The invention relates generally to a container for a product, and particularly to containers adapted for automated handling.
The prior art includes reclosable screw top jars within which spreadable foods are contained, e.g., containers for foods such as mayonnaise, Miracle Whip® dressing, other viscous dressings, jams, jellies, nut butters and spreads. Such containers are intended to permit insertion of a knife, spoon or other utensil into the container. In providing a container for this type of product, among the considerations that must be addressed are the ability of the container to receive food product in high-speed commercial filling operations; the degree of difficulty that will be encountered by the consumer in removing product from the container; the ability of the container to withstand various loads, such as stacking loads, during filling, sealing, shipping, display, and consumer use; the ability of the container to be packed efficiently among like containers; the cost of manufacture of the container; the ability of the container to exclude air to enable acceptable shelf life to be maintained, and the costs and difficulty associated with forming, filling and sealing the container. It is also important that containers of this type be aesthetically pleasing where they are intended to be displayed for commercial sale to consumers in grocery stores and/or other retail establishments.
One container that addresses the above considerations is described in U.S. patent application Ser. No. 09/579,661. This container has many advantages over prior art containers, but is thought to be susceptible to label damage and/or destabilization under certain circumstances, as explained below.
In high-speed commercial filling operations containers are often placed on a conveyor, directed to a filling station and a labeling station, then discharged from the conveyor. Often, when filled and labeled containers are discharged from the conveyor they are randomly oriented on a table or other surface where adjacent containers contact each other. This contact may damage the labels and destabilize the containers. Accordingly, it is a general object of the invention to provide a container that offers the advantages of the container described and shown in application Ser. No. 09/579,661, while also providing improved label protection and stability.
Another aspect of the invention relates to providing a container with improved handling and dispensing capabilities. Containers, in particular containers for a semi-liquid or food product, may be used in an environment where slippery material may be on the user's hands and/or the container, which may render the container difficult to handle. It is desirable to have containers sized and shaped to facilitate handling and product removal.
The invention provides a container that is uniquely configured to facilitate handling and dispensing of a spoonable product using a spoon, knife or other utensil, and that can be filled and labeled using automated machinery without label damage or instability.
In a preferred embodiment of the invention, the container is formed of a lightweight, inexpensive plastic material such that the container is capable of inexpensive mass production, and is suitable for sale as a disposable container for a product. The container may be formed using any suitable manufacturing technique, such as blow molding techniques.
The container preferably comprises a body having a bottom wall, a pair of upstanding and opposing side walls, and a pair of upstanding and opposing end walls. Opposite the bottom wall is an opening permitting access to an interior of the container defined by the bottom, side, and end walls.
The container body has an upper end, a lower end, and a mid section therebetween. The mid section of the container body may have one or more surfaces suitable for attachment of a label thereto. The label surfaces may be on one or both of the side walls, and on one or both of the end walls. The label surfaces may also extend between adjacent walls. The label may contain indicia allowing for ready identification of the contents of the container or the brand of the product within the container. The label may also be designed to provide visual appeal to the label and the container.
The upper and lower ends of the container body may have a greater cross-section than that of the mid section. The greater cross-section of the upper and lower ends may result in their protuberance beyond the mid section, and particularly beyond the label surface of the mid section. When the container abuts against similar containers, the protruding upper and lower ends of the containers may abut against each other and prevent the label surfaces from abutting. The upper and lower container ends may also be configured to reduce tipping or tilting of the container when forced against similar containers, thereby increasing the stability of the container.
The opening may be sized to be about the same or larger than the cross-section at the mid section of the container body to provide an large opening adapted for insertion of a utensil. The opening also may be oblong, having a length and a depth corresponding the side wall length and end wall length at the mid section. The container may also be sized to permit a user to grasp the container by the opposing sidewalls. The dimensions of the container may also be selected to allow the container to be placed in a typical storage shelf in a refrigerator door.
In order to facilitate handling of the container, a gripping feature may be formed on one or more of the walls. The gripping feature may comprise a ridge formed in the upper end of the container body, and in particular a crescent-shaped ridge, formed on at least one of the walls. The gripping feature may also comprise a pattern of small projections, depressions, or the like, and may be formed on at least one of the walls beneath the crescent-shaped ridge. The change in cross-section between the upper end and the mid section of the container body may also facilitate gripping of the container by a user. Similarly, the change in cross-section between the lower end and the mid section of the container body may facilitate gripping of the container.
To provide structural rigidity to the container, one or more of the walls may comprise at least a portion having an arcuate shape. The arcuate shape may be effective to provide strength to the container when abutting against other container or during filling, packaging, or other handling operations. The arcuate shape may also provide visual appeal and reduce the deformation of one or more of the container walls when a vacuum is present within the container.
To selectively permit access to the interior of the container, a lid may be secured over the opening. The lid may have an oblong shape roughly corresponding to that of the container to permit simplified insertion of a utensil for removing product. To this same end, the lid may also have a cross-section or exterior dimension about the same as or larger than the cross-section or exterior dimension of the mid section of the container body. The lid may comprise a base portion attached to the container and a hinged portion pivotably attached relative to the base portion. A clasp may be provided between the hinged and base portions of the lid to secure the lid in a position preventing access to the interior of the container. The base portion may also include a wiping feature allowing for wiping of a utensil thereagainst.
In accordance with embodiments of the invention, a container 10 is provided that can be filled and labeled using automated machinery and is configured to reduce damage to a label 60 attached thereto without causing the container 10 to become unstable when abutting against similar containers 10.
As illustrated in
The mid section 24 of the container body 20 has surfaces for attachment of labels 60, as illustrated in
The mid section 24, the body upper end 22, and the body lower end 26 each have a cross-sectional dimension. The cross-sections of the upper and lower body ends 22 and 26 are each larger than the cross-section of the mid section 24 and protrude significantly therebeyond. The protruding portions are disposed on each of the side walls 40 and the end walls 50. The larger cross-sections of the upper and lower ends 22 and 26 of the body 20 are configured to reduce damage to labeling 60 on the mid section 24 while maintaining product stability.
As illustrated in
Likewise, when the side walls 40 of adjacent containers 10 abut, only the upper ends 22 and lower ends 26 are in contact. As illustrated in
In addition to protecting the label surfaces, the enlarged base 26 provides increased stability. The base 26 and the upper end 22 preferably have about the same length and width, but the base 26 has longer diagonals. That is, corners 43 of the base 26 protrude horizontally beyond both the mid section 24 and the upper end 22 of the container 10, as shown in
Moreover, the greater cross-sections of the upper and lower ends 22 and 26 reduce or eliminate tilting, shingling, and toppling of the container 10 when contacted by adjacent containers 10, thereby reducing or eliminating during automated handling harm to labels 60, mishandling of the containers 10, and other undesirable results. In particular, when the upper and lower ends 22 and 26 protrude beyond the respective walls 40 and 50 an approximately similar or preferably identical distance, container tilting due to contact by similar and adjacent containers 10 is minimized.
As illustrated in
In addition to protecting the label surfaces and improving stability, the configurations of the upper and lower ends 22 and 26 facilitate handling of the container. In particular, the transition between the upper end 22 and the mid section 24 of the container body provide a change in the contour of the body 20 that facilitates gripping thereof by a user. Similarly, the transition between the lower end 26 and the mid section 24 facilitates gripping by a user. The user may hold the container 10 by the bottom, with the user's fingers engaging one side and thumb engaging the other in the transition regions where angled base surfaces 47 and 49 meet the side walls 40 of the mid section 24 at obtuse angles.
Gripping by a user is also enhanced by providing gripping features 42 in the form of protuberances in the container body 20, as illustrated in
To provide structural rigidity to the container 10, portions of the side and end walls 40 and 50 are arcuate. For example, the mid section 24 of the side walls 40 have a slight arcuate contour, as illustrated in
Opposite the bottom wall 30 and in the upper end 22 of the container body 20 is an opening 28 permitting access to the interior of the container 10. The opening 28 has an oblong shape, roughly corresponding to the perimeter of the container 10. The opening 28 is sized about the same or larger than the container mid section 24. The size and shape of the opening 28 is selected to facilitate insertion of a utensil into the container body 20 for product removal.
A lid 70 is secured over the opening 28 and permits selective access to the interior of the container 10 and thus any contents therein. The exterior dimensions of the lid 70 are larger than the exterior dimensions of the container mid section 24, and are selected to be approximately flush with the upper end 22 of the container 10. The size and dimensions of the lid 70 are selected to allow for insertion of a utensil into the container 10 for product removal, while maintaining visual appeal.
The lid 70 comprises a base portion 72 secured to the container body 20 and a hinged portion 74 pivotable about a hinge 76 relative to the base portion 72 for allowing access to the interior of the container 10. The base portion 72 also includes a wiping feature 78, providing a convenient location for a utensil to be scraped to removed product therefrom, thereby retaining product within the container interior, or at least coverable with the hinged portion 74 of the lid 70, as illustrated in
A clasp feature 80 is provided to secure the hinged portion 74 relative to the base portion 72, as illustrated in
To further provide for improved gripping of the container 10 by a user, the dimensions of the end walls 50 are selected to allow a user to grasp both side walls 40 of the container. The container is be oblong, having side walls 40 with a greater dimension than the end walls 50. For example, the ratio of the length of the side walls 40 to the end walls is about 3:2.
The dimensions of the container 10 are selected to allow for placement within a doorway shelf or compartment of a typical refrigerator, particularly suitable when the contents of the container 10 are a perishable food product such as mayonnaise. The container 10 is sized to contain between approximately 24 and 48 ounces of mayonnaise or other product, and preferably about 32 ounces of product. The dimensions of the opening 28 are selected to facilitate insertion of utensil into the interior of the container 10, and for product removal. Although particular dimensions and ratios are described, other suitable dimensions and ratios are contemplated and considered to be within the scope of the invention.
The container 10 is preferably formed of an inexpensive polymer suitable for mass production, such as polyethylene terepthalate (PET) or another food-grade plastic. The material may be clear to allow the amount of product remaining in the container 10 to be determined without requiring the lid 70 to be opened.
As shown in
As shown in
In accordance with a method of the invention, the above-described container 10 may be handled using automated machinery. The container 10 may be placed on a conveyor and directed to a filling station where product is loaded into the container 10. The container 10 may also have labels 60 placed thereon. The container 10 may then be unloaded from the conveyor and placed on a holding table or other surface. The unloading may be semi-random, wherein multiple containers 10 are present in a variety of different orientations with the enlarged bases 26 of the containers 10 adding to their stability. To protect the labels 60 from damage due to adjacent containers 10, the protruding upper and lower ends 22 and 26 of the container body 20 protect the mid section 24 thereof from contact by adjacent containers. Additionally, the protruding upper and lower ends 22 and 26 abut against similarly protruding upper and lower ends 22 and 26 of like containers 10, as illustrated in
From the foregoing, it will be appreciated that the invention provides a method and apparatus for a container that can be filled and labeled using automated machinery and is configured to reduce damage to a label attached thereto without causing the container to become unstable when abutting against similar containers. The invention is not limited to the aspects and embodiments described hereinabove, or to any particular embodiments. Various modifications to the container and method of use will result in substantially the same invention.
Number | Date | Country | |
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Parent | 10153077 | May 2002 | US |
Child | 11103331 | Apr 2005 | US |