A container is made in two stages from material such as thermoplastics that is deformable when heated. In the first stage a preform (1) is injection moulded, the mould parts easily releasing a tubular body (2) with a closed end. In the second stage the still heated preform (1) is blow moulded, possi
A container is made in two stages from material such as thermoplastics that is deformable when heated. In the first stage a preform (1) is injection moulded, the mould parts easily releasing a tubular body (2) with a closed end. In the second stage the still heated preform (1) is blow moulded, possibly with some preliminary mechanical stretching, the blow pin being applied to the open end. The closed end of the body is stretched over a multi-part section (7, 8) of the mould which shapes the base of the container into an indent with an undercut formation, the cross section being generally omega-shaped. The multi-part mould section has a central tapered core (8) surrounded by an array of segments (7), the core (8) being fully inserted to spread the segments (7) for moulding, and being retracted to allow the segments (7) to close up and release the container after moulding. The divisions (12) between segments (7) produce ribs in the indent which provide added strength.
대표청구항▼
1. A method of making a container with an undercut re-entrant base, the material of the container being susceptible to deformation when heated, the method comprising the steps of: expanding the base portion of an embryo container, at an elevated temperature, against a multi-part mould having at l
1. A method of making a container with an undercut re-entrant base, the material of the container being susceptible to deformation when heated, the method comprising the steps of: expanding the base portion of an embryo container, at an elevated temperature, against a multi-part mould having at least three segments surrounding a tapered core; moving the core to wedge the segments laterally from a closely packed array to a mutually spread array thereby to form the undercut re-entrant base; retracting the core, returning the segments to a closely packed array and releasing the container therefrom; wherein the container in both embryo and finished form is substantially a body of revolution, the core is co-axial therewith, and the segments are all similar with radial sides abutting when close-packed. 2. A method of making a container with an undercut re-entrant base, the material of the container being susceptible to deformation when heated, the method comprising the steps of: expanding the base portion of an embryo container, at an elevated temperature, against a multi-part mould having at least three segments surrounding a tapered core; moving the core to wedge the segments laterally from a closely packed array to a mutually spread array thereby to form the undercut re-entrant base into a profile of Ω-shape; retracting the core, returning the segments to a closely packed array and releasing the container therefrom. 3. A method of making a container as claimed in claim 2, wherein the expansion is achieved at least primarily by blow moulding. 4. A method of making a container as claimed in claim 2, wherein, before the expansion step, the embryo container is extended towards the core and segments by a mechanical member inserted through an opening at the end opposite the base. 5. A method of making a container as claimed in claim 2, wherein the surfaces of the segments against which the material of the container is expanded are delineated by joint lines when the segments are closely packed, chamfering or bevelling of the segments along at least part of those lines creating channels into which the materials enter to form ribs projecting outwardly from the re-entrant base surface, the ribs enlarging as the segments are spread and, where there is no chamfering or bevelling, further ribs being created at the joint lines as the segments move apart. 6. A method of making a container with an undercut re-entrant base, the material of the container being susceptible to deformation when heated, the method including the steps of; expanding the base portion of an embryo container, at an elevated temperature, against a multipart mould having at least three segments surrounding a tapered core; moving the core to wedge the segments laterally from a closely packed array to a mutually spread array thereby finally to form the undercut re-entrant base with a Ω-shape; retracting the core, returning the segments to a closely packed array, and releasing the container therefrom. 7. A container comprising: a body portion; and a base portion, wherein the base portion has a U-shaped indent, the indent having a lower portion and an upper portion, and wherein a radius of the upper portion is greater than a radius of the lower portion. 8. The container of claim 7, wherein the undercut is formed by heating an embryo container and expanding the base portion with a multi-part mould having at least three segments surrounding a tapered core and moving the core to wedge the segments laterally from a closely packed array to a mutually spread array thereby to form the undercut base. 9. The container of claim 7, further comprising ribs projecting away from a surface of the base portion.
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이 특허에 인용된 특허 (7)
Spina Dennis R. (Onsted MI) Evins Samuel E. (Olathe KS), Blow molding method for making a reversely oriented hot fill container.
Bartley Harold D. (Springfield OH) Gaiser William R. (Spring Valley OH), Method of blow molding a plastic container having an integrated single thickness skirt of bi-axially oriented PET.
Nakayama, Tadayori; Saito, Hiromichi; Iizuka, Takao, Bottle made from synthetic resin material and formed in a cylindrical shape having a bottom portion.
Guerin, Stephen R.; Piccioli, David P.; Nahill, Thomas E.; Barker, Keith J., Deep grip mechanism within blow mold hanger and related methods and bottles.
Guerin, Stephen R.; Piccioli, David R.; Nahill, Thomas E.; Barker, Keith J., Deep grip mechanism within blow mold hanger and related methods and bottles.
Wurster, Michael P.; Bysick, Scott E., Plastic containers having base configurations with up-stand walls having a plurality of rings, and systems, methods, and base molds thereof.
Wurster, Michael P.; Bysick, Scott E., Plastic containers having base configurations with up-stand walls having a plurality of rings, and systems, methods, and base molds thereof.
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