The present invention relates to the field of lower extremity exoskeletons that enable their users to walk and move in situations where they could not have before.
In an effort to provide help for physically challenged persons, in respect to mobility of walk, companies and scientific programs often devise complex, computerized, battery powered or expensive walk-assist devices and gear.
The present invention, is a manual walk-assist and accessories combo comprising of a motion control system, lower leg kick operation, leg stability system and accompanying accessories that enhances the user's ability to move and walk primarily via recurrent swings of the user's arms. The invention is best made essentially of any strong lightweight material such as plastic, aluminum, fiberglass, or any of a varying degree of plastics, metals and parts rubber. The motion control system comprises of those parts of the invention linked to the hip rotator, motion handle, planetary gear, rear sync gear, and the gait control. The lower leg kick operation comprises of the parallel tubes, upper and lower arch, with the lower arch atop the lower leg kick. The leg stability system utilizes the ankle and knee rotators, and those parts of the invention connected to them to reinforce the user's stance while standing, or travelling on stairs. The main accessories are those carried, but not limited to, those found on the utility rack on the user's back.
The invention seeks to provide a solution to the aforementioned complications of walk-assist devices and gear by focusing on six core values; that the invention is:
The invention is a manual walk-assist and accessories combo made essentially of light weight material and comprising of a motion control system, lower leg kick operation, leg stability system and accompanying accessories, that combine to enhance the user's ability to move and walk primarily via recurrent swings of the motion handles 102.
At the core of the invention are three types of rotators, one per each hip, knee and ankle. The hip rotator 101, in contrast to the other rotators, is where the primary power is derived. The other two rotators, work in tandem, allowing the user to free-stand.
The hip rotator rests atop the leg alignment. The leg alignment, the framework alongside the leg, holds the rotators and other leg attachments together and in place. The hip rotator is secured against a holding belt 104. The belt is wrapped around the user's waist. The preferred belt closure would be a fastener, like that of Velcro, but could be fastened by methods ranging from zips, hooks, buttons, or any of a number of fastening methods.
The hip rotator makes lateral turns by maneuvering around a swivel joint 128, or other jointed connection, on the inner side of the rotator. For every right and left turn of the handle, there is a corresponding movement of the leg and foot in the direction of where the user wants to go. This steering is achieved by way of the motion handles' ability to turn the entire leg alignment.
Within the hip rotator is the planetary gear 133, and attached to the planetary gear is the motion handle 102, which powers the planetary gear with recurrent swings of the handle by the user. The handle can be detached by pulling it off of the protruding molding that it covers. The swing of the motion handle sets in play upper leg movement by way of the arms 127 of the rotator, and their connection to the under-leg pad 105. For the purpose of this invention, the upper leg refers to that part of the leg above the knee, while as the lower leg bears reference to that part from the knee downwards. Also powering the motion handle is a stretchable band attached to the inner side of the planetary gear. When the user is standing, the band is wound up. When the user moves off to walk, the stored energy from the band, with the elasticity it possesses, helps to propel the handle backward. The hand upon the handle that goes backward moves forward the leg on that side of the user, while as the opposite action occurs on the other side of the user. This process helps to replicate a natural walking style.
Another set of gears, the rear sync gears 103, are gears codependent upon the movement generated by the planetary gears 133. The rear sync gears are a pair of long cylindrical gears located across the width of the user's lower back by the waistline. The ends of the gears are slightly elevated and secured above and on the hip rotator 101. The attached arms 106 of the rear sync gears reaches down to the under-leg pad 105, moving the pad in sync with the arms of the hip rotator. The rear sync gears turn against each other, providing a more synchronized stride when walking, having one leg staying back, as the other goes forward. This counter-balances the movement generated by the planetary gears. The rear gears are designed only for the purpose of walking, and they are to be disengaged when travelling on stairs, or any other leg movement. Disengagement is done by disconnecting the arms from the gears. In
The lower leg kick 112 moves around the circumference of the knee rotator 111 as seen in
The ankle and knee rotator 111 work in conjunction with each other in allowing the user to free-stand as shown in
Some of the accessories used for particular functions, when using the wearable, are stored on the utility rack 144 as shown in
The stair support pulls out from behind the back, and swings downward on the rack 144. The stair support arm 137 can be turned around on the rack, to accommodate whichever direction is taken on the stairs. The stair support can further extend with an inner arm. The inner arm is pushed down with a tab 148 on the outside arm. At the end of the inner arm are open ended L-brackets 145 through which a multi-wheeled stair climber appendage 146 passes through. The wheels of the stair climber are flanked on both sides by the L-brackets. The stair climber appendage is slightly buoyant, adjoined to the inner arm and brackets with a coil spring suspension, giving it some resilience on the ground. Also, the suspension is flexible enough to allow the L-brackets to push down around the wheels and touch the ground. The L-brackets are hinged on the inner arm with a slight dangle. The dangle facilitates the angle taken by the L-brackets on the step. At the bottom of the L-brackets is a rubber sole, which provides the grip necessary to avoid a slip on the stairs. When travelling on the stairs as shown in
Additional safety features, when travelling on stairs, are the rail wraps 140. The arms of the rail wraps extend outward from either side of the utility rack for use as seen in
The wheel support, like the stair support, swing out from behind the back, and is then pulled out sideward. After being pulled out sideward, the support is pushed downward with the help of leverage arms 138 and their handles 139 alongside the support. The front (directional) wheels 142 first touch the ground, followed by the rear wheels 141. The wheel support can then be fully opened up, shown in
The seating pad, between the two arms, rest on pulled out supports from the rear arms of the wheel support. While seated, the user can sit back with an available backrest in place. The backrest is accessed by pulling on a tab 151, attached to a mesh, or cloth, or any other similar functional backing, and hooking it around a second post 150 across from the first in the back.
The alignment bar 107, which lays between the knee 111 and ankle rotators 116, is an integral part of the leg alignment. When the parallel tubes 108, the lower leg kick and leg stability system is disengaged, the alignment bar is a constant operating feature that reinforces the leg alignment.
Other leg attachments of the leg alignment are the leg straps 121, under-leg pad 105, and spacer. The leg straps are assigned to both the upper and lower leg. The straps hold the alignment against the leg. The under-leg pad, located at the back of the upper leg, is connected to the hip rotator 101 and rear gears 103 via their respective arms. When power is generated from both sources, it pushes up against the pad, giving the leg lift and movement for the user's desired motion. The spacer is padding or molding, necessary to fill the gap that may exist between the leg of the user, and the leg alignment. For the components of the leg alignment to work effectively, it should be securely placed against the leg. The spacer helps achieve this by keeping everything uniformed alongside the leg.
For those users just starting out with the wearable or for those who do not feel entirely comfortable using it, training wheels 124 are available. These wheels trail behind the flex footing and are connected by extended arms 123 to the ankle rotators. The training wheels retain constant contact to the ground when walking by way of a coiled spring hinge between the arm and ankle rotator that pulls the wheel arm downward. When the wheels are not in use, the arm can be detached, or pulled upwards and hooked against the lower leg kick.
On the side of the lower leg kick, there is a secondary leg stand 113, shown in
The balance poles 122, as seen in
Also found near the top end of the pole is a dial 154, that when turned, turns the tab on the side of the foot. This is accomplished with the pole's lower-end rotator 156 positioned against a rotator encircling the tab on the side of the foot, and the dial on the pole turning that rotator. The dial at the top of the pole and the rotator at the bottom of the pole are connected preferably with a belt or chain 155, but any other conveyance that functions equally so will achieve this purpose.
An option designed towards helping less flexible paraplegics, or even possibly, to some extent quadriplegics, is an H-frame body support 165, shown in
The drawings depicted in the figures are for illustrative purposes only, and done mainly for the purpose of conveying the spirit of the invention. The drawings are not necessarily drawn to scale, and may fall short of being an exact representation of the invention as described in the patent. For example, the motion handle's depiction in the respective figures is not drawn to scale, and is drawn much more angular than the curvature it will have in its final design.
Number | Name | Date | Kind |
---|---|---|---|
8057410 | Angold | Nov 2011 | B2 |
8663136 | Alsaffar | Mar 2014 | B1 |
20020094919 | Rennex | Jul 2002 | A1 |
20060142105 | Kudoh | Jun 2006 | A1 |
20130231595 | Zoss | Sep 2013 | A1 |
20150272809 | Accoto | Oct 2015 | A1 |
Number | Date | Country | |
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20180092795 A1 | Apr 2018 | US |
Number | Date | Country | |
---|---|---|---|
62566376 | Sep 2017 | US | |
62403140 | Oct 2016 | US |