The invention relates to hooks which sit on the top surface of a shelf and hold an object below the shelf.
There are a variety of hooks which have been proposed for holding objects below a shelf or mantel. These hooks generally have a C-shape or an S-shape with the top of the hook having a flat surface which rests on the top surface of the shelf. Examples of this type of hook are disclosed in U.S. Pat. No. 5,094,417 to Creed; U.S. Pat. No. 3,630,475 to Barry, U.S. Pat. No. 2,565,719 to Church and my U.S. Design Patent Des. 360,572. Creed discloses that a length of anti-skid material such as rubber or the like may be fixed to the underside of the portion of the hook which rests on the top surface of the shelf. The product disclosed in my patent Des. 360,572 has been sold with double sided tape on the surface that rests on the shelf. In all of these prior art patents the surface of the hook which rests on the top surface of the shelf is flat. Thus, the contact area between the hook and the shelf is constant for all loads carried by the hook. In the event that a force is applied to the hook in a direction parallel to the length rather than width of the self, the hooks disclosed in these prior art patents will rock on the top surface of the shelf, lessening the contact area and making it easier for the hook to dislodge.
There are other hooks disclosed in the prior art which provide a bumper or cushion member between the hook and the surface against which the hook rests. U.S. Pat. No. 2,500,881 discloses a hook having an inverted U-shaped portion that fits over a car window. A tubular flexible bumper is positioned at the base of the U-shaped portion and rests on the top edge of the window. The bumper is used to prevent marring and chipping of the window. This hook also has a suction cup that attaches to the face of the window preventing movement of the hook. Because the suction cup prevents movement of the hook and the bumper is captured within the U-shaped portion, the bumper cannot deform to change the contact area between the bumper and the edge of the window when a load is placed on the hook. U.S. Pat. No. 6,182,933 discloses another hook having a U-shaped portion that fits over shingles or straight portion that fits between shingles. This hook has flexible, parallel fins that deform when the hook is installed by bending into a frictionally engaging relationship with a surface. The contact area between the fins and hook body and the adjacent surface does not continue to increase as the load on the hook increases. Hooks having a U-shaped portion are not used on mantels, which tend to be thicker than most shelves. The hook with a straight portion will not hold a load when placed on a shelf. U.S. Pat. No. 2,631,803 discloses a hook for suspending articles from the edge of a table or counter which consists of an L-shaped bar having a rubber cushion member on the end of the hook that rests on the top surface of the table or counter. The shape of the rubber cushion and the hook are such that the cushion is more likely to move rather than deform, as load changes or forces act on the side of the hook. Hooks having an inverted L-shaped body like the one disclosed in U.S. Pat. No. 2,631,803 are more easily dislodged than hooks which extend below the shelf and hold the object underneath the bottom surface of the shelf.
There is a need for a mantel hook which can securely hold objects below the mantel or the shelf and provide a greater gripping surface as the load on the hook increases. There is also a need for a mantel hook which will not rock on the shelf or become dislodged when subjected to forces against the side of the hook.
I provide a hook for holding objects under a shelf or mantel which has an elongated body having an mounting end and a supporting end. The body is configured so that when the hook is positioned for holding an object under a shelf or mantel, the mounting end will be on the top surface of the shelf and the supporting end will be under the bottom surface of the shelf. A resilient gripper body is attached to the mounting end of the hook body. The gripper body has a curved surface which is positioned for engagement with the top surface of the shelf. When the hook is placed on the top surface and no load is on the supporting end of the hook, a first portion of the curved surfaced will be on the top surface of the shelf and a second portion of the curved surface will be spaced away from the top surface of the shelf. As increasing loads are placed on supporting ends of the hook, the shape of the curved surface will change increasing the contact area between the gripper body and the top surface of the shelf. The increased contact will increase the friction between the gripper body and the shelf preventing movement of the gripper body across the shelf.
I prefer to provide a hook having an elongated body with a triangular or other polygon shaped cross section. I further prefer to provide a resilient gripper body having a generally triangular shape with curved sides. The mounting end of the elongated body is placed within a hole in the center of the gripper body. Since the entire gripper body is made of a flexible material, preferably polyvinyl chloride, the end of the elongated body can rotate when a force is applied against the side of the hook. Consequently, the hook will not rock on the surface of the shelf and the contact area between the gripper body and the shelf will not change.
In an alternative embodiment the gripper body has an air filled chamber between the mounting end of the hook and the curved surface of the gripper body which rests on the top surface of the shelf. As increasing loads are placed on the supporting end of the hook, the air compresses, or is released from the chamber, allowing the curved surface to flatten increasing the contact area between the top shelf and the gripper body.
In a third present embodiment the gripper body is spherical and has a series of slots. As the load on the hook increases the portions of the ball between the slots compress filling the slots and increasing the surface contact area of the gripper body on the shelf.
Yet another embodiment has a plurality of fins on the gripper body which engage the top surface of the shelf or mantel. As the load increases on the hook, the fins flex providing increased contact area between the gripper body and the surface.
Other objects and advantages of the present invention will become apparent from a description of certain present preferred embodiments shown in the drawings.
A first present preferred embodiment of my hook 1 for holding objects under a shelf or mantel, shown in
The gripper body 20 is preferably molded of a soft plastic such as polyvinyl chloride. The Shore durometer of the plastic can be from 50 to 100 depending upon the size and shape of the gripper body. Sides 11, 12 and 13 have the same length, width and curvature This makes assembly easier because any side 11, 12 or 13 could be positioned to rest on the top surface 21 of shelf 20. In a present preferred embodiment the length is 1 inch and the width is ½ inch. Web 15 preferably is about half as wide as the sides as shown in
Referring to
A second present preferred embodiment 30 of my mantel hook utilizes the design of U.S. Patent Des. 360,572. The elongated body 31 has a mounting end 32 which is generally horizontal. Vertical portion 33 extends from the mounting end 32 to curved portion 34. A second vertical portion 35 connects hook 36 to the curved portion 34. Notch 37 is cut in the joint between the mounting end 32 and first vertical portion 33 to permit the hook to flex at that point. Attached to the mounting end 32 of the hook 30 is a gripper body 40. This body has a convex bottom surface 41 which rests on the top surface of a shelf. A air filled cavity 42 is provided within the body. If desired, a channel may be provided to allow air to be expelled from the chamber. When weight is placed on hook 36 the air in the cavity will compress or be expelled compressing the cavity 42. The compression of the air filled cavity increases the surface area of the curved bottom 41 which contact the top surface of the shelf.
A third embodiment of my mantel hook 50 shown in
A fourth embodiment of the mantel hook 60 shown in
I tested the embodiment of the mantel hook in
A significant advantage of the present mantel hook is that it will hold a Christmas stocking weighing up to ten pounds without slipping from the mantel when the stocking is swung from side to side or back and forth.
The elongated hook body in all the embodiments here disclosed is rigid. I prefer to mold the body of polycarbonate However, other plastics, metal or wood could be used.
While I have disclosed and described certain present preferred embodiments of my mantel hook for holding an object under a shelf or mantel, it should be distinctly understood that the invention is not limited thereto, but may be variously embodied within the scope of the following claims.
This application claims the benefit of U.S. Provisional Application Ser. No. 60/511,856, filed Oct. 17, 2003, the content of which is incorporated herein by reference.
Number | Date | Country | |
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60511856 | Oct 2003 | US |