The following description relates generally to stabilizing mats and stabilizing mat systems.
The arrangement of shelves inside a cabinet structure such as a refrigerator is such that certain shelves accommodate taller item or items that must be kept upright while other shelves provide space for shorter items or items that can be laid down. Beverages such as bottles and cans can be stored inside a refrigerator by placing them on shelves provided in the compartment or shelves provided on the inside of the door. However, when these spaces are not available, the shelves may not be sufficient to accommodate these items in upright positions and simply laying down the beverage items may not be an alternative because such items are often have round surfaces and may become unstable and roll on the storage surface. Thus, there is a need to enable the usage of the height-restricted spaces at a storage area while stabilizing bottles, cans or other round items when they are laid down.
The present invention provides a stabilizing mat and a stabilizing mat system.
In a first example aspect, a stabilizing mat includes a first surface configured to inhibit movement of items placed thereon. The first surface includes a plurality of first parallelogram areas and a plurality of depressions. Each of the first parallelogram areas includes one of the depressions at a center of the first parallelogram area. Each of the first parallelogram areas further includes four first parallelogram corners and four first parallelogram sides. Each of the first parallelogram corners of the first parallelogram areas includes a protruding peak. Each of the protruding peaks is separated from an adjacent one of the protruding peaks by a concavity. Each of the concavities defines one of the depressions. The mat also includes a second surface including a plurality of substantially flat areas configured to rest on a flat foundation to provide support to the items placed on the first surface.
In one example of the first aspect, the depressions are configured to inhibit movement of the items placed on the first surface. In another example of the first aspect, each of the protruding peaks is connected to an adjacent one of the protruding peaks by the concavity. In yet another example of the first aspect, each of the protruding peaks is aligned longitudinally, transversely, and diagonally with respect to adjacent ones of the protruding peaks.
In a further example of the first aspect, the first surface further includes four first surface edges and four first surface corners. Each of the first surface corners includes one of the protruding peaks. Each of the first surface edges includes a plurality of the protruding peaks and a plurality of concavities.
In yet another example of the first aspect, the second surface is further configured to support the items. The protruding peaks are configured to rest on the flat foundation to provide support to the second surface to support the items.
In still another example of the first aspect, the protruding peaks include a first set of the protruding peaks and a second set of the protruding peaks. The first set of the protruding peaks have an elevation that is greater than an elevation of the second set of the protruding peaks.
In an additional example of the first aspect, a midpoint between two of the protruding peaks defines a center of one of the depressions.
In another example of the first aspect, a first one of the concavities between two of the protruding peaks has a first radius of curvature about a first axis. A second one of the concavities between another two of the protruding peaks has a second radius of curvature about a second axis. The second one of the concavities intersects the first one of the concavities. The first axis and the second axis intersect each other.
In yet another example of the first aspect, the second one of the concavities perpendicularly intersects the first one of the concavities. The first axis and the second axis perpendicularly intersect each other.
In still another example of the first aspect, the first axis is parallel to two opposing edges of the first surface. The second axis is parallel to two other opposing edges of the first surface. In an additional example of the first aspect, the first radius of curvature is equal to the second radius of curvature.
In another example of the first aspect, each concavity is configured to separate one of the items placed on the first surface from an adjacent one of the items placed on the first surface. In a further example of the first aspect, each concavity is further configured to separate the one of the items from the adjacent one of the items to allow another one of the items to be supported by the one of the items and the adjacent one of the items.
In yet another example of the first aspect, the mat further includes male connecting sections positioned on two adjacent second surface edges of the second surface. The mat also further includes female connecting sections positioned on two adjacent first surface edges of the first surface. The male connecting sections are positioned on sides of the second surface that oppose sides of the first surface on which the female connecting sections are positioned.
In still another example of the first aspect, the first surface is diagonally offset about the second surface. In an additional example of the first aspect, edges of the first surface are offset from edges of the second surface that are adjacent to the edges of the first surface.
In a second example aspect, a stabilizing mat system includes a first mat including a first surface and a second surface. The first mat first surface is configured to inhibit movement of items placed thereon. The first mat first surface includes a plurality of first mat first parallelogram areas and a plurality of first mat depressions. Each of the first mat first parallelogram areas includes one of the first mat depressions at a center of the first mat first parallelogram area. Each of the first mat first parallelogram areas further includes four first mat first parallelogram corners and four first mat first parallelogram sides. Each of the first mat first parallelogram corners of the first mat first parallelogram areas includes a first mat protruding peak. Each of the first mat protruding peaks is separated from an adjacent one of the first mat protruding peaks by one of the first mat depressions. The first mat second surface includes a plurality of first mat substantially flat areas and first mat male connecting sections. The first mat substantially flat areas are configured to rest on a flat foundation to provided support to the items placed on the first mat first surface. The first mat male connecting sections protrude from and are positioned on two adjacent first mat second surface edges of the first mat second surface.
The stabilizing mat system also includes a second mat including a first surface and a second surface. The second mat first surface is configured to inhibit movement of items placed thereon. The second mat first surface includes a plurality of second mat first parallelogram areas, a plurality of second mat depressions, and second mat female connecting sections protruding from and positioned on two adjacent second mat first surface edges of the second mat first surface. Each of the second mat first parallelogram areas includes one of the second mat depressions at a center of the second mat first parallelogram area. Each of the second mat first parallelogram areas further includes four second mat first parallelogram corners and four second mat first parallelogram sides. Each of the second mat first parallelogram corners of the second mat first parallelogram areas includes a second mat protruding peak. Each of the second mat protruding peaks is separated from an adjacent one of the second mat protruding peaks by one of the second mat depressions. The second mat second surface includes a plurality of second mat substantially flat areas configured to rest on the flat foundation to provided support to the items placed on the second mat first surface. One of the first mat male connecting sections is configured to mate with a corresponding one of the second mat female connecting sections.
In one example of the second aspect, the system further includes a third mat including a first surface and a second surface. The third mat first surface is configured to inhibit movement of items placed thereon. The third mat first surface includes a plurality of third mat first parallelogram areas and a plurality of third mat depressions. Each of the third mat first parallelogram areas includes one of the third mat depressions at a center of the third mat first parallelogram area. Each of the third mat first parallelogram areas further includes four third mat first parallelogram corners and four third mat first parallelogram sides. Each of the third mat first parallelogram corners of the third mat first parallelogram areas includes a third mat protruding peak. Each of the third mat protruding peaks is separated from an adjacent one of the third mat protruding peaks by one of the third mat depressions. The third mat second surface includes a plurality of third mat substantially flat areas and third mat male connecting sections. The third mat substantially flat areas are configured to rest on a flat foundation to provided support to the items placed on the third mat first surface. The third mat male connecting sections protrude from and are positioned on two adjacent third mat second surface edges of the third mat second surface.
The first mat further includes first mat female connecting sections protruding from and being positioned on two adjacent first mat first surface edges of the first mat first surface. The two adjacent first mat first surface edges on which the first mat female connecting sections are positioned are respectively opposed to the two adjacent first mat second surface edges on which the first mat male connecting sections are positioned. One of the third mat male connecting sections is configured to mate with a corresponding one of the first mat female connecting sections.
In another example of the second aspect, the system further includes a fourth mat including a first surface and a second surface. The fourth mat first surface is configured to inhibit movement of items placed thereon. The fourth mat first surface includes a plurality of fourth mat first parallelogram areas and a plurality of fourth mat depressions. Each of the fourth mat first parallelogram areas includes one of the fourth mat depressions at a center of the fourth mat first parallelogram area. Each of the fourth mat first parallelogram areas further includes four fourth mat first parallelogram corners and four fourth mat first parallelogram sides. Each of the fourth mat first parallelogram corners of the fourth mat first parallelogram areas includes a fourth mat protruding peak. Each of the fourth mat protruding peaks is separated from an adjacent one of the fourth mat protruding peaks by one of the fourth mat depressions. The fourth mat second surface includes a plurality of fourth mat substantially flat areas and fourth mat male connecting sections. The fourth mat substantially flat areas are configured to rest on a flat foundation to provided support to the items placed on the fourth mat first surface. The fourth mat male connecting sections protrude from and are positioned on two adjacent fourth mat second surface edges of the fourth mat second surface.
The system further includes a fifth mat including a first surface and a second surface. The fifth mat first surface being configured to inhibit movement of items placed thereon. The fifth mat first surface includes a plurality of fifth mat first parallelogram areas, a plurality of fifth mat depressions, and fifth mat female connecting sections protruding from and positioned on two adjacent fifth mat first surface edges of the fifth mat first surface. Each of the fifth mat first parallelogram areas includes one of the fifth mat depressions at a center of the fifth mat first parallelogram area. Each of the fifth mat first parallelogram areas further includes four fifth mat first parallelogram corners and four fifth mat first parallelogram sides. Each of the fifth mat first parallelogram corners of the fifth mat first parallelogram areas includes a fifth mat protruding peak. Each of the fifth mat protruding peaks is separated from an adjacent one of the fifth mat protruding peaks by one of the fifth mat depressions. The fifth mat second surface includes a plurality of fifth mat substantially flat areas configured to rest on the flat foundation to provided support to the items placed on the fifth mat first surface.
Another one of the first mat female connecting sections is configured to mate with a corresponding one of the fourth mat male connecting sections. Another one of the first mat male connecting sections is configured to mate with a corresponding one of the fifth mat female connecting sections. The second mat is positioned on an opposite side of the first mat from the third mat. The fourth mat is positioned on an opposite side of the first mat from the fifth mat.
Other features and aspects may be apparent from the following detailed description, the drawings, and the claims.
Throughout the drawings and the detailed description, unless otherwise described, the same drawing reference numerals will be understood to refer to the same elements, features, and structures. The relative size and depiction of these elements may be exaggerated for clarity, illustration, and convenience.
Examples incorporating one or more embodiments are described and illustrated in the drawings. These illustrated examples are not intended to be limiting. For example, one or more aspects of an embodiment may be utilized in other embodiments and even other types of devices.
One example of the stabilizing panel is shown in
As shown in
It must be noted that, while the embodiment shown in
As shown in
As shown in
In this embodiment, the midpoint of two longitudinally or transversely closest peaks 16 is at the first elevation 24, and the midpoint 17 of two closest peaks 16 is also at the first elevation 24 while the peaks 16 are at the second elevation 26 as shown in
The geometry of the depression 14 can be explained as follows and shown in
However, in alternative embodiments of the stabilizing panel 10, the geometry of the first surface 12 may vary and have different or no curvatures, different elevations, or the like.
The same geometry of the first surface 12 can also be described by dividing the first surface 12 into alternatively selected parallelogram areas 19 shown in
The radius of curvature R of the depression 14 and the distance between peaks 16 are likely to be affected by the types of items 38 that are placed on the stabilizing panel 10. For example, if the contour of the item 38 is closely matched by the geometry of the depression 14, the degree of stability is likely to be higher. Moreover, as shown in
The resulting stability may also be affected by the material of which the stabilizing panel 10 is made. For example, the stabilizing panel 10 may be made of elastomers such as rubber that are likely to create a high coefficient of friction and improve stability for items placed on the stabilizing panel 10. However, the stabilizing panel 10 may also be made of material such as polymers which may simply offer the benefits arising from geometry but not the frictional benefits.
Although in the shown embodiment the first surface 12 transitions from the minimum elevation 24 to the maximum elevation 26 through concave surfaces, the depressions 14 in the parallelogram areas 18 may also be formed from other types of surfaces that are flat, angled, convex, stepped or otherwise. For example, the depressions 14 may be formed such that the depressions 14 have cross-sectional views shown in
It is possible to form a stabilizing panel 10 in other types of embodiments such as a shelf 10b that is part of a cabinet structure such as a refrigerator 100.
Referring to
Referring to
The two-layer structure forms, on the stabilizing panel 10d, a male connecting section 150 extending substantially along each of a pair of adjacent first edges 152 and with a female connecting section 154 extending substantially along each of a pair of adjacent second edges 156. In this embodiment, the male connecting section 150 projects outwardly from each first edge 152 so as to form an L-shape while the female connecting section 154 is formed on the second surface 13 in an L-shape configuration. The second surface 13 may be flat or engraved as shown in
As shown in
The male connecting section 150 may be identical in length to the corresponding first edge 152 except that the male connecting section 150 is offset. As a result, the male connecting section 150 does not extend fully along the first edge 152 and the first edge 152 may include a discontinuous section 158. As shown in
A number of examples have been described above. Nevertheless, it will be understood that various modifications may be made. For example, suitable results may be achieved if the described elements are combined in a different manner and/or replaced or supplemented by other elements or their equivalents. Accordingly, other implementations are within the scope of the following claims.
This application is a continuation of U.S. application Ser. No. 13/045,652, filed on Mar. 11, 2011. Application '652 is incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
D172596 | Harper | Jul 1954 | S |
3040923 | Leitzel | Jun 1963 | A |
3108924 | Mountford | Oct 1963 | A |
3708084 | Bixler et al. | Jan 1973 | A |
3843009 | Emery | Oct 1974 | A |
3899805 | McMillan | Aug 1975 | A |
D281955 | Moller | Dec 1985 | S |
D308822 | Congleton | Jun 1990 | S |
D327841 | Letourneau | Jul 1992 | S |
5201101 | Rouser et al. | Apr 1993 | A |
5609942 | Ray | Mar 1997 | A |
5666777 | Murphy | Sep 1997 | A |
D396408 | Carver | Jul 1998 | S |
6932449 | Collins et al. | Aug 2005 | B2 |
D518720 | Gratz | Apr 2006 | S |
7044358 | Gratz | May 2006 | B2 |
7117994 | Gratz | Oct 2006 | B2 |
D535881 | Liukko | Jan 2007 | S |
7267700 | Collins et al. | Sep 2007 | B2 |
D655608 | Taljaard et al. | Mar 2012 | S |
20020114918 | Mossbeck | Aug 2002 | A1 |
20040001784 | Sullivan et al. | Jan 2004 | A1 |
20040031711 | O'Malley | Feb 2004 | A1 |
20050045648 | Mayrose | Mar 2005 | A1 |
20060255704 | Grobleben et al. | Nov 2006 | A1 |
20070220822 | Permesang | Sep 2007 | A1 |
20070228909 | Hwang et al. | Oct 2007 | A1 |
20120061273 | Taljaard et al. | Mar 2012 | A1 |
Number | Date | Country | |
---|---|---|---|
20150164222 A1 | Jun 2015 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 13045652 | Mar 2011 | US |
Child | 14632215 | US |