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Publication numberUS3272383 A
Publication typeGrant
Publication dateSep 13, 1966
Filing dateJul 8, 1965
Priority dateJul 8, 1965
Publication numberUS 3272383 A, US 3272383A, US-A-3272383, US3272383 A, US3272383A
InventorsHarvey Leo M
Original AssigneeHarvey Aluminum Inc
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
One-piece extruded container for canning
US 3272383 A
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Description  (OCR text may contain errors)

Sept. 13, 1966 1. M. HARVEY 3,

ONE-PIECE EXTRUDED CONTAINER FOR CANNING Original Filed July 22, 1963 FIG. I.

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} JZ INVENTOR.

LE0 N. f/ARl/EY A eewr United States Patent 0 3,272,383 ONE-PlEtIE EXTRUDED CONTAINER FOR CANNING Leo M. Harvey, Los Angeles, Calif, assignor to Harvey Aluminum (Incorporated), Torrance, Calif, a corporation of Caiifornia Continuation of application er. No. 296,630, July 22, 1963. This application July 8, 1965, Ser. No. 473,896 1 Claim. (Cl. 220-6d) This is a continuation of application Serial No. 296,- 630, filed July 22, 1963, entitled, One-Piece Extruded Container for Canning.

This invention relates to containers of the type used for merchandising foods and beverages, and the like, and is particularly concerned with the fabrication of containers primarily by means of extruding a single piece of relatively inexpensive lightweight metal into a monoshell form ready for the reception of contents and adapted to receive a closure.

The art relating to containers of the type under consideration is highly developed and mechanized for the production of specialized containers and also for the canning operations wherein the containers receive the contents to be merchandised. As a practical matter, and in fact, the manufacture of the containers is a business separate from the filling of the containers, the latter being referred to as the canning operation. Furthermore, the said two operations are extreme in their mechanization, with special machinery which is highly developed for the production of special containers and for the handling of the various products to be merchandised. For example, the merchandising of beverages involves certain highly developed machines that receive empty containers, fill them with the beverage, close them with a lid, and discharge and convey them for distribution and sale.

With the highly developed and efficient canning ma chinery as it is now available in the art, the long used and well known tin can is handled and which involves a tubular shell with a longitudinal seam and with transverse ends joined to the shell by a doubled seam that forms a rim or chine. Although the cross-sectional configuration of a container can vary widely, it is usual that the tubular shell is smooth and ordinarily round. Therefore, it is the doubled seam that presents the only geometric part which can be relied upon for reinforcement of and/or engagement of and/or handling of said container.

There are many considerations to be met in the manufacture of containers of the type under consideration. Not only must such a container be recognizable as such but it must also be acceptable in every respect. The presence of a bottom rim as previously formed by a double seam of joinder is necessary during the filling of the container; is necessary to engage and hold the container during application of a lid; is necessary to prevent lifting of the container when the lid applying means is retracted; is necessary to engage the container with conveying means and thereby prevent tipping and/or dislodgement; is necessary to prevent tilting when packaged, in which case the top and bottom rims of the container should be of substantially the same diameter; and is necessary to ensure uniform spacing of adjacent containers whereby defacing of the labels is avoided by preventing touching of adjacent container bodies. Another consideration is the capability of the containers to withstand internal pressures, not only constant pressures after closare but those extraordinary pressures which are invariably imposed during handling in the canning equipment.

A general object of this invention is to provide an improved and commercially practical container of the "ice type under consideration, which is durable and acceptable in every respect and which can replace containers of the prior art. Furthermore, it is an object of this invention to provide such a container that is one-piece and yet capable of replacing prior art containers made in several pieces.

Another object of this invention is to provide a onepiece container that will not tilt, one relative to the other, by virtue of adjacent interengagement of one of said containers with another due to the establishment of uniform rim diameters at or close to the bottom and top of the containers. A container without a protruding bottom seam or rim and with the necessary seam that secures the lid thereon would be loose at the bottom end, so as to permit shifting and tilting. The present invention avoids this in a one-piece container. A

It is still another object of this invention to provide a one-piece container that will roll straight for conveying purposes, by virtue of uniform rim diameters at both ends of the container. A container without a bottom seam or rim and with the necessary seam that secures the lid thereon would roll along a curved route and not straight. The present invention ensures rolling of the container in a straight line.

It is still another object of this invention to provide a one piece container with means to prevent touching of the body sections thereof, whereby labels imprinted or carried thereon are not defaced or damaged by contact of adjacent containers. A container without a seam or rim at the bottom end as well as the top end will rub and chafe, one against the other, and thereby deface the labeling.

An object is to provide a leak-proof container that is formed without seams or joints and such a container that is competitively inexpensive of manufacture.

It is also an object of this invention to provide a container of the character referred to which is lightweight and yet strong and so as to Withstand internal pressures without resort to encumbering the same.

The various objects and features of this invention will be fully understood from the following detailed description of the typical preferred form and application thereof, throughout which description reference is made to the accompanying drawings, in which:

FIGS. 1 through 4 illustrate the article of manufacture, FIG. 1 being a perspective view showing a fragmentary portion of typical canning machinery that may be involved and with the one-piece containers of the present invention in place thereon and engaged therewith, FIG. 2 being an enlarged elevation showing the container of the present invention in section, FIG. 3 being an enlarged detailed sectional view showing the conventional double seam which occurs at and in order to fasten the closure to the container, and FIG. 4 being an enlarged detail sectional view taken at the lower end portion of the container shown in FIG. 2.

The one-piece container of the present invention is worked from a single piece of material as distinguished from the prior art containers that are fabricated of multi-pie-ces. Tubular shellJike articles can be made in various ways and in order to form a one-piece seamless article the process of extrusion is employed in carrying out this invention. However, impact extrusion of a satisfactory container having all of the necessary features is not readily accomplished and heretofore the forming of such a container in which the bottom and sides are of one integral piece of metal and devoid of the protecting rim or chine has been considered inferior to the multi-piece conventional can, because such an extruded container does not meet all of the necessary requirements as hereinabove set forth. Many attempts have been made with the purpose of fabricating a suitable lightweight container meeting the said requirements of the present invention, however all previous efforts have resulted either, in an extruded aluminum cup devoid of the protecting chine, or in an extruded aluminum tube secured ot a separate bottom piece by means of a double seam and thereby returning to a multi-piece container of conventional structure.

In the drawings I have shown a container of ordinary proportion, being an elongate can of cylindrical cross section and having disc-shaped top and bottom ends. Although the usual can is encumbered with a longitudinal joint or seam, the instant container is not so encumbered, being fabricated of one piece or a single integral body of material which also forms one of the heads, preferably the bottommost head. However, the said container hereinafter disclosed nevertheless has all of the necessary features to be found in the rather heavy seamed cans with separate bottom ends joined to the body of the can by a double seam. As it is illustrated, the instant one-piece container involves, generally a single mono-shell S with a body B and an end C joined to said body at a bead or chine A.

It is significant that the single mono-shell S is an article fabricated of one piece of material, preferably of aluminum that can be readily impact extruded, and that the elements thereof including the body B, end C and chine A are integrally formed and established of one body of material. For instance, the process of either forward or backward extrusion can be practiced to this end, preferably the latter, in which case a blank of metal such as aluminum or the like having the proper selected volume for the intended container is inserted into a. set of or sets of dies, whereupon said dies are moved relative to each other in order to extrude a portion of the said blank and thereafter press the same into the desired configuration.

In FIG. 1 f the drawings I have shown, for one example, a fragment of a piece of canning machinery E, namely a part of the carrier or conveyer that supports and transports the containers that are received thereby, filled, closed and then discharged and conveyed elsewhere. The conveyer 10 is in itself a moving element commonly in the form of a turntable and with a continuous series of container receiving stations 11. The said stations 11 are located at the periphery of the conveyer 10 and face radially outward in order to receive containers delivered to the conveyer tangentially. Further, each of said stations 11 is characterized by means 12 to engage the head or chine of the container, at the bottom end thereof, whereby said containers are captured in place on the conveyer 10. Typically, said means 12 is a semicircular pocket that comprises an arcuate laterally disposed channel having a bottom 13 faced toward the periphery of the conveyer and with a flange 14 overlying the surface 15 of the conveyer a distance to receive the head or chine A of the container. With the conveyer 10 and its stations 11 as described generally above and as clearly illustrated in FIG. 1 of the drawings it should be apparent and clear wherein the bead or chine A is a necessity for example to hold the container and to permit the upward withdrawal forces that are necessarily imposed in said canning machinery.

In FIG. 2 of the drawings I have shown a cross section of the completed one-piece container fabricated as a mono-shell S, in FIG. 3 I have shown the chine A which characterizes the one-piece container of the present invention. A comparison of these three figures shows that the chine A presents a cross-sectional configuration substantially the same as or equivalent to the cross-sectional configuration of the double seam or bead at the top rim of the container.

The body B in the case illustrated is cylindrical and in practice it is extruded to have a substantially uniform Wall thickness of approximately .010 of an inch, for example. The said body B has, therefore, inner and outer diameters 20 and 21 that project upward from the end C to terminate in a plane and open end 11 normal to the longitudinal axis of the container. In practice, the plane end 22 is flared outwardly, as shown, for the reception of the lid 25 which is to be applied in the usual manner.

The lid 25, which forms no part of this invention, but which is to be compared with the chine A, comprises the usual double seam wherein the body B and lid 25 each overlap the other. The said seam is constructed vertically in the direction of the body walls, the said body being turned back while the marginal portion of the lid 25 wraps around 360 and beneath the turned-back edge of the body. This seam as briefly described is conventional and presents a radial enlargement commonly referred to as a bead or rim and which normally projects radially three times the thickness of the wall of the body and extends vertically about Vs of an inch. It is significant that the usual pairs of like or identical beads are relied upon for straight rolling of the container for conveying purposes, and they are relied upon to space the containers in the packaging and to prevent defacing of labels on the bodies B.

The end C is the bottom end of the one-piece container, the configuration of which can vary so as to withstand fluid pressure applied from within the container. In practice, the end C is concavo-convex, being concaved into the body B so as to withstand increased internal pressures. Further, the marginal portion of the end C is widened coincidently with the end plane of the container at 3-2 where it presents a substantial area for supporting engagement of the container.

In accordance with this invention, I have provided a one-piece article with said juncture at 32 of enlarged proportion in comparison with the body B thereof, however, this is accomplished without encumbering the container. That is, the wall of the container can remain unaltered as it continues out of the bottom C and into the body B, and thus there is no significant change in body structure. In order to establish the chine A the juncture of the body B and bottom C is enlarged radially at 32 so as to protrude beyond the body wall 21. It is to be understood that the portion 32 can be enlarged to any desired dimension as circumstances require. The flat marginal bottom 35, as it is shown, provides support for the container.

With the mono-shell S fabricated as hereinabove described the chine A is formed from the one-piece container intermediate the end C and body B in order to enlarge the container at this point of joinder, to thereby afford a protruding and protecting portion for supporting engagement upon a surface, and to present a radial protrusion for cooperative engagement in and with canning machinery and to provide spacing for conveying and packaging. The one-piece container as it is disclosed hereinabove is durable and not subject to breakage or leakage at the sharp angular juncture or point of joinder, and above all the container is conventional in every other required respect and is suitable for handling in the usual manner and is therefore adaptable to be handled by the conventional and accepted highly developed machines referred to above. Further, all seams and joints are eliminated in the body B and end C, and therebetween, by means of the method of manufacture. However, the added formation of the chine A results in an extremely practical and utilitarian article of manufacture, without which the article would be practically useless for the purpose intended.

Having described only a typical preferred form and application of my invention, I do not wish to be limited or restricted to the specific details herein set forth, but Wish to reserve to myself any modifications or variations that may appear to those skilled in the art and fall within the scope of the following claim:

Having described my invention, I claim:

An article of manufacture comprising a seamless, cylindrical container of circular cross section having integral side and bottom walls of uniform thickness; and being formed by the bottom wall and a top end, the bottom wall being formed with a central concave shape as viewed externally from the bottom end thereof to provide added strength for withstanding internal pressures, the central concave shape being surrounded by a flat annular bottom surface perpendicular to the longitudinal centerline of the container and extending outward at least to approximately the plane of the side Wall; a top secured to the side wall and closing off the top end of the container, the top and the side wall forming a bead adjacent the top end of the container and extending completely around the top end, the bead projecting radially outwardly from the side wall for a predetermined distance relative thereto and terminating in an annular 20 flat surface parallel to the longitudinal axis of the container; a chine formed at the juncture of the side and bottom walls, extending around the bottom end, and projecting radially outwardly from the side wall the predetermined distance whereby the bead and chine have equal outer diameters, the chine also terminating in an annular flat surface parallel to the longitudinal axis of the container so that the container may be rolled in a straight line across a flat surface and may be held by the chine in automatic handling apparatus during manufacturing and filling thereof.

References Cited by the Examiner UNITED STATES PATENTS 360,993 4/ 1887 Brown. 590,907 9/ 1897 Pendleton. 984,173 2/ 1911 Weber.

THERON E. CONDON, Primary Examiner.

J. B. MARBERT, Assistant Examiner.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US360993 *Apr 12, 1887 William henry brown
US590907 *Jan 11, 1897Sep 28, 1897The Pendleton Manufacturing CompanyInvestor
US984173 *Aug 5, 1908Feb 14, 1911American Can CoProcess of making seamless-body cans.
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3690507 *Apr 28, 1970Sep 12, 1972Continental Can CoProfiled bottom wall for extruded and wall ironed cans
US3693828 *Jul 22, 1970Sep 26, 1972Crown Cork & Seal CoSeamless steel containers
US3730383 *Jul 29, 1971May 1, 1973Aluminum Co Of AmericaContainer body and a method of forming the same
US3904069 *Oct 25, 1973Sep 9, 1975American Can CoContainer
US3912109 *Nov 15, 1973Oct 14, 1975American Can CoMetal container and method for making same
US4049122 *Oct 21, 1974Sep 20, 1977Maxwell Earl GNestable non-corrosive container for pressurized beverages and processes for manufacture and handling thereof
US4134510 *Feb 9, 1977Jan 16, 1979Owens-Illinois, Inc.Bottle having ribbed bottom
US4264017 *Aug 20, 1979Apr 28, 1981American Can CompanyContainer shape
US4387828 *Oct 2, 1981Jun 14, 1983Yates Jr GeorgePlastic container and lid
US4646930 *Jun 16, 1982Mar 3, 1987American Can Co.Bottom profile for a seamless container body
US4953738 *Feb 19, 1988Sep 4, 1990Stirbis James SOne piece can body with domed bottom
US5014536 *Feb 21, 1986May 14, 1991Weirton Steel CorporationMethod and apparatus for drawing sheet metal can stock
US6318583Mar 14, 2000Nov 20, 2001United States Can CompanyBeaded container
US6510967Jun 29, 1999Jan 28, 2003Chase Products CompanyErgonomic aerosol dispensing system
US7866128Feb 5, 2007Jan 11, 2011The Procter & Gamble CompanyContainer bottom and methods
US7942283 *Mar 9, 2004May 17, 2011Marc RadowDispenser assembly
US8061111Dec 1, 2010Nov 22, 2011The Procter & Gamble CompanyContainer bottom and methods
US20080190939 *Apr 21, 2006Aug 14, 2008Cyril MarionCombustion Gas Cartridge for Gas Fastening Device
WO2002098744A2 *Nov 13, 2001Dec 12, 2002Procter & GambleContainer bottom, container and methos of loading a plurality of articles in a container
WO2009115760A2 *Mar 10, 2009Sep 24, 2009ImageneContainer for receiving and storing biological material, especially dna
Classifications
U.S. Classification220/608, D09/503
International ClassificationB65D1/16, B65D1/00
Cooperative ClassificationB65D1/165
European ClassificationB65D1/16B