Beverage, food and aerosol containers are commonly comprised of metal. Metal containers may take several forms such as a drinking cup, can, bottle, or aerosol. Metal containers may be manufactured by several methods including: drawing, drawing and ironing, draw reverse draw, drawing and stretching, deep drawing, 3-piece seaming, and impact extrusion. Metal containers may be finished in many different ways including curling, flanging, threading, seaming, etc.
A method of manufacturing a double-walled container comprises providing a first container having a diameter X; providing a second container having a diameter Y, wherein the diameter Y is larger than the diameter X; inserting the first container into the second container; and interlocking the first container and the second container. In some embodiments, interlocking the first container and the second container comprises expanding the diameter X of a portion of the first container and narrowing the diameter Y of a portion of the second container. In some embodiments, the diameter Y of a portion of the second container expands as the diameter X of a portion of the first container is expanded. In some embodiments, interlocking the first container and the second container comprises expanding the diameter X of a portion of the first container and curling a top edge of the first container. In some embodiments, a top edge of the second container is curled as the top edge of the first container is curled. In some embodiments, interlocking the first container and the second container comprises expanding the diameter X of a portion of the first container and double-seaming a top edge of the first container. In some embodiments, a top edge of the second container is double-seamed as the top edge of the first container is double-seamed. In some embodiments, interlocking the first container and the second container comprises narrowing the diameters of a portion of the first container and a portion of the second container. In some embodiments, a gap lies between a portion of the first container and a portion of the second container. In some embodiments, an opening of the double-walled container is narrowed to accept a closure. In some embodiments, the first container and/or the second container have ribs.
A double-walled container comprises an inner container; and an outer container wherein the inner container and the outer container are interlocked. In some embodiments, a diameter of a top portion of the outer container has been narrowed. In some embodiments, a diameter of a portion of the inner container has been narrowed. In some embodiments, a diameter of a portion of the inner container has been expanded. In some embodiments, a diameter of a portion of the outer container has been expanded. In some embodiments, the first and/or second containers have ribs. In some embodiments, a gap lies between a portion of the first container and a portion of the second container. In some embodiments, a top edge of the first container is curled. In some embodiments, a top edge of the first container is formed to accept a closure.
In the following detailed description of the preferred embodiments, reference is made to the accompanying drawings which form a part hereof, and in which are shown by way of illustration specific embodiments in which the invention may be practiced. It is to be understood that other embodiments may be utilized and structural changes may be made without departing from the scope of the present invention.
In one embodiment of the invention, a method of manufacturing a double-walled container comprises providing a first container having a diameter X; providing a second container having a diameter Y, wherein the diameter Y is larger than the diameter X; inserting the first container into the second container; and interlocking the first container and the second container so that the first and second containers form a single double-walled container. Interlocking the first container and the second container means securing the first container at least partially inside of the second container to prevent axial movement of the first container relative to the second container. When the containers are interlocked, they still may rotate relative to one another. The first container does not need to be completely encompassed by the second container as will be shown in certain examples herein.
In some embodiments, interlocking the first container and the second container may comprise expanding the diameter X of a portion of the first container and narrowing a portion of the second container along with an expanded portion of the first container. In some embodiments, the portion of the second and/or first container that is narrowed is a smaller portion than the portion that had been expanded. In some embodiments interlocking the first container and the second container may comprise expanding the diameter X of a portion of the first container and curling or seaming the top edges of both containers or of the first container. Any other appropriate methods of finishing the edges or forming the opening of the double-walled container to accept a closure may be used.
In some embodiments, interlocking the first container and the second container comprises narrowing the diameter Y of a portion of the second container and curling or seaming the top edges of both containers or of the first container. In some embodiments, interlocking the first container and the second container comprises narrowing the diameter Y of a portion of the second container and narrowing the diameter X of a portion of the first container.
Three examples of double-walled containers formed in accordance with embodiments of the invention are shown in
Referring now to
In other embodiments, a lower or middle portion of the first and/or second containers may be expanded and/or narrowed.
In another embodiment of the invention, a method of manufacturing a double-walled container comprises providing a first container having a diameter X; providing a second container having a diameter Y, wherein the diameter Y is larger than the diameter X; inserting the first container into the second container; and narrowing a top portion of the second container. In some embodiments in which the second container is narrowed a knockout is used in the narrowing process. In some embodiments, the second container may be necked, using a knockout, to a diameter just slightly larger than the first container, the first container is then placed inside the second container and then a knockout is placed inside the first container and both the first and second containers are necked together.
In some embodiments of the invention the first and second containers start out having the same diameters. In some embodiments, the step of providing a second container having a diameter Y comprises providing a second container having a diameter having a diameter Z and expanding the second container to the diameter Y. The diameter Z may equal the diameter X, or Z may be a different diameter than X. In some embodiments the step of providing the first container having a diameter X comprises providing a first container having a diameter W and narrowing the first container to a diameter X. The diameter W may equal to the diameter Y or W may be a different diameter than Y.
In some embodiments, the sidewalls of the first and second containers are straight, i.e. have a substantially uniform diameter at the beginning of the process, as shown, for example, in
Referring now to
As can be seen in
In some embodiments, expanding the diameter X of a portion of the first container comprises inserting an expansion die, examples of which are shown in
The number of expansion dies used to expand the double-walled container to a desired diameter without significantly damaging the container is dependent on the degree of expansion desired, the material of the container, the hardness of the material of the container, and the sidewall thickness of the container. For example, the higher the degree of expansion desired, the larger the number of expansion dies required. Similarly, if the metal comprising the container has a hard temper, a larger number of expansion dies will be required as compared to expanding a container comprised of a softer metal the same degree. Also, the thinner the sidewall, the greater number of expansion dies will be required. Further, when expanding a coated container, a gradual expansion will help to maintain the integrity of the coating. Alternatively, a container may be expanded before coating.
Referring again to expansion dies 60 and 70 of
In some embodiments, a top edge of the first container is curled. In some embodiments, the curling may be done after first inserting an expansion die at least partially into the first container and expanding a top portion of the first container, and possibly the top portion of the second container also. In some embodiments the top edge of the second container is curled also. In some embodiments, when the curl is toward the inside of the double-walled container, the top edge of the second container is curled over top of, or along with, the top edge of the first container. In some embodiments, when the curl is toward the outside of the double-walled container, the top edge of the first container is curled over top of, or along with, the top edge of the second container. An example of a curl on the double-walled container can be seen in
In some embodiments, the top edges of the first container and the second container are flanged and seamed along with a closure or just the top edge of the first container is flanged and seamed along with a closure. Any appropriate flanging and seaming method may be used. An example of a double-walled container 100 having a flanged and seamed top edge 101 and closure 102 can be seen in
In some embodiments, wherein a portion of the first and/or second containers is narrowed the narrowing can be accomplished via die necking, spin necking or any suitable method. The diameter of the narrowed portion of the double-walled container may be less than, equal to, or greater than diameter X. In some embodiments, the distance from the top edge of the double-walled container where it is narrowed is less than the distance from the top edge of the container where it is expanded. In some embodiments, the double-walled container is necked in several steps with several different necking dies. In other embodiments, the double-walled container is necked with only one necking die. Any appropriate necking die(s) known in the art may be used. In some embodiments the double-walled container may be necked so that it takes the shape of a bottle or a beverage can. In some embodiments, after the double-walled container is narrowed, a portion of the container is expanded until a desired shape is attained. The double-walled container can be repeatedly necked and expanded until a desired shape is achieved. A double-walled container wherein the top portions of the first and second containers were interlocked by narrowing top portions of the first and second containers is shown in
In some embodiments the first container has a different height than the second container. In
Necking an expanded double-walled container formed in accordance with some embodiments of the invention to a diameter greater than or equal to the first container's original diameter X does not require the use of a knockout because the first container's sidewall is in a state of tension following expansion. In some embodiments, a knockout can be used when necking the container.
In some embodiments, following the final expansion or necking step, the open end of the double-walled container is formed to accept a closure. Any appropriate method of forming to accept a closure may be used including forming a flange, curl, thread, lug, attach an outsert and hem, or combinations thereof. Any appropriate method of threading or forming a lug may be used. Any suitable closure may be used, including but not limited to, standard double-seamed end, full-panel easy-open food end, crown closure, plastic threaded closure, roll-on pilfer proof closure, lug cap, aerosol valve, or crimp closure.
In some embodiments, the first container, the second container or both containers are ribbed, as shown in
Embodiments of the invention may be used in conjunction with any container capable of being expanded and/or narrowed including but not limited to beverage, aerosol, and food containers. The first and second containers provided may be manufactured via any suitable means, including, but not limited to, drawing, draw reverse draw, drawing and ironing, drawing and stretching, deep drawing, 3-piece seamed and impact extrusion. In some embodiments, the container is comprised of aluminum or steel. In some embodiments, the aluminum comprises an alloy, such as Aluminium Association 3104, 3004, 5042, 1060, 1070, steel alloys may also be used. In some embodiments, the alloy has a hard temper, such as H19 or H39. In other embodiments, a softer temper metal is used.
A double-walled container manufactured in accordance with embodiments of the invention can take many shapes, such as pilsner or other drinking container, a beverage can, or a bottle.
Although the present invention has been described in considerable detail with reference to certain versions thereof, other versions are possible. All features disclosed in the specification, including the drawings, and all the steps in any method or process disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive. Each feature disclosed in the specification, including the claims, abstract, and drawings, can be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. Thus, unless expressly stated otherwise, each feature disclosed is one example only of a generic series of equivalent or similar features.
Any element in a claim that does not explicitly state “means” for performing a specified function or “step” for performing a specified function should not be interpreted as a “means or step for” clause as specified in 35 U.S.C. §112.
This application claims priority to U.S. Provisional Patent Application No. 61/075,977, entitled “Method of Manufacturing Containers,” filed on Jun. 26, 2008, which is incorporated herein by reference in its entirety.
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