Plastic article or earthenware shaping or treating: apparatus – Female mold and means to shape parison directly by internal... – With heating or cooling means
Reexamination Certificate
1999-05-14
2001-10-09
Nguyen, Nam (Department: 1722)
Plastic article or earthenware shaping or treating: apparatus
Female mold and means to shape parison directly by internal...
With heating or cooling means
C264S348000, C264S538000, C425S540000, C425S548000, C425S576000
Reexamination Certificate
active
06299431
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a molding system for producing articles, such as preforms and tubular parts, and to an innovative rotary cooling station employed in said system. The present invention further relates to a method for producing molded articles.
Reduction of the injection molding cycle time is a major task when forming articles in a huge volume. This is for example the case of PET preforms that are formed using high cavitation molds, such as for example the 72 or 96 cavity molds made by Husky Injection Molding Systems, the assignee of the instant application.
One option to reduce the molding cycle time is to limit the residence time of the preforms in the mold closed position by shortening the cooling step by a few seconds and thus ejecting the preforms from the mold sooner. One immediate benefit of a shorter residence time is that the content of acetylaldehyde (AA) in the final preform will drop by at least 5%. Because the preforms are still warm and fragile when they are transferred out of the mold to a robot having a take-out plate, they are vulnerable to deformation and surface damage. The internal heat retained by the preforms generates unacceptable crystallinity zones, especially at the sprue gate and neck finish portion of the preforms, if sufficient cooling is not provided immediately after opening the mold. Accordingly, optimizing and fine tuning the post mold cooling process and developing the necessary hardware is difficult when molding time is pushed beyond the normal cycle times.
Numerous attempts have been made in the past to improve the post-mold cooling process when forming PET preforms. These methods and equipment are not particularly applicable to a very fast molding cycle and do not properly cool the preforms ejected from the mold. Because early ejected preforms have warmer walls and retain a warmer air pocket inside the preform's inner cavity than the preforms made under normal conditions, they have to be cooled as soon and as fast as possible to prevent formation of crystallinity spots, or surface damage and deformation. Reference is made in this regard to U.S. Pat. No. 4,449,913 which shows an injection molding machine with a four face rotary mold plate, each face carrying a mold core plate. After molding, the preforms are removed from the cavities and retained on the injection cores for further internal cooling and for external cooling done by air blowers. The post-molding cooling step is performed while a new batch of preforms are formed on the same machine. This cooling approach is quite effective but the equipment is very expensive and complicated because three additional mold plates and three additional sets of injection cores are needed. This increases by three times the weight of the rotary mold plate block relative to a single face mold. In addition, these four mold plates and injection cores have to be manufactured with higher tolerances than those needed to make a single mold plate. This is due to the alignment requirements of the four sets of rotary cores with respect to a single stationary set of mold cavities. Also the relatively low speed of rotating, aligning and translating the heavy rotary mold core plate is a factor that significantly increases the molding cycle.
U.S. Pat. No. 4,836,767 to Schad et al. relates to an injection molding machine with a rotary mold core plate having two sets of mold cores. This is a dedicated nonstandard molding machine that has only three tiebars, one being used as a rotation axis for the mold core plate. After molding one batch of articles, such as PET preforms, they are retained on the mold cores and the mold core plate is rotated by one tiebar. In this way, the preforms are removed from the molding area and then are ejected into a rotary cooling station. This four face cooling station includes tubes that retain and cool the preforms from the outside. After being externally cooled, the preforms are ejected and dropped with the neck finish downward on a conveyor. If the preforms are not sufficiently cooled the neck finish can be damaged. This combination of a rotary mold machine and a rotary cooling station is much slower than having a dedicated robot to remove the preforms from the mold. This patent does not teach or anticipate internal cooling by the rotary cooling station or simultaneous external and internal cooling. Internal cooling in addition to the external cooling they teach would require a specialized equipment and highly accurate alignment.
U.S. Pat. No. 5,569,476 to Manen and Albers relates to a standard injection molding and a four face rotary cooling station. Each face of this rotary cooling station is movable and thus functions as a take-out robot because it can be moved laterally between the mold plates to remove the preforms and bring them to the cooling station. This design has several drawbacks: (a) the preforms are cooled solely externally on the retaining tubes belonging to the rotary cooling station; (b) the system is expensive and complicated as it must use four rather than just one robot arm that travel for a relatively long distance. This patent does not teach or suggest internal cooling, does not teach or suggest simultaneous internal and external cooling, and does not teach or suggest a single robot that feeds a rotary cooling station.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to overcome the deficiencies of the aforementioned injection molding systems.
It is a further object of the present invention to provide a system which represents a simpler molding operation and cooling solution.
It is yet another object of the present invention to provide a system that provides a more efficient cooling and a faster cycle time.
The system of the present invention uses a standard injection molding machine with only one set of mold cores and a novel and innovative rotary cooling station that is independent from the injection molding machine, which cooling station is loaded with molded preforms by a high speed robot. The rotary cooling station uses cooling cores for internal cooling and cooperates with external cooling stations to effect cooling of the external surfaces of the molded articles or preforms. The cooling cores, in a preferred embodiment, are designed to create an annular flow of cooling fluid within the molded articles, such as preforms or tubular parts, being cooled.
The method for forming molded articles in accordance with the present invention broadly comprises the steps of providing a machine for manufacturing a plurality of molded articles and a rotary cooling device positioned externally of the machine, the rotary cooling device having a plurality of faces with cooling cores on them; forming a first batch of the molded articles in the machine; removing the first batch of molded articles from the machine and transferring the molded articles to a position external of the machine; placing the molded articles of the first batch on a plurality of cooling cores on a first face of the rotary cooling device; and rotating the device to move the first batch of molded articles to a first cooling position. The method further comprises forming a second batch of molded articles in the machine; removing the second batch of molded articles from the machine and transferring the molded articles to the external position; placing the second batch of molded articles on the cooling cores on a second face of said rotating device; and simultaneously cooling the first and second batches of molded articles.
Other details of the system, the apparatus, and the method of the present invention, as well as other objects and advantages attendant thereto, are set forth in the following description and the accompanying drawings wherein like reference numerals depict like elements.
REFERENCES:
patent: 4449913 (1984-05-01), Krishnakumar et al.
patent: 4786455 (1988-11-01), Krishnakumar et al.
patent: 4836767 (1989-06-01), Schad et al.
patent: 4941815 (1990-07-01), Julian
patent: 5052626 (1991-10-01), Wood et al.
patent: 50678
Bachman & LaPointe P.C.
Husky Injection Molding Systems Ltd.
Luk Emmanuel S.
Nguyen Nam
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