Patent Application
20170081078
The present invention relates to a nesting bowl utilized in a set of nesting bowls, and which provides novel advantages by permitting the removal of individual nesting bowls from a nested, stacked configuration in a manner not possible, heretofore.
Various designs of nesting bowls have been fabricated and sold through the years. Sets of nesting bowls provide many advantages for chefs, and every day cooks because these sets of nesting bowls, in their stacked and stored configuration, provide a range of bowl sizes which can facilitate the preparation of a meal, and which further minimizes the amount of space for storing such a range of bowl sizes in a kitchen or other cooking environment.
Typically, when a set of nesting bowls are stored, it is often difficult to remove smaller-sized nesting bowls from the stored, and nested configuration without placing one's hand within the smaller-sized nesting bowl in order to facilitate its removal. The prior art nesting bowls, and the typical means for removing a smaller-sized nesting bowls, are seen in
While most chefs, and other cooks recognize that this contamination sometimes occurs. Oftentimes, in the rush to complete the preparation of a meal, or a given course during a meal, this second washing or cleaning of the internal cavity of a removed nesting bowl often is overlooked, or ignored. This is undesirable, inasmuch as contamination in the form of germs; and other food debris, and which might possibly cause an adverse allergic reaction for an individual consuming the meal, Obviously these problems should be avoided if at all possible.
A nesting bowl, and nesting bowl combination which avoids the problems associated with the prior art, and the practices associated with the prior art nesting bowls that have been utilized, heretofore, is the subject matter of the present patent application.
A first aspect of the present invention relates to a nesting bowl having a main body which has a top peripheral edge, and an interior facing surface which defines an internal cavity, and which further has a given shape and size, The main body has a circumscribing flange which is made integral with the top, peripheral edge, and which further extends laterally outwardly therefrom. An annular channel having variable dimensions is defined by the interior facing surface, and which is located near the top, peripheral edge thereof, and wherein the main body of the nesting bowl matingly cooperates with a second nesting bowl which has similar features, and which is either of a greater or lesser size than the first mentioned nesting bowl. The first mentioned nesting bowl, and the second nesting bowl, when disposed in a nested relationship, are located so that the circumscribing flange of each are oriented in a coplanar orientation, one relative to the other. An application of a downwardly directed force to the circumscribing flange of a smaller, innermost oriented nesting bowl is effective in moving the circumscribing flange of the innermost oriented, and smaller-sized nesting bowl, into an elevated, angular orientation relative to an outermost oriented, and larger-sized nesting bowl so as to assist in the removal of the innermost oriented, and smaller-sized nesting bowl from the outermost oriented, and larger-sized nesting bowl.
Still another aspect of the present invention relates to a nesting bowl which includes a main body defined by an exterior facing surface, and an opposite, interior facing surface, and wherein the exterior facing surface of the main body defines a base portion which is operable to support the main body of the nesting bowl in a predetermined orientation on an underlying supporting surface, and which further has a top, peripheral edge, and wherein the main body further has a circumscribing flange which is disposed in spaced relation relative to the base portion, and which is further disposed in a substantially coplanar orientation relative to the top, peripheral edge, and wherein the interior facing surface of the main body defines an internal cavity having a given volume, and shape, and wherein an annular channel is formed in the interior facing surface of the main body, and is further located in juxtaposed relation relative to the circumscribing flange, and the top peripheral edge, and wherein the annular channel is dimensioned to matingly, and operably cooperate with a circumscribing flange of a second, and smaller nesting bowl, and which is matingly nested within the internal cavity of the main body.
These and other aspects of the present invention will be discussed in greater detail hereinafter,
This disclosure of the invention is submitted in furtherance of the constitutional purposes of the U.S. Patent Laws “to promote the progress of science in useful arts” [Article 1, §8].
The nesting bowl and nesting bowl combination of the present invention is generally indicated by the numeral 10 in
Referring now to
The larger-sized nesting bowl 20, and smaller-sized nesting bowl 21 each have a circumscribing flange which is generally indicated by the numerals 40A and 40B, respectively. The circumscribing flange 40A, as illustrated in
As best seen in
As best seen by a study of
The operation of the described embodiment of the present invention 10 is believed to be readily apparent, and is briefly summarized at this point.
In its broadest aspect the present invention 10 relates to a nesting bowl 20 and which includes a main body 22A which has a top peripheral edge 26A, and an interior facing surface 24A. The interior facing surface defines an internal cavity 27A, The internal cavity 27A further has a given shape and size. The main body 22A further has a circumscribing flange 40A which is made integral with the top, peripheral edge 26A, and which further extends laterally outwardly therefrom. It should be understood that an annular channel 60A, having variable dimensions, is defined by the interior facing surface 24A, and is further located near the top, peripheral edge 26A thereof. The main body 22A of the nesting bowl 20 matingly cooperates with a second nesting bowl 21, and which has similar features, and which further is either of a greater or lesser size than the first mentioned nesting bowl 20. The first mentioned nesting bowl 20, and the second nesting bowl 21, when disposed in a nested relationship are oriented so that the circumscribing flanges 40A and B, respectively, of each, are located in a coplanar orientation, one relative to the other. As seen in
In the arrangement as seen in the drawings, the main body 22 of the present invention 10 is generally semi-hemispherical in shape, and the circumscribing flange 40 extends substantially radially, outwardly with respect to the top peripheral edge 26 thereof. The circumscribing flange 40 has a predetermined diametral dimension which allows the nesting bowl 21 to be received in a nesting or stored relationship within the internal cavity 27A of another, larger-sized nesting bowl 20. It should be appreciated that the annular channel 60A or B of the larger-sized nesting bowl 20 is dimensioned to matingly and operably cooperate with the circumscribing flange 40B of the second smaller-sized nesting bowl 21, and which further is inwardly oriented relative thereto, and matingly received within the internal cavity 27A of the larger-sized nesting bowl 20. It should also be understood from the drawings, that the annular channel 60 has a substantially uniform depth dimension 61A and B, and a variable width dimension 62A and B when measured along a length dimension of the annular channel 60A and B. It will be appreciated from the drawings that the top peripheral edge 26A and B is circular in shape, and the main body 22A and B has opposite sides. In the arrangement as seen in the drawings, the annular channel 60A and B has a maximum width dimension which is oriented in predetermined locations which are on the opposite sides of the main body 22A and B. In this arrangement, the annular channel 60A and B has a minimum width dimension 64A and B, and which is oriented in predetermined locations which are on opposite sides of the main body, and which are further oriented at locations which are about 90° offset from the locations which have the maximum width dimension 63A and B.
The nesting bowl 10 of the present invention, and more specifically the main body 22A of the larger-sized nesting bowl 20, when measured in the region of the annular channel 60A, thereof, is greater than the outside diametral dimension of the circumscribing flange 40B, of the smaller-sized nesting bowl 21, and which is oriented inwardly relative thereto, and which is further matingly received within the internal cavity 27A of the outermost oriented and larger-sized nesting bowl 20. In the arrangement as seen in the drawings, the visibly discernable indicia 43A and B, respectively, are oriented on each of the circumscribing flanges 40A and 40B, of the respective nesting bowls 20 and 21, and is further oriented adjacent to the location of the annular channel 60A and B, respectively, of the nesting bowls 20 and 21, and which has the maximum width dimension 63A and B, As will be appreciated from a study of
As earlier discussed, the circumscribing flanges 40A and B of the respective nesting bowls 20 and 21, respectively, each have a top, and an opposite bottom surface 41 and 42, A and B, respectively. It should be understood that the bottom surface 42B of the circumscribing flange 40B, of the smaller-sized, and innermost located nesting bowl 21, rests in contact with a location of the annular channel 60A of the outermost located, and larger-sized nesting bowl 20, and which has the minimum width dimension 64A. In this arrangement the downwardly directed force 70 rocks the innermost, and smaller-sized nesting bowl 21 about the minimum width location 64A, of the annular channel 60A of the outermost oriented and larger-sized nesting bowl 21. As should be appreciated from the drawings, the innermost and smaller-sized nesting bowl 21 is spaced from the interior facing surface 24A of the outermost and larger-sized nesting bowl 20 when the respective nesting bowls 20 and 21 are nested together, and the respective circumscribing flanges 40A and 40B, are disposed in a coplanar orientation, one relative to the other. It should be appreciated, that the width dimension 62, of the annular channel 60A and B, respectively, gradually diminishes when the annular channel is measured in a direction extending from the location having the greatest width dimension 63A or B, to the location which has the minimum width dimension 64A or B.
Therefore, it will be appreciated that the present invention provides many advantages over nesting bowl configurations which have been utilized, heretofore. In particular, the present invention provides a convenient means for allowing a user to remove a smaller nesting bowl from the internal cavity of a larger nesting bowl without the need for inserting the fingers or hand of the user into the internal cavity thereof, and thereby contaminating the internal cavity with germs, food debris and the like.
In compliance with the statute the present invention has been described in language more or less specific as to structural and methodological features. It is to be understood, however, that the invention is not limited to the specific features shown and described since the means herein disclosed comprise preferred forms of putting the invention into effect. The invention is, therefore, claimed in any of its forms or modifications within the proper scope of the appended claims appropriately interpreted in accordance with the Doctrine of Equivalence.
