Method of making a large-diameter blow-molded container having a narrow mouth
a blow-molded container, large-diameter technology, applied in the direction of transportation and packaging, other domestic articles, synthetic resin layered products, etc., can solve the problem that the extent to which the plastic can be stretched to increase the interior diameter of the preform to the interior size of the container has a practical limit, and the container cannot be injection-molded
Inactive Publication Date: 2003-04-10
DAVIS SAMUEL B +1
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Problems solved by technology
It is well known that the various types of stretch-blow molding procedures have not been successful in producing containers with a large size relative to the size of the opening in the container.
The problem with producing large size containers relative to the size of the opening in the container is that the extent to which the plastic can be stretched to increase the interior diameter of the preform to the interior size of the container has a practical limit.
However, a preform such as shown in FIG. 2 cannot be injection molded (as most preforms are for the stretch blow process) since a mold core with a diameter large enough to form the inside diameter of the preform body cannot be removed through the small opening.
Method used
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[0019] The invention will be described by reference to the drawings, which show a preferred embodiment of the invention.
[0020] FIG. 1 illustrates a conventional preform 100 of the type used in conventional blow molding processes. The preform 100 has a wall 102, a closed end 104 and an open or mouth 106. The inner diameter of the wall 102 is approximately the same as the diameter of the opening 106. This construction represents the structure of prior art preforms prepared by injection molding. In such preforms, the mouth must be wide enough to accommodate removal of the core of the mold.
[0021] In blow molding of containers from parisons or preforms, the amount of stretching is limited by the properties of the plastic. Accordingly, the finished container can have a diameter only a certain percentage greater than the diameter of the preform. Therefore, the narrow preform 100 of the prior art can only yield a relatively narrow container. Typically such containers have a diameter only so...
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Abstract
A preform or parison for manufacturing a container having a large interior diameter body and small interior diameter opening is prepared by molding the preform in two parts, a body having a generally cylindrical sidewall with one open end and one closed end, and a preform end having a diameter sized to mate with the sidewall and an opening therein for accessing the interior of the preform, and then joining the preform body and preform end to form a complete preform having an internal diameter larger than the diameter of the opening. The preform so formed is then used in a conventional blow molding process to produce a container having a large internal diameter and a narrow access opening.
Description
[0001] 1. Field of the Invention[0002] This invention relates to a method of making a hollow, stretch blown plastic container, and to the resulting product, such as a bottle, with a relatively large size as compared to the size of the opening in the container.[0003] 2. Brief Description of the Prier Art[0004] Plastic containers, that is, containers constructed primarily of substituted or unsubstituted hydrocarbons have, for some time, been in prevalent use. Increased popularity, as compared with inorganic glass, the increased popularity of such plastic containers is due to a variety of factors in particular improved impact resistance, reduced weight, and, perhaps most significantly, reduced cost.[0005] As would be expected, procedures for producing so popular a commodity have been in continuing transition. What started as a simple operation, analogous to that used for inorganic glass has evolved through a variety of stages. Today, most containers are produced by procedures which inv...
Claims
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IPC IPC(8): B29C49/00B29C49/02B29C49/06B29C65/00B29C65/06B29C65/08B29C65/16
CPCB29B2911/1402Y10T428/1352B29B2911/14033B29B2911/1404B29B2911/14106B29B2911/14133B29B2911/1416B29B2911/14186B29B2911/14213B29B2911/14333B29B2911/14413B29B2911/1446B29B2911/14573B29C49/0073B29C49/02B29C49/06B29C65/00B29C65/0672B29C65/08B29C65/16B29C66/026B29K2023/06B29K2023/12B29K2067/00B29K2069/00B29B2911/14026B29C2949/3024B29C2949/28B29C2949/26B29C2949/24B29C2949/22B29C2949/3032B29C2949/3041B29C2949/3048B29C2949/3056B29C2949/0733B29C2949/073B29C2949/0769B29C2949/0776B29C2949/08B29C49/071B29C2949/0715
Inventor DAVIS, SAMUEL B.THIBODEAU, JAMES A.
Owner DAVIS SAMUEL B