It is known that aids such as crutches and walking sticks for people with walking difficulties involve discomfort related to the inherent instability of the same, especially when not used. In fact, in order to prevent their fall, these items are often placed close to walls, chairs, tables and so on, in a standing inclined position, that is, in such a way that those who may pass near the crutches or walking sticks can stumble and fall.
The main purpose of the present invention is to eliminate the above-mentioned drawbacks.
This result has been reached, in accordance with the present invention, by adopting the idea of making a device having the characteristics indicated in claim 1. Other features of the present invention are the subject of the dependent claims.
A stabilizer support according to the present invention improves and simplifies the use of aids such as crutches and walking sticks, without interfering with their structural characteristics and without reducing their strength. In addition, a device in accordance with this invention is simple to be manufactured, inexpensive, reliable even after prolonged and repeated use, and requires no special maintenance operations that, however, are facilitated by the ease of disassembly of the device.
These and other advantages and features of the present invention will be more and better understood by any technician of this industrial field, thanks to the following description and to the attached drawings, provided by way of example but not to be considered in a limitative, wherein:
In the following description the word “crutch” refers to sticks with antebrachial support.
Reduced to its essential structure and with reference to the figures of the attached drawings, a stabilizer support for crutches and walking sticks in accordance with the present invention comprises a cylindrical body (1) with vertical axis, in which the lower base is missing, and whose upper base (10) has a central hole (11) and the lateral surface has a longitudinal slit (12).
Over the upper base of the body (1) there is mounted an annular threaded ring (2), used to lock the crutch (S) to the stabilizer support, as further described below.
Inside the said body (1) there is positioned, coaxially, a tubular element (3) which has a lower discoid base (30) which, in turn, has three angularly equidistant holes (31) with vertical axis. The upper part (32) of the element(3) is threaded and protrudes over the upper base (10) of the body (1) passing through the said hole (11). The threaded ring (2) is screwed on the threaded part (32) of the tubular element(3).
On the tubular element (3) there is fitted a ring (4), which is free to slide along the same element (3), and which has a lower surface (40) where there are defined three hooking points (41) for the feet (5) indicated below and a lateral surface (42) that protrudes below the said lower surface (40), so that the lower edge of the surface (42) results below the surface (40).
The said ring (4) supports three feet (5) in angularly equidistant positions.
More specifically, each of the said feet (5)—which according to the example shown in the figures of the attached drawings are made by rods—is hinged to the bottom surface (40) of the ring(4) by means of a pin which constitutes a hinge with horizontal axis (axis “x” in
A knob (6)is connected with the ring (4). The stem (60) of the said knob is screwed on the lateral surface (42) of the ring (4) and passes through the slot (12) of the body (1), so that the knob (6) is external to the body (1).
The knob (6) is used to manually control the sliding of the ring (4) along the tube (3) and, thus, the extraction or retraction of the feet (5). More precisely, starting from the configuration of
On the inner surface (43) of the ring (4) there is mounted a radial elastic plug (44) which serves to lock the ring (4) to the tube (3) in the positions of complete lifting (position
To use the stabilizer support in accordance with the present invention, the threaded ring (2) is unscrewed, the cap (T) of the crutch (S) is removed and the crutch is inserted through the hole (11) of the body (1) and through the tube (3), from top to bottom, until the lower part of the crutch protrudes from the base (30). Then the said cap (T) is replaced on the crutch and the ring (2) is screwed on the threaded upper portion (32) of the tube (3) to lock the crutch (S) to the tube (3). Then, acting on the knob (6), the feet (5) are extracted, by lowering the ring (4) until the plug (44) engages the lower radial cavity (34) of the tube (3). At this point, the crutch (S) is locked to the support whose stability is ensured by the three feet (5) which, being spread apart, realize a stable base. To free the crutch (S) one will proceed in the reverse order.
It goes without saying that the length of the rods that form the feet (5) is such that the cap (T) of the crutch is raised, that is not in contact with the ground.
Needless to say, moreover, that the internal diameter of the tube (3) is a value that allows to set the stem of crutches or walking sticks (S) of standard size. For example, the components of the stabilizer support in accordance with the present invention can be of plastic material (such as material like “Derlin”) or metal (like aluminium or steel) or carbon fiber.
In practice, the details of implementation may vary in any equivalent manner regarding the shape and size of individual elements described and illustrated, and the nature of the materials, without departing from the idea of solution adopted to obtain the above-mentioned advantages and therefore remaining within the limits of the protection afforded by this patent.
Number | Date | Country | Kind |
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FI2008U00038 | Jun 2008 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IT09/00171 | 4/16/2009 | WO | 00 | 12/29/2010 |