This disclosure relates to grab bars, particularly to bacteria-resistant grab bars for bathroom use.
Bathroom grab bars are well known. However, there is an ongoing need to provide grab bars that provide multiple qualities and functionality. For example, grab bars should be strong enough to withstand the application of pulling force from persons in a wide weight range such as up to 300 or 350 lbs. or more. Also, the means for mounting the grab bar to a target surface, typically which is a tile surface, should be strong as well, so that the mounting means can be secured to that target surface.
There is also the problem of high humidity in typical bathroom applications, particularly in the instances where grab bars are installed in showers. There is thus the problem of the growth of bacteria on various bathroom surfaces, including grab bars. It would accordingly be helpful to provide a grab bar that can satisfy these desirable features.
I provide grab bar assemblies that include an elongated metal grab bar; opposed end portions that extend from the grab bar; a mounting bracket associated with each end portion such that the grab bar may be attached to but spaced from a target surface; and a molded elastic handle extending along at least a portion of the grab bar which includes an antimicrobial agent and silicone rubber.
I also provide methods of producing grab bar assemblies. The steps may include forming a substantially tubular member into a grab bar having opposed end portions that extend from the grab bar such that the grab bar may be positioned adjacent to but spaced from a target surface; fixing a mounting plate to each end portion; applying a mold to at least a portion of the grab bar; introducing a mixture of silicone rubber and an antimicrobial agent into the mold; causing the mixture to cure and form an elastic handle; and removing the mold from around the elastic handle.
It will be appreciated that the following description is intended to refer to specific examples of structure selected for illustration in the drawings and is not intended to define or limit the disclosure, other than in the appended claims.
Turning now to the drawings generally and
Each end portion 14 has a mounting plate 20 (shown in
Molded plastic handle 18 may be comprised of a number of different materials. However, it is preferred to employ a bacteria-resistant or antimicrobial agent and silicone rubber. The antimicrobial agent and the silicone rubber may be mixed or they may be applied as separate layers. It is particularly preferred to mix the antibacterial agent with the silicone rubber. Antimicrobial agents that can be used are in particular antimicrobial metals and/or their salts. The antibacterial metals may be platinum, iridium, gold, silver and/or copper, for example. Silver is preferred. The metal salts may be metal oxides, for example. The salts that may be used are preferably sparingly soluble. The salt is preferably a sparingly soluble silver salt. A particularly preferred antimicrobial agent is nanosilver antibacterial powder which includes silver ion and type P nanometer SiO2. Silver ion content of the antibacterial agent may span a wide variety of contents such as between about 3% and about 10%, for example.
The silicone rubber can be any number of silicone rubbers known in the art. Particularly preferred silicone rubber includes dimethylpolysiloxane, dimethylvinylsiloxy-terminated organopolysiloxane gum and silanol-terminated organopolysiloxane oil in a mixture. This forms a so-called “HTV silicone rubber.”
The antimicrobial agent and silicone rubber may be mixed in a variety of weight percentages. A weight percentage of between about 1% and about 5% of antibacterial material may be used. About 2% is particularly preferred.
Referring now to
The interior shape of the mold may be of any type known in the art to form a variety of elastic handle shapes. However, it is preferred to have a helical, rope or braided shape such as shown in
Although the apparatus and methods have been described in connection with specific forms thereof, it will be appreciated that a wide variety of equivalents may be substituted for the specified elements described herein without departing from the spirit and scope of this disclosure as described in the appended claims.