1. Field of the Invention
The present invention pertains to the art of medical aid devices, and more particularly to sock or hosiery donning tools.
2. Discussion of the Prior Art
People with back, knee and hip problems, people with decreased flexibility, pregnant women, or people who are overweight, have a hard time bending over far enough to put on their socks and hosiery.
In general, it is known in the art to have a long handled tool for aiding a user in putting on hosiery or socks, wherein the tool comprises flanges about which a user fits the top of a sock such that the top of the sock is held in an open position to receive the foot of a user, as demonstrated by at least U.S. Patent Application Publication No. 2011/0049201. However, such devices fail to provide an adequate gripping structure to maintain socks in place during insertion of a user's foot. Further, the manner in which such devices are utilized blocks the user's view of the foot as it is being inserted into hosiery. It is also known to fold the top of a stocking over a stocking holding portion of a device, and slide a foot into the open end of the stocking, as demonstrated by U.S. Pat. No. 7,070,074. However, the '074 device is large, and is not easily portable. Therefore, there exists a need in the art for an improved hand-held sock donning apparatus that is easily utilized, facilitates retention of socks during use, and allows easy disengagement of a donned sock and that can be utilized as a shoe horn.
The present invention is directed to a long handled sock donning tool including an elongated support. A handle portion adapted to be gripped by a user extends from a first end of the elongated support, while a sock engaging portion extends from a second end of the support. The sock engagement portion includes first and second spacers extending from opposing sides of the elongated support. First and second flanges are spaced from the elongated support by the first and second spacers. Each of the first and second flanges include a sock engagement arm for retaining a sock thereon, and an opposing stabilizing arm for supporting the tool during the mounting of the sock onto the tool. First and second rubber sock gripping portions extend over respective sock engagement arms to aide in retention of the sock on the tool. Preferably, the elongated support, handle and sock engagement portion, are made from a single unitary piece of lightweight plastic material.
First and second opposing flanges and first and second spacers define a space there between for the insertion of a user's foot. The structure allows for stretching of a mounted sock in all directions such that the foot of a user can be inserted into the sock comfortably without being forced into contact with a hard plastic wall of the tool.
Ergonomic features of the tool include contoured ridges adapted to be engaged by the fingers of a user and a ribbed thumb grip to help a user hold the handle portion securely when utilizing the tool to don a sock. Additionally, a pair of parallel slots formed along the length of the elongated support can be utilized to display the tool or secure labels or other packaging material to the tool.
In use, a user initially rests the opposing stabilizing arms on an upper portion of their thigh. The distance between first and second flanges enables the tool to rest in a stable manner on the user's thigh. At the same time, the handle portion rests against the torso of the user. With the tool thus secured, a user then positions a sock between the first and second flanges and, stretching the sock gently, folds an outer upper portion of the sock over the first and second sock gripping portions, such that the sock is secured to the tool only through the upper folded portion of the sock. Next, gripping the handle portion, a user extends the tool and, with minimal bending, slides his or her toes through an opening of the sock. The user then pulls the handle portion towards their torso while sliding their foot down into the sock, thereby donning the sock. When the sock is positioned on the user's foot to their satisfaction, the user simply pivots the handle portion forward, whereby the sock gripping portions slide out from under the outer upper portion of the sock, thereby releasing the sock from the tool.
In an alternative mounting method, the tool is placed between a user's thighs and the user squeezes the first and second flanges towards one another with their thighs. The flexible nature of the sock engaging portion enables the flanges to be brought closer together to make it easier for a user to mount the sock onto the tool. Once the sock is mounted, the user proceeds with putting on the sock as outlined above.
An additional benefit of the present invention is the ability of the tool to be utilized as a shoe horn. More particularly, a user may insert one of the flanges into a shoe, and slide their heel down the outer surface of the flange until their heel is within the shoe, and then remove the flange.
Additional objects, features and advantages of the present invention will become more readily apparent from the following detailed description of a preferred embodiment when taken in conjunction with the drawings wherein like reference numerals refer to corresponding parts in the several views.
With initial reference to
In the embodiment shown, a main body portion defined by elongated support 12, handle 18 and sock engagement portion 20, is made from a single unitary piece of lightweight material. Preferably, the main body portion is made from a rigid, injection moldable plastic, such as acrylonitrile butadiene styrene (ABS), or similar material. The outer walls of flanges 31a and 31b may include a textured portion indicated at 36 to reduce slippage when squeezing the flanges 31a and 31b between a user's thighs, as will be discussed in more detail below. The result is a lightweight, yet strong and stable tool 10. After formation of the main body portion, sock gripping portions 34a and 34b are friction fit about respective sock engagement arms 30a and 30b. In the preferred embodiment shown, first and second sock engagement arms 30a and 30b is are each formed with a plurality of mounting teeth 38, which aid in retaining first and second sock gripping portions 34a and 34b on respective sock engagement arms 30a and 30b.
As can be seen in
Elongated support 12 is formed with a curved, generally u-shaped cross section for stability. Further, an underside of handle portion 18 is formed with a plurality of ergonomic contoured ridges 40 adapted to be engaged by the fingers of a user. Additionally, a plurality of panels extend between opposing inner walls of the u-shaped elongated support 12 to form a ribbed thumb grip indicated at 42. It should be understood that ribbed thumb grip provides traction to help a user hold handle portion 18 securely when utilizing tool 10 to don a sock. A pair of parallel slots 44 may also be formed along the length of elongated support 12, for use in securing labels or other packaging material to the tool 10, or for hanging from a display or the like.
The manner in which tool 10 is intended to be utilized will now be discussed with reference to
Next, gripping the handle portion 18, a user extends tool 10 and, with minimal bending, slides his or her toes through an opening 56 of sock 52. It should be understood that the ergonomic hand contours or ridges 40, with ribbed thumb grip 42, allow a user to lower tool 10 to the level of their foot without bending and while easily maintaining control of tool 10. First and second opposing flanges 26 and 27 act as a guide for the user to insert their foot through opening 56 of sock 52. The user then pulls handle portion 18 towards their torso while sliding their foot down into sock 52, thereby sliding sock 52 onto their foot, as best shown in
In an alternative mounting method depicted in
An additional benefit of the present invention is the ability of tool 10 to be utilized as a shoe horn, as depicted in
As should be understood from the discussion above, the long handled sock donning tool 10 of the present invention advantageously allows a user to stabilize tool 10 against their body during mounting of a sock 52 on tool 10. Further, the manner in which sock gripping portions 34a and 34b secure only an upper folded portion 54 of a sock 52, in combination with the curved nature of tool 10, allows a user to easily release upper folded portion 54 of sock 52 from tool 10 once a user has donned sock 52, with minimal bending or twisting on the part of the user. Further, unlike other sock donning tools wherein the user's foot, especially the heel of the foot, is forced hard against the bare plastic of the tool, the present invention allows for stretching of the sock in all directions such that the foot can be inserted into the sock comfortably without being forced into contact with a hard plastic wall of the tool.
Although described with reference to a preferred embodiment of the invention, it should be readily understood that various changes and/or modifications can be made to the invention without departing from the spirit thereof. In general, the invention is only intended to be limited by the scope of the following claims.