FR2923163A1 - Posturo-dynamic retraining apparatus for processing e.g. gesticulation pathology, has elliptic cycle with pedals that are laterally inclined around axis and are rotated around vertical axis, where pedals have units to adjust pedal height - Google Patents

Abstract

The apparatus has an elliptic cycle with pedals (2) that are laterally inclined around an axis (9) and are rotated around a vertical axis (10). The pedals have height adjustment units for adjusting the pedal height required for lower limb. The elliptic cycle has wristbands (17), which turn around a horizontal sagittal axis (16). The pedals are provided on a support (5) with different heights (1) for modulating the inclination of the support with respect to a horizontal side.

Description

The present invention relates to an elliptical rehabilitation bike for treatments in rheumatology, microtraumatology of sport and postoperative rehabilitation, pathologies of gesticulations or musculoskeletal dysfunction. The elliptical trainer is used, in rehabilitation or for athletes, for cardiovascular training because it simulates walking and avoids the shockwave.But the posture of the person who uses it remains unchanged, it does not affect the axes of operation of the skeleton, which can not therefore offer perspectives of postural treatments in dynamics. The apparatus according to the invention makes it possible to remedy this. Indeed, it comprises, according to a first caracteristic, pedals which make it possible to modulate their positions and therefore that of the feet in the three dimensions of space (even if it suffices to modify two dimensions to automatically modify the three dimensions of the space), and to arrive at so-called positions of inversion or eversion of the foot (s). This constitutes the base of this mode of reeducation because the relative position of adduction, internal rotation and dorsal flexion of the foot in inversion, or abduction, external rotation and plantar flexion for eversion, will have a dynamic biomechanical effect upward dynamic, chain closed, identical on the musculoskeletal system by the foot / knee / hip / spine interaction. It will therefore be possible with each of the adjustments (fixed for example non-limiting, by a wing nut or other locking system to maintain the position thus given) to quantify the effect in each plane of the space according to the pathology or For this, the foot will be secured to the pedals by foot wedges or fasteners similar to those used in -2- snowboard (2 or 3 loops) or self-gripping straps for example. The accompanying drawings illustrate the invention: FIG. 1 represents the pedal viewed from the front.

Figure 2 shows the pedal viewed in profile. Figure 3 shows a general view of the invention seen in profile. Figure 4 shows a wrist seen in profile. It also comprises according to a second feature of the wrists (17) at the top of the sticks (15) which can rotate about a sagittal-horizontal axis (16) and thus cause positions of pronation or supination of the hands which will therefore also be able to cause biomechanical effects in a closed chain up to the crossroads of the shoulders and the rachis.This is on the same principle of action biochemistry dynamic posturo closed chain. For the adjustment of the rotation of the foot in the frontal plane relative to the horizontal plane, we use the axis of rotation (9): a rotation of the foot (seen from the front) provokes in the direction of the clockwise a conveyance and an abduction in the opposite direction. Once, the desired degree of adduction obtained, tightening the butterfly nuts or equivalent, to maintain the position. To adjust the rotation of the foot in the horizontal plane, use the vertical axis of rotation (10): a rotation of the foot (seen from above) in the direction of the clockwise causes an external rotation and a rotation On the other hand, once the desired degree of adduction is obtained, the wing nuts or equivalent are tightened to maintain the position. For the adjustment of the desired heights (lengths) of each lower limb are used settings (7) allowed by the sliding of the tubes (8) in the tubes (4). These last are drilled for example every 5mm from 35 to 35 mm. . It is then sufficient to consider the holes of one -3- tube with those of the other, to pass a rod for example (or a pin pin) and freeze this with nuts or other blocking system. In the same manner for adjusting, in the lowest position of the wheel (3) (ellipse), the inclination of the supports (5) of the pedals (2) relative to the horizontal: the different heights proposed are used (1) on the sticks (15) .We will have, for example non-limiting, the choice between 0-5-10-15 or 20% slope.

For the pronation or supination of the hands, the wrist position (17) relative to the stick (15) around the axis (16) will be adjusted: a wrist rotation in the direction of the needles of a watch will cause supination of the right hand or pronation of the left hand and vice versa. By modulating the position of the pedals in the three planes of space (at least 2), as well as that of the hands, the closed-chain biomechanical effects thus caused by the interaction foot / hip / knee / rachis and hands / elbow / shoulder / rachis allow a clinical management effective to answer each painful problem. When each setting is well parameterized, in accordance with the therapeutic strategy, re-education can be started. The realization of the different parts will be made in materials usually used for the manufacture of rehabilitation apparatus or bodybuilding to be able to withstand the various mechanical constraints 30 (example: aluminum tube) In parallel, It will be advisable to also implement a pair of orthopedic insoles of post-dynamic biomechanical treatment LAVIGNE type in shoes by using the same correction methods to perpetuate the results obtained.

Claims (3)

1) postural dynamic rehabilitation apparatus for the treatment of pathological pathologies and musculoskeletal dysfunctions in rheumatology, sport micro-traumatology and post-operative rehabilitation, characterized in that it comprises an elliptical trainer having pedals (2) which have height adjustments (7), lateral inclination around an axis (9), rotation around a vertical axis (10). 2) postural dynamic rehabilitation apparatus according to claim 1 characterized in that the pedals (2) rest on a support (5) with several possible attachment heights (1) for a modulation of the inclination of the latter relative to the horizontal. 3) postural dynamic rehabilitation apparatus according to any preceding claim characterized in that the elliptical trainer has wrists (17) which can rotate about a horizontal sagital axis (16).