This invention pertains to medical devices for ambulatory assistance such as crutches and more particularly to improvements to the ergonomics and ease-of-use of crutches.
Crutches are used by millions of people each year recovering from lower-limb ailments such as broken bones, knee injuries and sprained ankles. One of the most common crutches in use today is some variation of that shown in
There is thus a continuing need for new and improved crutch designs.
One embodiment pertains to an arcuate crutch having a mesh saddle disposed on a curved leg. The saddle includes a resilient mesh web disposed over a frame pivotably attached to the leg. The frame may flex with the weight of the user to spread outwards and provide greater contact area with the user and to help the saddle stay with the user during use. The leg may be curved outwardly to accommodate the shape of the user while maintaining a narrow footprint and curved to the front to properly position the handle. The leg may be adjustable and may include two or three sections which slide with respect to each other to accommodate users of various heights. The handle may be fixed to the leg and may extend back from the frame at an upward and outward angle to provide a natural and ergonomic position for the hand. The foot may include an oval, curved tread pattern and may flex to provide cushioning and orientation.
Another embodiment pertains to a crutch leg that has a curved shape to permit the user to have a narrow stance when using crutches. The crutch leg curves outwardly at the middle to accommodate the shape of the user and inwardly at the bottom to keep the overall stance narrow. The crutch leg may also curve to the front to provide a position for the crutch handle that is along an axis of the crutch from saddle to foot. The crutch leg may be smoothly curved or may include straight sections joined at angles.
Another embodiment pertains to a crutch saddle that incorporates a resilient mesh disposed on a frame. The mesh stretches over the frame to provide a contact surface. The mesh deforms somewhat while still provide support. The frame may also deform as the user applies weight to the crutch.
Another embodiment pertains to crutch foot that has a resilient bottom surface that is curved from front to back and flat laterally. The resilient bottom surface is connected to an ankle that may bend slightly as the user applies weight to orient the foot to provide greater traction.
Another embodiment pertains to a crutch foot that tapers smoothly from the crutch leg to a dimpled bottom surface without lips.
The above summary of some embodiments is not intended to describe each disclosed embodiment or every implementation of the present invention. The figures and detailed description which follow more particularly exemplify these embodiments.
The invention may be more completely understood in consideration of the following detailed description of various embodiments of the invention in connection with the accompanying drawings in which:
An example crutch 10, shown in front and side views in
The elongate leg 12 may be understood better with reference to
As can be seen in
Leg 12 has a middle section, an upper section and a lower section. The upper section and lower section are both adjustable with respect to the middle section to fit the crutch to a particular user. The upper section may be adjusted with respect to the middle section to fit the crutch to an arm of a particular length and the lower section may be subsequently adjusted to fit the crutch to the height of a user. The versatility of the crutch is such that a single adjustable crutch can accommodate people with heights of 5′0″-6′6″ and a smaller adjustable crutch can accommodate people with heights of 4′0″-5′0″. In the particular embodiment of crutch 10, the upper section and the lower section are telescopically inserted into the middle section. The cross-sectional shape of these sections may be circular or optionally may be oval, oblong or other non-circular shape to maintain the orientation of these sections with respect to each other. Once the sections of the crutch leg are adjusted with respect to each other, they may be fixed in any suitable manner. For example, one embodiment provides continuous adjustability by use of collets where tapered flanges fixed to one section are clamped to another section by the operation of a threaded collar. Another embodiment may provide discrete adjustment by providing a spring loaded pin in one section that can lock into a hole in the corresponding section. When the pin is in a hole, relative movement of the two sections is prevented. The two sections may be adjusted by depressing the pin and sliding one section with respect to another. Another embodiment that provides discrete adjustment has sets of holes in both sections through which a bolt can be inserted and secured with a nut or a wing nut. These or any other suitable adjustment and fastening system may be used. The leg 12 may further include one or more fittings such as plastic bushings 17 or the like that serve to secure the sections of the leg with respect to each other to prevent rattling and provide a solid one-piece feel.
In the embodiment of crutch 10, handle 14 is fixed to leg 12 such that no adjustment is possible. Handle 14 has an end fixed to the leg and extends to the rear from this fixed end at a slight upward angle and also extends outwardly away from the user. The handle position thus enables the user to grip the crutch handle while keeping the hand and the wrist at a more natural and ergonomic position. The handle may be molded to have a profile that conforms to a gripping hand or may have a more traditional barrel or tube shape or other suitable shape. The handle may be made from a firm non-slip material such as a rubber coated plastic or may include a softer foam sheath or may be made from another suitable material.
A saddle 16 is attached at the top of the crutch, and generally includes a membrane 19 disposed on a frame 20. A frame 20 may be seen in
The saddle is designed to be position in the armpit of a user to help support the user and move with the user during operation by staying in the armpit while the rest of the crutch is moved back and forth with respect to the user's body. The saddle has at least two mechanisms by which this is accomplished. First, the saddle is pivotably attached to the leg through joint 26, which joint can be best seen in
Other mechanisms to ensure that the saddle stays with the user may be included. For example, a shock absorber-type spring mechanism 25 may be mounted between the upper section of the leg and the frame as illustrated in
The saddle 16 includes a membrane 19 fixed across an opening defined by the frame 20. The membrane may be a stretched woven mesh held in tension by being fixed to the frame. An example of a membrane fixed to a frame and the process for doing so is described in publications such as U.S. Pat. No. 6,059,368 to Stumpf et al. entitled “OFFICE CHAIR,” which is incorporated herein by reference. Other suitable membranes including solid sheets of polymer, sheets of polymer with holes formed therein, and spun and woven fabrics may be used. The membrane is attached to the frame to create the upper surface of the saddle. The membrane is deflectable and resilient such that it conforms to the user and may spread out the force applied to the saddle surface area. The membrane is mounted on the frame in such a way as to provide support to the user even when the frame is not directly under the membrane.
Of course, other variations are possible. For example, the foot bottom tread 28 may have other shapes and other tread patterns. The bottom tread may have angular sections rather than a smooth curve or may have a rectangular or polygonal shape. The bottom tread may be curved laterally as well as from front to back. Further, any tread pattern may be suitable. For example, tread patterns such as those found on the bottom of tennis shoes may be suitable. The foot bottom section may be made rigid rather than resilient and the material of the tread may be made of soft material or may have a cushioned backing. Further, the ankle may be set at an angle to the crutch rather than straight. Preferably this would be the angle that would make the foot upright when the crutch was in normal use. The ankle angle may be adjustable to provide for different users and the ankle may be rigid rather than flexible. An embodiment is also contemplate without an opening 36.
An orthogonal view of an alternate foot 38 is shown in
The example crutch 10 has been described in some detail. While some variations and alternative embodiments have been described above, still other are contemplated. For example, an alternative leg may be used. One alternative leg 42 shown in
Another embodiment of a crutch includes an adjustable handle which can be repositioned higher or lower on a crutch leg section. One version of this embodiment may include only two crutch sections, which would permit a user to adjust the height of the crutch and the position of the handle. In another alternative, the handle could extend straight back from the leg rather than outwardly as described above.
Alternatives to the saddle are also contemplated. One alternative saddle 44 is fixed to the leg rather than pivotably attached to it. The saddle frame may be rigid rather than resilient. Thus for example, an embodiment of the invention may have a saddle having a resilient mesh disposed in a frame, where the saddle is rigidly attached to an angular leg.
It can thus be appreciated that the invention is not limited to those embodiments set forth in the foregoing description. It will be appreciated, however, that this disclosure is, in many respects, only illustrative. Changes may be made in details, particularly in matters of shape, size, and arrangement of parts without exceeding the scope of the invention. None of the description in the present application should be read as implying that any particular element, step, or function is an essential element which must be included in the claim scope. Moreover, none of these claims are intended to invoke 35 U.S.C. §112, ¶ 6 unless the exact words “means for” are followed by a participle. The invention's scope is, of course, defined in the language in which the appended claims are expressed.
This application is a continuation of U.S. patent application Ser. No. 11/621,893, filed Jan. 10, 2007.
Number | Date | Country | |
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Parent | 11621893 | Jan 2007 | US |
Child | 12754115 | US |