1. Field of the Invention
The present invention relates to the field of foot ware storage devices and especially boot storage devices for relatively large numbers of boots, and the boot storage devices are sufficient space efficient that they may be hung on supports and in closets.
2. Background of the Art
Foot ware are essential items in a modern society, providing both function in protecting the feet of the user and providing essential style to the dress appearance of the user. Boots tend to be either more functional (as industrial or work strength protective foot ware, as equestrian riding apparel, as climbing apparel, as hiking apparel and the like) or even a stronger fashion statement for decorative purposes.
The majority of existing boot supports have the boots supported by grasping exterior portions of the boots, such as the boot straps, the boot heels and/or the exterior soles of the shoes. Examples of these structures are U.S. Pat. No. 4,953,715 (Celli); U.S. Pat. No. 4,669,615 (Zigman); and U.S. Pat. No. 3,802,572 (Shackel). Other systems provide essentially linear and upward facing supports that may poke into the material of the boot or support the boot against an interior surface with a single forward point of contact against the toe of the boot. Examples of these systems are U.S. Pat. No. 4,460,094 (Schoen); U.S. Pat. No. 4,832,962 (Arias); U.S. Pat. No. 5,065,871 (Chan); U.S. Pat. No. 6,119,871 (Mengel); and U.S. Pat. No. 7,467,481 (Christian). These documents are incorporated by reference in their entirety.
Improvements in space-conserving boot storage is still desirable, and is offered in the practice of the present novel technology enabled herein.
A transportable boot storage hanger designed for space-efficient and low-wear storage of multiple boots may have:
The present technology relates to a transportable boot storage hanger designed for space-efficient and low-wear storage of multiple boots. By transportable is meant that the hanger may be carried from closet to support rod and hung without disassembly, and with or without boots being supported on the hanger. The hanger or hanger system may have components generally described as:
The structural components and elements (hooks, rods, stems, arms, supports and the like) should be made of materials with both rigidity (so that weight of boots will not cause elements to break or inelastically deform) and resistance to elongation, yet be relatively lightweight. Structural materials such as metals (including steel, stainless steel, aluminum, brass, bronze and the like), polymeric materials (e.g., high density polyethylene and polypropylene, polyamides, silicone resins, vinyl resins, and the like) and composite materials are preferred, even though many structural materials might also be suitable.
The multiple boot hanging frame may be configured to swivel or be rigidly fixed in a position while being retained within the hanging engaging element. The hanger may have the multiple boot hanging element with two, three or four or more major outward arms. The second vertical support rod may be engaged with and extend below the hanger engaging element, and a lower portion of the second vertical support rod may be engaged with a second hanger connecting element. A second multiple boot hanging frame may be engaged with the second hanger connecting element. The second multiple boot hanging frame my include at least a second two major outward arms extending away from the second vertical support rod. Each of the at least second two major arms may include a second two vertical arms and each of the second two vertical arms having a sole support element angled upwardly away from the second vertical support rod. The sole support elements are relatively upwardly oriented, for example, forming a ten degree to eighty degree angle with the vertical arms, or preferably a twenty to seventy degree angle away from the vertical support rod, or more preferably from thirty to sixty degrees away from the vertical support rod and the vertical arms. The sole (sole of the boots) support element may have a top toe support stem and a lower heel support stem. The second (as with the first or independently from the first) multiple boot hanging frame may be configured to swivel while being retained within the hanging engaging element. As with the first multiple boot hanging element, the second multiple boot hanging element may have at least two, three, four or more major outward arms. The second multiple boot hanging frame may be engaged with the second hanger connecting element, the second multiple boot hanging frame may have at least a second two major outward arms extending away from the second vertical support rod, each of the at least second two major arms comprises a second two vertical arms and each of the second two vertical arms comprise a sole support element angled upwardly away from the second vertical support rod and the sole support element comprises a top toe support stem and a lower heel support stem. The second multiple boot hanging frame may also be configured to swivel while being retained within the hanging engaging element.
Reference to the Figures will provide further understanding of the present technology.
As noted on the sole support elements 106 there may be a distinct toe stop or toe support element 108 and a distinct heel stop or heel support element 112. These two stops 108, 112 may be relatively horizontal (to the ground and approximately parallel to the multiple boot hanging arm 104) and may be adjustable, flexible or may telescope to gently support the respective elements of the boot. The stops may be formed of less rigid materials or comprise a cover that is less likely to damage interior surfaces of the boot when it is slid over the sole support 106 and the sole of the boot rests on the top surface 110 thereon. The stops can be substantive enough in length and materials to enable effective support and protection within the boot. The stops, for example, may be from 0.5, 0.75, 1.0, 1.5, 1.75, 2.0 or more inches in length, and may be at least 0.25, 0.50, 0.75 and at least 1.0 inches in width. Rubber, soft fabric or other lower abrasive socks or covers may be provided over the stops or the entire support element. Lower abrasion producing coatings may also be applied over the supports and/or stops, such as silicone polymers, polyurethane polymers, elastomeric polymers, polyvinyl resins, poly(fluorinated hydrocarbon) polymers such as Teflon® polymer or Kevlar® polymers may be used.
Further stacking or hanging of additional components such as shown by 340, with or without swiveling engaging elements as in 328 and 338 may be further present in the system.
It I to be noted that spacing between arms may be preferably different as shown in
The stacking of the hanger elements on which the arms are supported (these are called hanger segments) can be done with as few as two hanger segments, and depending upon the height of the rod or hook or frame from which they depend, there may be three, four, five or even six hanger segments with at least two arms each, and preferably four or more arms on each hanger segment.
This design will also tend to reduce wear during storage as the sole support can be shaped (e.g., flattened, padded (with a sleeve), cushioned (with an adhesive applied cushioning insert) and supports only the weight of an individual boot. Although a few other boot support hangers have boots held sole up, their preferred overall design with the arms parallel for a pair of boots, the sole supports close to horizontal with the ground while the arms are close to perpendicular (to conserve space) makes the entire system a significant advance over other known constructions.
By having the boots support by the interior sole of the boot, stress is not put on visible exterior portions of the boot (e.g., boot strap holders, heel clip holders, wire exterior boot supports and the like) that can damage the observable exterior of the boot.
Other alternative materials and dimensions may be used by one skilled in the art and remain within the scope of the disclosed and enabled technology and the claimed invention.
Number | Name | Date | Kind |
---|---|---|---|
1747951 | Reichert | Feb 1930 | A |
2125045 | Connelly | Jul 1938 | A |
2529565 | Mills | Nov 1950 | A |
2690571 | Gamble | Oct 1954 | A |
2941669 | Palay et al. | Jun 1960 | A |
3135389 | Farley | Jun 1964 | A |
3734301 | Rastocny | May 1973 | A |
3802572 | Shackel | Apr 1974 | A |
3979786 | Vierra et al. | Sep 1976 | A |
4460094 | Schoen | Jul 1984 | A |
4669615 | Zigman | Jun 1987 | A |
4823962 | Arias | Apr 1989 | A |
4953715 | Celli | Sep 1990 | A |
5065871 | Chan | Nov 1991 | A |
5423435 | Pollard et al. | Jun 1995 | A |
5785185 | Klebba | Jul 1998 | A |
6119871 | Mengel | Sep 2000 | A |
7467481 | Christian | Dec 2008 | B2 |