the amount of material used by reducing the thickness as much as possible and facilitating volume reduction by crushing or the like.
This point is particularly important for plastic molded bottles with a large amount of use, and thinning is being promoted including cost reduction.
However, in terms of volume reduction to reduce the bulk of the empty container, the thinning method alone is not a sufficient solution because there are restrictions on the strength of the bottle itself.
[0004]
[Problems to be solved by the invention]
The present invention has been made in order to solve the above-described problems. The object of the present invention is to reduce the wall thickness of a plastic molded bottle as much as possible without impairing the performance of the bottle. An object of the present invention is to provide a molded bottle that can be easily folded and reduced in volume after use, with good productivity and economy.
[0005]
[Means for Solving the Problems]
  The above problems can be solved by the following present invention.
  That is, the invention described in claim 1 is a plastic molded bottle comprising a mouth portion, a shoulder portion, a trunk portion, and a bottom portion, and the trunk portion is formed in a rectangular tube shape having a rectangular cross section, Among the four surrounding wall surfaces forming the body portion, at least the longitudinal folding ribs for facilitating the flat flat folding of the bottle in the longitudinal direction are provided at least in the center portions in the width direction of the two opposing wall surfaces. From the upper edge of the part to the height position corresponding to half the distance between the wall surfaces adjacent to both sidesIs provided vertically, is divided into two forks downward from the height position, is provided in an inverted Y shape toward the lower corners of the wall surface,
  In the height position corresponding to ½ between the wall surfaces adjacent to both sides of the wall surface of the bottle on which the vertical bending ribs are provided, further lateral bending ribs are provided on the entire circumference or both sides of the bottle. Provided on the half circumference connecting the longitudinal bending ribs,
  Further, the bottle is formed so that an average thickness of a peripheral wall excluding the mouth portion is 0.1 to 0.7 mm, and further, a lateral reinforcing rib is provided on the peripheral wall of the trunk portion separately from the bending rib. Are provided at appropriate intervals,
  Further, when the bottle is folded and volume-reduced at the center part of the opposing two wall surfaces on the side different from the opposing two wall surfaces provided with the longitudinal ribs, it is possible to easily apply force. The panel portion for facilitating holding is formed with vertical ridges on the entire surface thereof, and the entire panel portion is recessed in a concave shape, or a concave groove is provided in the periphery.It consists of a reducible bottle characterized by this.
[0006]
In the present invention, the bending rib can be provided by being molded into a groove shape that is convex on the inside or a groove shape that is convex on the outside.
In addition, when providing the rib for a bending in the groove shape used as the said convex shape on the said outer side, a shaping | molding recessed part is provided in the both sides of the groove shape used as a convex shape, and the front-end | tip part of a convex groove shape is the outer periphery of a bottle trunk | drum. It is preferable to provide it so as not to protrude from the surface.
When such a folding rib is used to fold the used bottle flatly in the vertical direction to reduce the volume, the folding rib is folded outward (folded) or folded inside (valley folded). By this, it has the effect | action which makes it easy to fold a bottle flatly, and also has the effect | action which strengthens the resisting force with respect to the compression force of the up-down direction of a bottle, ie, the buckling strength, when it is provided in the vertical direction.
[0007]
Further, the position where such a longitudinal rib is provided is the center in the width direction of at least two opposing wall surfaces of the surrounding four wall surfaces forming the bottle body, and the length direction It is preferable to provide at least a height position corresponding to ½ of the distance between the wall surfaces adjacent to both sides from the upper edge of the trunk portion downward.
For example, when the bottle is placed so that the two wall surfaces provided with the bending ribs are left and right, and force is applied from the front and back to force it to fold flat, the bending ribs form a straight line in the vertical direction. This is because it is in this range.
[0008]
只 As described above, the longitudinal folding rib has an effect of facilitating the folding of the bottle as a folding line, and also has an effect of increasing the resistance to the compressive force in the vertical direction of the bottle, that is, the buckling strength. Therefore, for example, when the length is made longer than the length of the above range, the lengthened portion does not work so much as the function of facilitating the folding of the bottle, but the effect of increasing the buckling strength can be obtained.
Accordingly, since the wall of the shoulder portion of the bottle generally tends to be thin, it is necessary to extend the vertical bending rib above the upper edge of the body portion, for example, near the middle portion of the shoulder portion. This is effective in that it can improve the buckling strength.
In addition, when the bending rib is shorter than the above-mentioned length, it is not preferable because it is difficult to bend at a portion where the bending rib is not provided, and a return occurs due to repulsion.
[0009]
By adopting such a configuration, when the volume of the used bottle is reduced, since the vertical folding ribs are provided on the two opposing wall surfaces of the bottle body, the folding ribs are mountain-folded. Alternatively, by compressing the body part by folding it into a valley fold, it is possible to fold the body part of the bottle more flatly and reduce the volume. Moreover, the effect of improving the buckling strength of a bottle is also acquired by the rib for bending in the vertical direction.
[0011]
  In the invention described in claim 1, the longitudinal bending rib is at least from the upper edge of the trunk part to a height position corresponding to half the distance between the wall surfaces adjacent to both sides. Is provided vertically, and is divided into two forks downward from the height position, and is provided in an inverted Y shape toward the lower corners of the wall surface.When the bottle body is folded flat using the vertical folding ribs on both sides, it can be folded close to the bottom of the bottle and folded well.And moreThe volume can be reliably reduced.
[0013]
  In the invention described in claim 1, the bottle is further at a height position corresponding to ½ of the distance between the wall surfaces adjacent to both sides of the wall surface of the bottle provided with the longitudinal bending rib. The folding ribs are provided on the entire circumference of the bottle or on the half circumference connecting the vertical folding ribs on both sides.After the bottle is used, the bottle body is folded flat using the vertical folding ribs on both sides, and then the bottom of the bottle is folded flat using the lateral folding rib. Can be foldedAnd moreThe volume of the bottle can be effectively reduced.
[0015]
When the bottle is thin and light, the peripheral wall excluding the mouth of the bottle, that is, the average thickness of the shoulder, the trunk and the bottom is preferably 0.1 to 0.7 mm, preferably 0.1 to 0.4 mm. More preferably.
When the average thickness is less than 0.1 mm, the strength of the bottle is reduced, and even if a reinforcing rib in the horizontal direction is provided on the peripheral wall of the bottle body, the required strength cannot be obtained, This is not preferable because the suitability for use such as holding ability when held by hand is impaired. In addition, when the average thickness exceeds 0.7 mm, sufficient strength has already been obtained in terms of strength, so there is no necessity, and the effect of weight reduction cannot be obtained with an increase in cost. Since the bending effect by the rib for bending also falls, it is not preferable.
[0016]
  Further, in the invention described in claim 1, apart from the bending rib, a plurality of lateral reinforcing ribs are provided at appropriate intervals on the peripheral wall of the trunk portion.Further, the strength and rigidity in the lateral direction of the body portion are enhanced, and the bottle can be thinned without causing the body swelling.
  In addition, since the lateral reinforcing ribs can be used for the lateral folding ribs, it is possible to fold the bottle folded flatly from the bottom side to the upper side, thereby further reducing the size of the bottle. Can be tolerated.
  Therefore, by reducing the thickness of the bottle, the amount of resin to be used can be reduced, making it possible to save resources and energy, improving the economy, and making it easier and more compact to reduce the volume of the bottle. Can be provided well.
[0018]
  Further, in the invention described in claim 1, when the volume is reduced by folding the bottle at the center part of the opposing two wall surfaces on the side different from the opposing two wall surfaces provided with the vertical bending ribs, The panel portion for facilitating the application of force and holding the bottle is provided with vertical ridges on the entire surface of the panel portion, and the entire panel portion is recessed in a concave shape or a concave shape in the periphery. A groove is provided.
  The surface in the panel portion may be formed on a flat surface, but may be formed by providing, for example, vertical concavo-convex strips on the entire surface. The panel portion itself is provided to facilitate the application of folding force as described above and to facilitate the holding of the bottle, but at the same time has a reinforcing effect on the wall surface of the trunk portion, particularly as described above. In the case where the vertical ridges are provided on the entire surface, the reinforcing effect is further improved.
[0019]
  Therefore, by adopting the configuration as described above,One layerThe bottle can be easily held, and the bottle can be easily folded to reduce the volume, and the strength of the bottle body can be improved.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a front view showing the configuration of an embodiment of the volume-reducible bottle of the present invention. FIG. 2 is a side view of the volume-reducible bottle shown in FIG. FIG. 3 is a plan view of the volume-reducible bottle shown in FIG.
FIG. 4 is a front view showing the configuration of another embodiment of the volume-reducible bottle of the present invention. FIG. 5 is a side view of the volume-reducible bottle shown in FIG. FIG. 6 is a plan view of the volume-reducible bottle shown in FIG.
[0021]
The material for the volume-reducible bottle of the present invention is not particularly limited, and for example, polyethylene terephthalate, polypropylene, polyethylene, and other plastics may be used. You may use the laminated body which laminated | stacked these layers. When using a laminated body, for example, the gas barrier property of a bottle can be improved by laminating a saponified ethylene-vinyl acetate copolymer and other gas barrier materials on an intermediate layer or the like.
Regarding the method of forming the bottle, in addition to direct blowing, any forming method such as biaxial stretching blow can be adopted.
[0022]
1, 2, and 3, the volume-reducible bottle 100 is a blow-molded thin-walled bottle, and is continuous with the mouth portion 1, the shoulder portion 2 continuous with the mouth portion 1, and the shoulder portion 2. 3 and a bottom part 4 continuous to the body part 3, and the lower side from the body part 3 is a rectangular shape whose cross section is a rectangle with R provided at the corners as shown in the plan view of FIG. 3. Molded into a bottle.
[0023]
The mouth portion 1 is formed in a cylindrical shape as in the case of a conventional plastic bottle, and a male screw 13 to which a cap (not shown) for closing the opening end of the mouth portion 1 is screwed on the outer peripheral surface thereof. And a holding flange 14 that is used when the bottle is transported.
The shoulder portion 2 continuous to the mouth portion 1 is formed in a reverse funnel shape as a whole, and from below the cylindrical mouth portion 1, a rectangular prismatic trunk portion having a transverse cross section provided with a corner. 3 is formed in a truncated pyramid shape connected to a curved surface.
[0024]
The rectangular tube-shaped body 3 is provided with a plurality of laterally recessed reinforcing ribs 10 in the circumferential direction on the peripheral wall surface at an appropriate interval. 2 (see the plan view of FIG. 3), the two opposing wall surfaces on the long side are the front and rear wall surfaces 5 and 6, and the two opposing wall surfaces on the short side are the left and right side wall surfaces 7 and 8, respectively. As shown in the side view, a concave groove-shaped vertical bending rib 9a for facilitating flat folding of the bottle 100 in the vertical direction at the center in the width direction of the left and right side wall surfaces 7, 8 facing each other. Is provided from the upper edge of the body part 3 to a height position corresponding to a length (1/2) × L that is ½ of the distance L between the wall surfaces adjacent to both sides, and from there, it is divided into two forks. Inclined bending ribs 9b, 9c directed to the lower corners of the respective side wall surfaces 7, 8 are provided, and an inverted Y-shape as a whole. The rib 9 for bending is formed, and further, at a height position corresponding to a length (1/2) × L of 1/2 of the distance L between the front and rear wall surfaces adjacent to both sides of the side wall surface, Bending ribs 9d are provided on the entire circumference of the bottle 100, and as shown in the front view of FIG. 1, the bending ribs 9a, When the volume of the bottle 100 is flattened by 9b and 9c to reduce the volume, the panel portion 11 for facilitating the application of force and holding the bottle 100 is formed into a rectangular concave shape like the molding recess 12a. It is provided and configured.
[0025]
A plurality of lateral reinforcing ribs 10 provided at appropriate intervals on the peripheral wall surface of the body portion 3 originally reinforces the lateral strength of the bottle 100 and prevents the bottle 100 from swelling due to the weight of the contents. It is provided to prevent this, and is not necessarily provided when the thickness of the body portion is not particularly thin. In the bottle capable of reducing volume according to the present invention, in order to further facilitate the operation of flatly folding in the vertical direction, the barrel 100 of the bottle 100 is provided with the bending ribs 9a, 9b, 9c, 9d, It is more preferable that it is thin, and from this point, it is preferable to reinforce by providing a plurality of lateral reinforcing ribs 10.
Moreover, since such a horizontal reinforcing rib 10 is formed in a concave groove shape, it also has a function as a folding line simultaneously with the reinforcing function. Accordingly, by providing a plurality of lateral reinforcing ribs 10 at appropriate intervals, the bottle 100 can be prevented from swelling, and the bottle 100 can be vertically used by using the bending ribs 9a, 9b, 9c, 9d. After being folded flat in the direction, the reinforcing rib 10 can be used to fold up from the bottom side to the upper side, and the volume can be further reduced.
[0026]
The concave groove-shaped bending ribs provided on the opposite left and right side wall surfaces 7 and 8 make it easy to fold the bottle 100 flatly in the vertical direction, and at least the center in the width direction of the opposite side wall surfaces 7 and 8. By providing the bending rib 9a in the vertical direction from the upper edge of the body part 3 to the height position corresponding to half the distance L between the wall surfaces adjacent to both sides, 9a can be folded inward or outward to fold the body 3 flat.
[0027]
However, in order to more easily fold the vicinity of the bottom where the thickness is relatively thicker, the lower end of the vertical bending rib 9a is divided into two branches, and the lower corners of the side wall surfaces 7 and 8 are separated. It is preferable to provide reverse-shaped Y-shaped bending ribs 9 by providing diagonal bending ribs 9b, 9c, and further to the height position of the lower end of the vertical bending rib 9a in the horizontal direction. More preferably, the bending rib 9d is provided on the entire circumference of the bottle or on the half circumference connecting the lower ends of the vertical bending ribs 9a on both sides.
In addition to the inverted Y-shaped bending rib 9, a lateral bending rib 9 d is provided, so that the body portion 3 of the bottle 100 is folded flat, and then the lateral bending rib 9 d is valley-folded. And since it can fold flatly so that the bottom part 4 may be folded up and may become the same surface as the trunk | drum 3 folded, the bottle 100 can be reduced in volume more compactly.
[0028]
If the lateral reinforcing rib 10d can be provided at this position, the lateral bending rib 9d can be replaced with the lateral reinforcing rib 10d.
The bending ribs 9a, 9b, 9c, 9d and the lateral reinforcing rib 10 are all formed in a concave groove shape, but they partially intersect each other, so that the bending rib can be bent. In order to prevent damage, the bending ribs 9a, 9b, 9c, 9d are preferably formed to have a depth equal to or greater than the depth of the reinforcing rib 10 in the lateral direction.
[0029]
Further, the front and rear wall surfaces of the body part 3, that is, the panel part 11 provided at a position slightly below the center of the wall surface 5 on the front side of the body part and the wall surface 6 on the rear side of the body part, make the bottle 100 flat. When the volume is reduced by folding, it is provided to make it easier to apply force and to make the bottle 100 easier to hold, but it also has the effect of reinforcing the buckling strength of the bottle body 3 and the like.
Such a panel portion 11 is provided in a shape recessed from the outer peripheral surface of the barrel portion 3 as shown in the illustrated concave portion 12a, so that it is easy to apply force with fingers, and the bottle 100 can be easily held. Although it is preferable at the point which can improve the reinforcement effect of this, it does not specifically limit, For example, it can also form by providing a frame-shaped concave groove in the circumference | surroundings.
For example, a vertical ridge (not shown) can be provided on the surface of the panel portion 11 to further improve the buckling strength reinforcing effect, the slip preventing effect, and the like.
Moreover, the shape of the panel part 11 is not specifically limited, In addition to the rectangular shape shown in figure, it can provide in arbitrary shapes, such as circular and an ellipse.
[0030]
Next, the volume-reducible bottle 200 shown in FIGS. 4, 5, and 6 has the shape of a square bottle in the configuration of the volume-reducible bottle 100 shown in FIGS. Is changed to a square shape as shown in the plan view of FIG. 6 instead of a rectangular cross section, and as shown in a side view of FIG. , 8 and an oblique Y-shaped bending rib 9 consisting of diagonal bending ribs 9b and 9c connected to the lower end of the rib 9a in a bifurcated manner at the lower end thereof, instead of the concave groove shape. It is changed to a convex groove shape that is convex, and includes bending ribs 9a, 9b, 9c so that the convex groove-shaped bending ribs 9a, 9b, 9c do not protrude outward from the outer peripheral surface of the body portion 3. A certain area is formed in a wide inverted Y-shape like a molding recess 12b, In addition, as shown in the front view of FIG. 4, the shape of the panel part 11 provided at a position slightly below the center part of the front and rear wall surfaces 5 and 6 of the body part 3 is changed to a circular shape, Other configurations are formed and configured in the same manner as the volume-reducible bottle 100 shown in FIGS.
[0031]
By adopting such a configuration, the cross-section of the body part 3 becomes a square shape, and the widths of the four wall surfaces around the body part 3 are equal. The strength of 200 becomes stable.
In addition, the reverse Y-shaped bending rib 9 provided on the left and right side wall surfaces 7 and 8 of the bottle 200 is changed to a convex groove shape that is convex outward, and when the bottle 200 is folded flat, the reverse Y Although the letter-shaped bending rib 9 can be folded inwardly, the shape is suitable for folding outwardly.
[0032]
And since the fixed region including the bending ribs 9a, 9b, 9c provided on the left and right side wall surfaces 7, 8 is recessed by the wide inverted Y-shaped forming concave portion 12a, the convex groove-shaped bending rib 9a, 9b and 9c are not protruded and damaged from the outer peripheral surface of the body portion 3, and this portion also has a function of a vertical reinforcing rib, and the buckling strength of the body portion 3 can be further improved.
Further, as for the point that the shape of the panel portion 11 provided at a position slightly below the center of the wall surfaces 5 and 6 on the front and back of the body portion 3 is changed from a rectangular shape to a circular shape, the force when the bottle 200 is folded flatly There are no significant differences in the operational effects such as the ease of application of the bottle 200 and the ease of grasping when the bottle 200 is held, and the same operational effects as the operational effects described in the bottle 100 shown in FIGS. 1 to 3 can be obtained. it can.
[0033]
【Example】
Hereinafter, the present invention will be described more specifically with reference to examples.
(Example 1)
The volume-reducible bottle 100 having the configuration shown in FIGS. 1 to 3 was produced with the following dimensions by biaxial stretch blow molding using polyethylene terephthalate.
The height of the bottle 100 is 235 mm, the cross section of the body part 3 is rectangular, the width of the body part 3 (the distance between the left and right side wall surfaces 7 and 8) is 101 mm, and the depth of the body part 3 (the front and rear wall surfaces 5). , 6) is 82 mm, and among the inverted Y-shaped bending ribs 9 a, 9 b, 9 c provided on the left and right side wall surfaces 7, 8 of the body portion 3, the longitudinal bending rib 9 a is the body The rib for bending in the oblique direction is provided vertically from the upper edge of the portion 3 to a height of 41 mm from the bottom surface, and from there to the bottom, it divides into two forks and reaches the vicinity of the lower corners of the side wall surfaces 7 and 8. 9b and 9c are provided, and a lateral bending rib 9d is provided on the entire circumference of the body portion 3 at a height of 41 mm from the bottom surface.
Further, the lateral reinforcing ribs 10 of the body part 3 are all provided on the upper side of the lateral bending ribs 9d so that the four reinforcing ribs 10 are divided at substantially equal intervals up to the upper edge of the body part. A lateral reinforcing rib 10 is provided on the entire circumference of the boundary with the bottom 4 below the lateral bending rib 9d.
A square panel portion 11 having a side length of 40 mm was recessed at a depth of 2.5 mm at a position slightly below the center of the wall surfaces 5 and 6 before and after the body portion 3.
In addition, the average thickness of the surrounding wall except the mouth part 1 of the bottle 100 was 0.27 mm, and the filling capacity of the bottle 100 was 1200 ml.
[0034]
The volume-reducible bottle 100 of Example 1 produced as described above can safely seal liquid contents such as beverages, and the empty bottle is a folding rib provided on the peripheral wall surface of the body 3. Using 9a, 9b, 9c, and 9d, the volume could be easily reduced by flattening in the vertical direction.
Further, it is possible to further reduce the volume of the bottle folded flatly by folding the bottle so as to be wound up from the bottom side to the upper side by using the lateral reinforcing rib 10.
[0035]
(Example 2)
A volume-reducible bottle 200 having the configuration shown in FIGS. 4 to 6 was produced by biaxial stretch blow molding using polyethylene terephthalate with the following dimensions.
The height of the bottle 200 is 235 mm, and the cross section of the body part 3 is a square shape having a side length of 87 mm, that is, the width of the body part 3 (the distance between the left and right side wall surfaces 7 and 8) is 87 mm. The depth of the portion 3 (distance between the front and rear wall surfaces 5 and 6) is also 87 mm, and among the inverted Y-shaped bending ribs 9a, 9b and 9c provided on the left and right side wall surfaces 7 and 8 of the body portion 3, The vertical bending rib 9a is provided vertically downward from the upper edge of the body portion 3 to a height of 43.5 mm from the bottom surface, and from there down, it is divided into two forks and below the side wall surfaces 7 and 8. Bending ribs 9b and 9c in the oblique direction reaching both corners are provided, and further, a bending rib 9d in the lateral direction is provided on the entire circumference of the body portion 3 at a height of 43.5 mm from the bottom surface.
[0036]
The inverted Y-shaped bending ribs 9a, 9b, and 9c are provided in a convex groove shape that is convex outward, and a fixed region including the inverted Y-shaped bending ribs 9a, 9b, and 9c is widened upside down. Recessed by the Y-shaped forming recess 12b, the reverse Y-shaped bending ribs 9a, 9b, 9c are formed so as not to protrude from the outer peripheral surface of the body portion 3, and the transverse bending ribs are formed. 9d is formed in the shape of a concave groove as in the first embodiment.
[0037]
Also in this case, the horizontal reinforcing ribs 10 of the body part 3 are divided at substantially equal intervals up to the upper edge of the body part on the upper side of the horizontal bending ribs 9d as in the first embodiment. In this way, four reinforcing ribs 10 are provided on the entire circumference, and one lateral reinforcing rib 10 is provided on the entire circumference of the boundary with the bottom 4 below the lateral bending rib 9d.
And the circular panel part 11 with a diameter of 40 mm was provided in the depth of 2.5 mm in the position a little lower from the center part of the wall surfaces 5 and 6 before and behind the trunk | drum 3. As shown in FIG.
The average thickness of the peripheral wall excluding the mouth portion 1 of the bottle 200 is 0.26 mm, and the filling capacity of the bottle 200 is 1200 ml.
[0038]
The volume-reducible bottle 200 of Example 2 produced as described above can safely seal liquid contents such as beverages, and the empty bottle is a folding rib provided on the peripheral wall surface of the body 3. Using 9a, 9b, 9c, 9d, the volume could be easily reduced by flattening in the vertical direction.
Further, it is possible to further reduce the volume of the bottle folded flatly by folding the bottle so as to be wound up from the bottom side to the upper side by using the lateral reinforcing rib 10.
[0039]
【The invention's effect】
As described above in detail, according to the present invention, it is a square tube bottle formed by plastic molding, and its peripheral wall surface can be thinned without impairing the performance as a bottle, saving resources, It is energy-saving and economical, and can be easily and compactly folded to reduce the volume of empty bottles after use, reducing volume with excellent processability and recycling efficiency during recycling and disposal. There is an effect that can provide a possible bottle with good productivity.
[Brief description of the drawings]
FIG. 1 is a front view showing the configuration of an embodiment of a volume-reducible bottle of the present invention.
FIG. 2 is a side view of the volume-reducible bottle shown in FIG.
3 is a plan view of the volume-reducible bottle shown in FIG. 1. FIG.
FIG. 4 is a front view showing the configuration of another embodiment of the volume-reducible bottle of the present invention.
5 is a side view of the volume-reducible bottle shown in FIG. 4. FIG.
6 is a plan view of the volume-reducible bottle shown in FIG. 4. FIG.
[Explanation of symbols]
1 mouth
2 shoulder
3 trunk
4 Bottom
5 Wall front side wall
6 Wall behind the torso
7 Side wall on the left side of the trunk
8 Side wall on the right side of the trunk
9 Reverse Y-shaped bending rib
9a, 9b, 9c, 9d Bending rib
10 Reinforcing rib
11 Panel
12a, 12b molding recess
13 Male thread
14 Flange
100, 200 Bottles that can be reduced in volume

Claims (1)

It consists of a mouth part, a shoulder part, a torso part and a bottom part, and the torso part is a plastic molded bottle formed in the shape of a rectangular tube having a rectangular cross section, and among the surrounding four wall surfaces forming the torso part , At least in the center in the width direction of each of the two wall surfaces facing each other, a vertical bending rib for facilitating the flat folding of the bottle in the vertical direction is adjacent to both sides from at least the upper edge of the body portion. It is vertically provided up to a height position corresponding to half the distance between them, and is divided into two forks downward from the height position, and is provided in an inverted Y shape toward the lower corners of the wall surface. ,
In the height position corresponding to ½ between the wall surfaces adjacent to both sides of the wall surface of the bottle on which the vertical bending ribs are provided, further lateral bending ribs are provided on the entire circumference or both sides of the bottle. Provided on the half circumference connecting the longitudinal bending ribs,
Further, the bottle is formed so that an average thickness of a peripheral wall excluding the mouth portion is 0.1 to 0.7 mm, and further, a lateral reinforcing rib is provided on the peripheral wall of the trunk portion separately from the bending rib. Are provided at appropriate intervals,
Further, when the bottle is folded and volume-reduced at the center part of the opposing two wall surfaces on the side different from the opposing two wall surfaces provided with the longitudinal ribs, it is possible to easily apply force. The panel portion for facilitating holding the surface is provided with vertical ridges on the entire surface thereof, and the entire panel portion is recessed in a concave shape, or a concave groove is provided in the periphery. A volume-reducible bottle characterized by

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