The present invention relates in general to a human assistance device, and more particularly, to a personal augmentation suit and method for assisted human motion.
A variety of human assistance devices provide aid for human motion. Some work tasks and activities demand frequent and heavy lifting or long-term strenuous movement, beyond normal unassisted physical exertion, and can lead to exhaustion and potential injury. In particular, excessive strain on muscles and joints can cause injury to the back, legs, and knees with associated reduction in productivity. The human assistance device as worn by the user is designed to overcome or compensate for the added load or strain and make many work tasks easier to perform.
In one embodiment, the human assistance device uses an exoskeleton with rigid components e.g., linkages and joints, attached to the user's body. The exoskeleton joints are ideally positioned to have an axis of rotation collinear with a natural axis of rotation for adjacent joints. The rigid exoskeleton relies on a framework of linkages connected to the body at select locations via pads and straps to provide the ability to augment human movements that need assistance or otherwise enhance the user's performance, stability, balance, and safety. As the user flexes or extends his limbs, these rigid links move in parallel with the limb, adding considerable inertia to movement. Unfortunately, the rigid exoskeleton also causes considerable restriction to the user's motion that impedes natural and fluid movement.
In another example, U.S. patent publication 2015/0321339 discloses a soft exosuit that generates forces about one or more joints based on anchor elements and connection elements disposed between the anchor elements. The exosuit uses sensors to determine forces on the anchor or connection elements. Actuators are configured to change tension in the soft exosuit in response to the sensors. The exosuit tends to be complex with an overreliance on active components, such as sensors and actuators, to control its operation. The intricate interconnection of anchor elements, connection elements, sensors, and actuators tends to be expensive to manufacture, difficult to configure, slow in response, and overall low reliability.
The present invention is described in one or more embodiments in the following description with reference to the figures, in which like numerals represent the same or similar elements. While the invention is described in terms of the best mode for achieving the invention's objectives, those skilled in the art will appreciate that the description is intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims and their equivalents as supported by the following disclosure and drawings.
Upper torso harness 110 includes shoulder straps 112 around the shoulders of user 100, back interconnect strap 114 between shoulder straps 112, front strap 116 with adjustable buckle 118. Back interconnect strap 114 and front strap 116 are affixed to shoulder straps 112 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Shoulder straps 112 extend down the back of user 100 to waist and back belt 120. Waist and back belt 120 wraps around the waist, hips, and lower back area and secures with Velcro or buckles. In one embodiment, belt 120 has a width W1 of 7-18 centimeters (cm). Shoulder straps 112 can slide within upper torso harness 160 and are affixed to belt 120 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Waist and back belt 120 provides a brace to support the lower back and tightens to squeeze the hips when squatting.
Thigh straps 130 extend from waist and back belt 120 over the gluteal area and around the thigh area of user 100. Thigh straps 130 connect to belt 120 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. In particular, thigh straps 130 include Y-configured strap 132a over the gluteal area and hamstrings, side straps 132b, and front straps 132c over the quadriceps. Knee support 134 connects to Y-configured strap 132a and side straps 132b with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Knee support 134 includes a pocket or cavity for the knee of user 100, with support material covering the knee and straps around the knee. Knee support 134 and side straps 132b can include pads to provide hard support points for P2K 102. Calf straps 138 connect to knee support 134 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. In particular, calf straps 138 include Y-configured strap 138a over the calf of user 100. Foot anchor 140 connects to calf strap 138 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Foot anchor 140 is configured to connect to a shoe, boot, or directly to the foot, e.g., under and over the foot with an adhesive or sock-like slip-on.
P2K 102 is modular in construction, configuration, and use. P2K 102 can be configured with various combinations of components described in
Consider user 100 wearing P2K 102 in the seated position on seat 142 and holding load 144 in
In general, P2K 102 utilizes a flexible, modular, passive strapping system that, in one embodiment, extends from upper torso harness 110 to waist and back belt 120 and further travels down gluteal area and hamstrings with thigh straps 130 to knee support 134. P2K 102 can further extend from knee support 134 over the calf area with calf straps 138 to foot anchor 140. P2K 102 gains support from upper torso harness 110 and belt 120, as well as the strapping arrangement from the back of the thigh, front of the knee, and back of the tibia to anchor at the foot. Because the straps cross at the waist and over the length of the leg, the strapping arrangement stores energy in the elastic bands or springs during the squatting or crouching motion to be released during transition to the standing position thus assisting with human motion under load. The crossed straps also hold P2K 102 in place during various movements, such as squatting.
Elastic bands have been found to be particularly effective in areas 146 and 148 (belt 120), area 150 (thigh straps 130), and area 152 (calf straps 138) for assisting with human motion under load, as shown in
Upper torso harness 160 includes shoulder straps 162 around the shoulders of user 156, back interconnect strap 164 between shoulder straps 162, front strap 166 with adjustable buckle 168. Back interconnect strap 164 and front strap 166 are affixed to shoulder straps 162 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Shoulder straps 162 extend down the back to waist and back belt 170. Waist and back belt 170 wraps around the waist, hips, and lower back area and secures with Velcro or buckles. In one embodiment, belt 170 has a width W2 of 7-18 cm. Shoulder straps 162 can slide within upper torso harness 160 and are affixed to belt 170 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Waist and back belt 170 provides a brace to support the lower back and tightens to squeeze the hips when squatting.
Leg strap arrangement 174 extends down the legs of user 156. Leg straps 174 include Y-configured thigh portion 174a over the gluteal area and hamstrings of user 156, cross-configured knee portion 174b over the front of the knee area, and Y-configured calf portion 174c over the calf area. Thigh portion 174a connect to waist and back belt 170 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Leg straps 174 utilize the bending motion of the ankle and knee for maximum stretching of the elastic bands. Foot anchor 176 connects to calf portion 174c behind the heel with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Foot anchor 176 connects to a shoe, boot, or directly to the foot, e.g., under and over the foot with an adhesive or sock-like slip-on.
P2K 158 is modular in construction, configuration, and use. For example, P2K 158 can be used as waist and back belt 170 with leg straps 174, without shoulder straps 162. The various straps and belts in
Upper torso harness 210 includes shoulder straps 212 around the shoulders of user 200, upper back interconnect strap 214 between shoulder straps 212, front strap 216 with adjustable buckle 218. Back interconnect strap 214 and front strap 216 are affixed to shoulder straps 212 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Shoulder straps 212 extend down the back to back support 220 and affix with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Lower back interconnect strap 219 is connected above back support 220.
Leg strap arrangement 224 extends down the legs of user 200. Leg straps 224 include Y-configured thigh portion 224a over the gluteal area and hamstrings of user 200, cross-configured knee portion 224b over the front of the knee area, and Y-configured calf portion 224c over the calf area. Thigh portion 224a connects to back support 220 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Leg straps 224 utilize the bending motion of the ankle and knee for maximum stretching of the elastic bands. Foot anchor 226 connects to calf portion 224c behind the heel with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Foot anchor 226 connect to a shoe, boot, or directly to the foot, e.g., under and over the foot with an adhesive or sock-like slip-on.
P2K 202 stores potential energy in the strapping arrangement, e.g., potential energy is stored in elastic strapping when transitioning from a standing position to a crouched, squatting, or seated position. The potential energy in P2K 202 is released when user 200 moves from the crouched, squatting, or seated position to return upright in stance, thereby assisting the user in the motion, particularly while under load.
Upper torso harness 240 includes backpack assembly 242 with shoulder straps 244. Backpack assembly 242 can be made with an air mesh material with openings to allow for air-flow on the back and reduces the overall weight. Backpack assembly 242 can include a combination of elastic material and webbing material. Backpack assembly 242 covers a portion of back area of user 230 to improve ergonomics and comfort, relieve lower back pressure, and ease of donning and doffing. Shoulder straps 244 extend over the shoulder and affix to backpack assembly 242 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Shoulder straps 244 can slide relative to backpack assembly 242 for user comfort. Buckles 246 in shoulder straps 244 provide adjustment and attachment points. Buckles 246 can be used to adjust elastic pre-load (strength of the suit when squatting down) and enable P2K 232 to fit different body sizes. Back support 250 connects to backpack assembly 242 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Side straps 252 extend from shoulder straps 244 to back support 250. Side straps 252 can include elastic material with buckles for adjustments and comfort, see
Leg strap arrangement 258 extends down the legs of user 230. Leg straps 258 include thigh portion 258a over the gluteal area and hamstrings of user 230, knee portion 258b over the front of the knee area, and calf portion 258c over the calf area. Thigh portion 258a connects to back support 250 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Seat webbing 254 is connected to back support 250 and thigh portion 258a with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Seat webbing 254 is an elastic material for storing and releasing power and comfortable load distribution. Knee portion 258b includes a knee pad for knee protection while kneeling on the ground. Knee portion 258b anchors the knee when energy is being stored and returned by P2K 232. Leg straps 258 utilize the bending motion of the ankle and knee for maximum stretching of the elastic bands. Foot anchor 260 connects to calf portion 258c behind the heel with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Foot anchor 260 crosses over the talus and then wraps around the arch. Foot anchor 260 can be configured to connect to a shoe, boot, or directly to the foot.
The various straps and belts in
Upper torso harness 310 includes backpack assembly 312 with shoulder straps 314. Backpack assembly 312 can include a combination of durable materials such as textured nylon, polyurethane coated polyester, and rigid plastic or polymer inserts, as well as elastic material and webbing material. Backpack assembly 312 can be made with an air mesh material with openings to allow for air-flow on the back and reduce the overall weight. Backpack assembly 312 covers a portion of back area of user 300 to improve ergonomics and comfort, relieve lower back pressure, and ease of donning and doffing. Shoulder straps 314 extend over the shoulder and affix to backpack assembly 312 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Shoulder straps 314 are made with elastic material or webbing material and can slide, loosen, or tighten relative to backpack assembly 312 for user comfort and adapting to movement. Buckle 316 in shoulder straps 314 provides adjustment and attachment points. Buckle 316 snaps to lock and enable P2K 302 to fit different body sizes. Backside strap arrangement 320 extends over the gluteal area and connects to backpack assembly 312 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Backside strap arrangement 320 slides or moves relative to backpack assembly 312 to enable or minimize medial/lateral relative motion and provide pre-tensioning. Shoulder straps 314 anchor to backpack assembly 312, and side straps 322 extend from backpack assembly 312 under the arms and along the side torso of user 300 to backpack assembly 312 or backside strap arrangement 320. Side straps 322 can include elastic material with buckles 324 for adjustments and comfort.
Leg strap arrangement 328 extends down the legs of user 300. Leg straps 328 include hamstring portion 328a over the hamstrings of user 300, knee portion 328b over the front of the knee area, and calf portion 328c over the calf area. Hamstring portion 328a connects to backside strap arrangement 320 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Seat webbing 326 is connected within backside strap arrangement 320 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Seat webbing 326 is an elastic material for storing and releasing power and comfortable load distribution. Knee portion 328b includes knee pads 330 for padding and protection of the knee while kneeling on the ground. Knee portion 328B provides an anchor point during energy storage and return while using P2K 302. In particular, knee pad 330 opens or splits along vertical or angled seam 332 and closes with buttons, snaps, hooks, Velcro, or other secure attachment mechanism for ease of donning and doffing P2K 302. Leg straps 328 utilize the bending motion of the knee for maximum stretching of the elastic bands. Calf portion 328c includes strap 336 extending down the tibia and strap cuff 338 over the calf. Strap 338 closes with buttons, hooks, snaps, Velcro, cuff, or other secure attachment mechanism.
The various straps and belts in
P2K 350 includes a backpack assembly implemented as improved outer tactical vest (IOTV) or outer tactical vest (OTV) 352 connected to leg strap arrangement 360. IOTV/OTV 350 includes molle pouches capable of carrying personal armor protection, ammunition, and other tactical gear for military, law enforcement, and personal protection. Backside strap arrangement 358 extends over the gluteal area and connects to IOTV/OTV 350 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Backside strap arrangement 358 slides or moves relative to IOTV/OTV 350 to enable or minimize medial/lateral relative motion and provide pre-tensioning. Leg strap arrangement 360 extends down the legs of the user. Leg straps 360 include hamstring portion 360a over the hamstrings of the user, knee portion 360b over the front of the knee area, and calf portion 360c over the calf area. Hamstring portion 360a connects to backside strap arrangement 358 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Seat webbing 362 is connected within backside strap arrangement 358 with sewing, rivets, belt, buckles, buttons, snaps, hooks, adhesive, Velcro, or other secure attachment mechanism. Seat webbing 362 is an elastic material for storing and releasing power and comfortable load distribution. Knee portion 360b includes knee pads 366 for padding and protection of the knee while kneeling on the ground. Knee portion 360b provides an anchor point during energy storage and return while using P2K 350. In particular, knee pad 366 opens or splits along vertical or angled seam 368 and closes with buttons, snaps, hooks, Velcro, or other secure attachment mechanism for ease of donning and doffing P2K 350. Leg straps 360 utilize the bending motion of the knee for maximum stretching of the elastic bands. Calf portion 360c includes strap 370 extending down the tibia and strap cuff 372 over the calf. Strap 372 closes with buttons, hooks, snaps, Velcro, cuff, or other secure attachment mechanism.
While one or more embodiments of the present invention have been illustrated in detail, the skilled artisan will appreciate that modifications and adaptations to those embodiments may be made without departing from the scope of the present invention as set forth in the following claims.
The present application is a continuation-in-part of U.S. patent application Ser. No. 15/674,386, filed Aug. 10, 2017, which claims the benefit of U.S. Provisional Application No. 62/403,596, filed Oct. 3, 2016 and U.S. Provisional Application No. 62/477,797, filed Mar. 28, 2017, which applications are incorporated herein by reference.
Number | Date | Country | |
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62403596 | Oct 2016 | US | |
62477797 | Mar 2017 | US |
Number | Date | Country | |
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Parent | 15674386 | Aug 2017 | US |
Child | 16143322 | US |