WO2023278186A1 - Bodyweight unloading locomotive device - Google Patents
Bodyweight unloading locomotive device Download PDFInfo
- Publication number
- WO2023278186A1 WO2023278186A1 PCT/US2022/034126 US2022034126W WO2023278186A1 WO 2023278186 A1 WO2023278186 A1 WO 2023278186A1 US 2022034126 W US2022034126 W US 2022034126W WO 2023278186 A1 WO2023278186 A1 WO 2023278186A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- tether
- cam
- spring
- unloading
- assembly
- Prior art date
Links
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H3/00—Appliances for aiding patients or disabled persons to walk about
- A61H3/04—Wheeled walking aids for patients or disabled persons
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H3/00—Appliances for aiding patients or disabled persons to walk about
- A61H3/008—Appliances for aiding patients or disabled persons to walk about using suspension devices for supporting the body in an upright walking or standing position, e.g. harnesses
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H3/00—Appliances for aiding patients or disabled persons to walk about
- A61H2003/007—Appliances for aiding patients or disabled persons to walk about secured to the patient, e.g. with belts
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/14—Special force transmission means, i.e. between the driving means and the interface with the user
- A61H2201/1418—Cam
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/14—Special force transmission means, i.e. between the driving means and the interface with the user
- A61H2201/1481—Special movement conversion means
- A61H2201/149—Special movement conversion means rotation-linear or vice versa
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/16—Physical interface with patient
- A61H2201/1602—Physical interface with patient kind of interface, e.g. head rest, knee support or lumbar support
- A61H2201/1628—Pelvis
- A61H2201/163—Pelvis holding means therefor
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/16—Physical interface with patient
- A61H2201/1602—Physical interface with patient kind of interface, e.g. head rest, knee support or lumbar support
- A61H2201/164—Feet or leg, e.g. pedal
- A61H2201/1642—Holding means therefor
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H2201/00—Characteristics of apparatus not provided for in the preceding codes
- A61H2201/16—Physical interface with patient
- A61H2201/1602—Physical interface with patient kind of interface, e.g. head rest, knee support or lumbar support
- A61H2201/165—Wearable interfaces
- A61H2201/1652—Harness
Definitions
- the present specification relates generally to locomotive equipment, and more particularly to locomotive rehabilitation, therapy, and training equipment.
- Locomotion is a basic facet of human life. Mobility can, however, be difficult, injurious, or impossible for some. There are a variety of reasons for why a person may experience partial or complete mobility limitations: orthopedic conditions, neurological disorders, motor deconditioning, accident, injury, disease, and disability, for example. Continuing to move - or even attempting to move - can cause discomfort or injury.
- Harnesses that hang from the ceiling tracks generally support the user at a single location, usually above the head or near the center of the back. Occasionally they lift the user at opposed sides of the hips. In both arrangements, the harness restricts the normal movement of the upper body during locomotion. The user may experience upward lift on one side of his body that is the same as that on the other side of this body. In other words, the user’s left and right sides are lifted equally and simultaneously. In normal walking and running, however, the forces along the left side of the body are different than and independent from those along the right side of the body. Such systems do not account for these differences, and may exercise different muscles than those used in normal running and walking, thereby leading to improper or prolonged rehabilitation, therapy, or training.
- a body weight unloading locomotive device includes a frame mounted on wheels for locomotive movement.
- the frame has opposed left and right sides, and a harness supports a user between those left and right sides.
- An unloading assembly is carried on each of the left and right sides, wherein the unloading assemblies each includes a sprung arm having a fixed end fixed to the respective left and right side, and an opposed free end.
- the assemblies further each include a cam assembly mounted on the free end of the sprung arm and a tether routed through the cam assembly and extending to the harness.
- Each of the unloading assemblies thereby exerts an independent unloading force on the harness with respect to the frame, encouraging natural movement and allowing independent unloading of the left and right sides of the body during such natural movement.
- a body weight unloading locomotive device in another embodiment, includes a frame for supporting locomotive movement.
- the frame has opposed left and right sides, and a harness supports a user between those left and right sides.
- An unloading assembly is carried on each of the left and right sides.
- the unloading assemblies each include a spring having a first end fixed to the respective left and right side, and an opposed second end, a cam assembly, and a tether routed through the cam assembly and extending to the harness.
- a cable is routed through the cam assembly and extends to one of an anchor on the frame and the second end of the spring.
- Each of the unloading assemblies exerts an independent unloading force on the harness with respect to the frame.
- a body weight unloading locomotive device includes a frame configured to support locomotive movement, and an unloading assembly carried by the frame.
- the unloading assembly includes a spring having a fixed end coupled to the frame and an opposed free end, a cam assembly mounted to the frame for rotational movement, a first tether extending from the free end of the spring to the cam assembly, and a second tether extending from the cam assembly to a load.
- the unloading assembly exerts an unloading force on the load with respect to the frame.
- FIGS. 1 and 2 are front perspective and side elevation views of a body weight unloading locomotive device, respectively;
- FIG. 3A is an enlarged side elevation view of the bodyweight unloading locomotive device with a panel removed to expose an unloading assembly carried thereon;
- FIG. 3B is a section view taken along the line 3-3 in FIG. 1, slightly sectioning the bodyweight unloading locomotive device and the unloading assembly carried thereon;
- FIG. 4A is a section view taken along the line 4-4 in FIG. 2, showing pulley cassettes on the bodyweight unloading locomotive device;
- FIGS. 4B and 4C are enlarged rear perspective views of one of the pulley cassettes
- FIGS. 5-7 are enlarged, generalized diagrams illustrating alternative embodiments of the unloading assembly
- FIGS. 8-1 OB are enlarged, generalized diagrams illustrating alternative embodiments of the unloading assembly.
- FIGS. 11A-11C are front, side, and perspective views of a harness, and components thereof, for use in the bodyweight unloading locomotive devices.
- FIGS. 1 and 2 are front perspective and right side elevation views of a body weight unloading locomotive device 10 (hereinafter, the “device 10”) for support during movement, regardless of different and independent movements on both sides of the body.
- the device 10 provides independent, bilateral support proximate the hips of a user, to assist the user in self-propelled, locomotive motion.
- the device 10 includes an assembled frame 11, four wheels 12, and unloading assemblies 13 and 14 carried on the frame 11.
- the unloading assemblies 13 and 14 are hidden in FIGS. 1 and 2 by panels 15 carried on the frame 11, but are much more visible in FIGS. 3A and 3B.
- the unloading assemblies 13 and 14 are coupled to a harness worn by a user, as depicted in FIG. 1, and operate to lift or unload some portion of the user’s body weight on the left and right sides of the user’s body.
- the device 10 generally has atop 16, an opposed bottom 17, a front 18, and an opposed back 19.
- the word “generally” is used here to indicate a general area of the device 10, rather than a specific point, element, feature, or the like. Further, description herein may be made to relative directions or orientations with respect to these terms top, bottom, front, back, and the description may indicate the arrangement of multiple elements or features with respect to each other in the context of above, below, in front of, behind, or the like, relying on the reader’s understanding of the top 16, bottom 17, front 18, and back 19 for contextual reference.
- the frame 11 includes identical left and right sides 20 and 21 rigidly coupled to each other with a top tube 22 and a bottom tube 23. Because the left and right sides 20 and 21 of the frame 11 are identical, only one is described here, with the understanding that the description applies equally to the other. The same reference characters are used for the structural elements and features of both the left and right sides 20 and 21, and the reader will understand that the context or diction of the relevant description will convey whether the description is of the left or right side 20 or 21.
- the right side 21 includes a main tube 24 extending generally diagonally from the bottom 17 and back 19 of the device 10 to the bottom tube 23 of the frame 11 proximate the front 18, approximately midway between the top 16 and bottom 17 of the device 10.
- the main tube 24 has a rectangular cross-section, is hollow, and has a thin, strong, durable, but lightweight sidewall constructed out of a material or combination of materials having those properties, such as steel, aluminum, titanium, or carbon fiber. Other suitable constructive materials and cross-sections are included within the scope of this description.
- the main tube 24 is coupled to a vertical tube or housing 25 which rises from the main tube 24 near the back 19 of the device 10.
- the housing 25 is cylindrical, it is also hollow like the main tube 24.
- the housing 25 holds part of the unloading assembly, as described later.
- a front tube 26 extends diagonally downward, opposite the main tube 24.
- the front tube 26 has an upper section which is nearly, but not quite, level, a long middle section which is diagonal, and a lower section which is nearly vertical.
- the top back of the front tube 26 is coupled to the top of the housing 25, and the middle of the front tube 26 is coupled to the front of the main tube 24.
- the front tube 26, like the main tube 24, preferably but not necessarily has a rectangular cross-section, is hollow, and has a thin, strong, durable, but lightweight sidewall constructed out of a material or combination of materials having those properties, such as steel, aluminum, titanium, or carbon fiber.
- the botoms of the main tube 24 and the front tube 26 are generally vertical.
- the botom of the front tube 26 is open so as to receive a post 30.
- the wheels 12 are mounted on the post 30 for rolling movement and for swiveling movement so that the device 10 can be pointed and moved in a desired direction.
- a series of vertically spaced-apart holes 31 are formed in the post 30, and an adjustment knob 32 is threaded through the botom of the front tube 26 and into one of the many holes 31.
- the knob 32 allows vertical adjustment of the post 30 to change the height of the device 10 at the front 18; the knob 32 may be loosened or released from front tube 26, the post 30 slid up or down, and the knob 32 then tightened or re-engaged with the front tube 26.
- the botom of the main tube 24 has a series of vertically spaced-apart holes 33 formed therethrough; these holes 33 receive an axle 34 of each of the wheels 12 at the back 19 of the device 10.
- the axle 34 can be moved into any of the holes 33 to adjust the height of the device 10 at the back 19.
- the axle 34 is secured with a pin 35, such as a coter pin or other suitable engagement, placed through the axle 34 on the opposite side of the main tube 24 from the wheel 12.
- the wheels 12 in the back 19 preferably, but not necessarily, are mounted for rolling movement but not for swiveling movement.
- the left and right sides 20 and 21 of the frame 11 are coupled by the top tube 22 and the botom tube 23.
- the top tube 22 is a rigid tube bent into a U shape, with a straight front section and two side sections or legs oriented at roughly ninety degrees to the front section. These legs are screwed, bolted, welded, or otherwise securely engaged to the top sections of the front tubes 26 on both the left and right sides 20 and 21.
- the botom tube 23 is a rigid tube bent into a U shape, with a straight front section and two side sections or legs oriented at roughly ninety degrees to the front section. These legs are screwed, bolted, welded, or otherwise securely engaged to top sections of the main tubes 24 on both the left and right sides 20 and 21.
- the user When the user uses the device 10, the user stands, walks, or runs behind the top and botom tubes 22 and 23 and between the left and right sides 20 and 21, as shown in FIG. 1.
- the top tube 22, together with the left and right sides 20 and 21 and the botom tube 23, defines a user-receiving area 36 accessible from the back 19 of the device 10.
- a handlebar 40 extends forwardly at the top 16 of the device 10.
- a cylindrical sleeve 41 is mounted along the top section of the front tube 26; the sleeve 41 is hollow, its back is secured against the top of the housing 25, and its front is open.
- a series of horizontally spaced-apart holes 42 are formed through the outside of the sleeve 41; an adjustment knob 43 is threaded through the holes 42 and allows horizontal adjustment of the handlebar 40 to change the reach of the user when using the device 10.
- the knob 43 may be loosened or released from sleeve 41, the handlebar 40 slid into or out of it, and the knob 43 then tightened or re-engaged with the sleeve 41.
- the handlebar 40 is curved in several different directions.
- the back of the handlebar 40 is straight so that it may fit in the sleeve 41.
- the handlebar 40 has a length, as shown in FIG. 1, so that it extends forwardly beyond the top section of the front tube 26.
- the handlebar 40 then bends inwardly for a short section, and then bends upwardly for a short section.
- Other handlebar 40 configurations are suitable as well.
- the handlebar 40 is hollow and has a thin, strong, durable, but lightweight sidewall constructed out of a material or combination of materials having those properties, such as steel, aluminum, titanium, or carbon fiber.
- a user When a user is disposed in the user-receiving area 36 and operating the device 10, the user can easily reach out and hold the handlebar 40, gripping any portion thereof as is comfortable to steady the device 10 and assist in movement and steering.
- FIGS. 3A and 3B show the right side 21 of the frame 11.
- FIG. 3 A the panel 15 is removed so that the unloading assembly 14 is visible
- FIG. 3B is a section view taken along the line 3-3 of FIG. 1, just barely inside the frame 11, such that the panel 15 is not visible and the frame 11 is partially sectioned.
- the unloading assemblies 13 and 14 are carried on, and partially within, the frame 11; the unloading assembly 13 is on the left side 20, and the unloading assembly 14 is on the right side 21.
- the unloading assemblies 13 and 14 shown here are identical, only the unloading assembly 14 on the right side 21 will be described here with the understanding that the description applies equally to the other.
- the same reference characters are applicable to the unloading assembly 14 on the left side 20.
- the unloading assemblies 13 and 14 need not be identical, and this description should not be limited so. Indeed, in some embodiments, it may be desirable to actually have different unloading assemblies.
- the device 10 may be outfitted with intentionally different unloading assemblies 13 and 14 having different bend, load, and other performance characteristics. For example, for a patient recovering from a stroke, it may be advantageous to provide more unloading force to a side of the patient’s body which has been more severely affected by the stroke, while providing less unloading force to the other side. Nevertheless, for the purposes of the description as it relates to the drawings, these particular unloading assemblies 13 and 14 are identical.
- the unloading assembly 14 includes a flat spring 50, a stacked cam assembly
- the flat spring 50 is a sprung arm: a lightweight, compact, resilient and elongate flat spring member having a first, fixed end 53 and a second, a free end 54.
- the fixed end 53 is secured in a sleeve mounted on a block 55 having an angled surface 56.
- An adjustment knob 57 passes through a hole in the fixed end and into a threaded bore 58 in the block 55. The adjustment knob 57 is thus threadably engaged to the block 55 and can be tightened and loosened to change the spring force of the flat spring 50. For less spring force, the adjustment knob 57 is loosened and backed out of the bore 58, which allows the fixed end 53 to rise slightly away from the angled surface 56 of the block 55.
- the adjustment knob 57 is tightened into the bore 58, which holds the fixed end 53 closer to the angled surface 56 of the block 55.
- the adjustment knob 57 is a means for adjusting the spring force of the flat spring 50; in other embodiments, the adjustment knob 57 may be an electric, electromechanical or electromagnetic adjustment, or an adjustable bolt, or some other means for changing the spring force.
- the flat spring 50 operates as a spring. It is mounted in a horizontal configuration. In this horizontal configuration, the free end 54 is above and behind the fixed end 53, and it moves between a first, “unloaded” position as shown in FIG. 3A, in which the free end 54 is in a high position above the fixed end 53, and second, loaded position as shown in FIG. 3B, in which the free end 54 is in a low position closer to the main tube 24. This movement is indicated by the arcuate double-arrowed line A in FIG. 3B. It moves toward the loaded position in response to a weight being placed on the harness on the right side 21, such as by the user walking, and pulling the flat spring 50 down via the tether 52. In response, the flat spring 50 exerts a biasing force in a direction opposite the pull of gravity and vertical translation of the body downward during locomotion; the flat spring 50 acts to pull the tether
- the horizontal configuration is defined as one in which the spring (the spring arm 50, in this case) extends horizontally.
- the flat spring 50 is just a spring which exerts a biasing force in opposition to displacement: extension or compression of a spring. And, in this sense, other springs may be suitable, such as coil springs, pneumatic springs, torsion springs, etc.
- the flat spring 50 has a non-linear force-displacement curve, such that the force required to displace the flat spring 50 increases as the displacement increases; at larger displacements, a larger force is necessary to displace the free end 54 by the same amount.
- the flat spring 50 produces a biasing force against its curve, toward the front 18 of the device 10. As such, when the user is moving forward, this forward bias assists in moving the device 10 forward as well.
- the stacked cam assembly 51 is mounted for rotation on the free end 54.
- the stacked cam assembly 51 includes outer and inner cams 60 and 61, placed side-by-side on the free end 54. Both cams 60 and 61 are mounted for rotation with respect to each other about the same axis of rotation, however, the cams 60 and 61 are fixed to each other to prevent relative rotation.
- the outer cam 60 is larger, and the inner cam 61 is smaller.
- Both cams 60 and 61 are eccentrics with different profiles or shapes; their axes of rotation are offset from their respective geometric centers, such that as they rotate, their lever arms change and the ratio of their respective lever arms change.
- the flat spring 50 and cam assembly 51 together form a constant-force displacement system. In other words, beyond a pre-determined pre-loaded displacement, additional displacement does not significantly change the force required for continued displacement. This is described in greater detail below.
- cam includes a rotating wheel and an eccentrically -mounted wheel or eccentric wheel.
- a cam is a mechanical element that converts rotational and translational movement.
- a cam is a wheel, pulley, or other rotating element which is preferably but not necessarily mounted eccentrically.
- Eccentric rotation is rotation of an element about an axis which is offset from the geometric center of the element.
- the shape or profile of the outer perimeter of the element may define it as a cam, or the location of the axis of rotation may define the element as a cam. All of these definitions are considered within the scope of this disclosure, without exclusion, for all embodiments described herein.
- Another tether an inelastic anchor cable 62
- This anchor cable 62 is part of the unloading assembly 14.
- the tie-down 63 is an anchor preventing the end of the anchor cable 62 attached thereto from moving; the other end of the anchor cable 62 is fixed to the inner cam 61.
- Mounted on top of the main tube 24 is a pulley assembly including three pulleys 64, 65, and 66.
- One end of the anchor cable 62 is fixed to the top of the front of the inner cam 61 and lays in a groove therein before extending down to the pulley 64.
- the anchor cable 62 With rotation of the inner cam 61, the anchor cable 62 wraps around the circumference of the inner cam 61 and effectively shortens the anchor cable 62, bending the flat spring 50 toward the loaded position.
- the length of the anchor cable 62 can be adjusted at the tie-down 63 to increase or decrease the pre-load on the flat spring 50.
- the tether 52 has an opposite orientation on the larger outer cam 60. It has two ends. One end of the tether 52 is fixed to front side of the cam 60; this end is wrapped over the top of the cam 60 but in a different direction from the anchor cable 62, such that it is fixed to the front side of the cam 60 and then extends over and around the circumference of the cam 60. From there, the tether 52 extends downward to the pulleys 65 and 66. The pulley 66 is partially mounted inside the housing 25.
- the three pulleys 64, 65, and 66 have parallel axes; each spins in the same direction. All three pulleys 64, 65, and 66 are mounted proximate each other, along the main tube 24, and in the same plane, such that they only act to redirect the anchor cable 62 or tether 52 in a new direction along that plane. However, the tether 52 rises up from the pulley 66 inside the housing 25 to a different set of pulleys which orient the tether 52 for attachment to the harness.
- FIGS. 4A-4C illustrate a pulley cassette 70 containing these other pulleys 71, 72, and 73 which redirect the tether 52.
- the pulley cassette 70 is part of the unloading assembly 13 (or 14) and is mounted for swinging movement in the housing 25 of the frame 11 and includes an outer housing 74 with an inner side 75 and an opposed outer side 76.
- the outer side 76 is directed away from the frame 11, inward into the user receiving area 36.
- the inner side 75 is partially carried within the housing 25. Proximate the top 16, the housing 25 has a large open window 80.
- the pulley cassette 70 swings forward and backward in this window 80.
- FIG. 4C shows a wide range of angular movement, but preferably the pulley cassette is limited in swinging more than thirty degrees in front of or behind a neutral position, which is shown in FIGS. 4 A and 4B.
- the housing 74 Within the housing 74 are three axles on which the pulleys 71, 72, and 73 are mounted for rolling movement.
- these pulleys 71, 72, and 73 are mounted in a perpendicular offset fashion to the pulleys 64, 65, and 66.
- the tether 52 extends up from the pulley 66, inside the housing 25, and routes over the first pulley 71, then under the second pulley 72, and then again over the third pulley 73.
- a hole 85 is formed through the outer side 76 of the housing 74, and a strong bracket mounted outside the hole 85 has a hole corresponding thereto.
- a stop 87 is secured on the tether 52 to prevent the tether 52 from being pulled into the pulley cassette 70 farther than desired.
- a user uses the device 10 to assist in locomotive movement.
- the device 10 is useful for physical therapy, rehabilitation, and athletic training.
- a user 90 is illustrated in the user-receiving area 36 using the device 10.
- the user is wearing a harness 91.
- Any suitable harness 91 may be used; this harness 91 includes an adjustable waist belt 92, adjustable thigh straps 93, adjustable above-the-knee straps 94, and outer or lateral straps 95 on each side of the harness 91 inelastically connecting the waist belt 92, thigh strap 93, and above-the-knee strap 94.
- the tethers 52 from both unloading assemblies 13 and 14 are shown directly attached to the waist belt 92.
- Attachment of the tethers 52 to a point at the level of the region between the hip joint and the waist is preferred.
- the tethers 52 may terminate with clips such as carabiners for coupling to loops on the waist belt 92.
- the tethers 52 are attached to opposing sides of the waist belt 92, just above the hip joints. In this way, each tether 52 independently acts on one respective side of the body.
- the harness 91 couples the user 90 to the device 10.
- the user 90 walks, his hips move up and down.
- the cassette pulley 70 swings forward slightly, the tether 52 retracts (until limited by the stop 87 encountering the bracket 86), and the flat spring 50 bends to a lesser degree toward its unloaded position.
- the force exerted by the flat spring 50 is in the forward direction, which assists in moving the device 10 forward slightly.
- the cassette pulley 70 swings backward slightly, and the tether 52 extends to accommodate the dropping of the right hip and rotation of the pelvis.
- the left and right side 20 and 21 flat springs 50 independently exert a bias on the tethers 52 on their respective sides; in response, the user 90 feels his weight on both the right and left sides of this body at least partially unloaded.
- the unloading assemblies 13 and 14 each independently are a constant-force displacement system, rather than a simple spring force or exponential force displacement system, the user 90 experiences a constant or consistent unloading despite the extent of the displacement on either side. In other words, whether the user 90 raises his right hip or drops his right hip a little or a lot, the unloading force he experiences is constant. In yet other words, if the user drops his right hip a significant distance, he does not experience a proportionally greater unloading.
- the device 10 can be set up to provide a constant fifty pounds of unloading force. If the user drops his hip a little, he will feel that fifty pounds of unloading; if the user drops his hip a lot, he will still feel that same fifty pounds of unloading.
- the sides of his body move independently - and are allowed to move independently - because the unloading assemblies 13 and 14 are independent of each other.
- the hip of the user 90 moves a distance
- the tether 52 moves this distance as well, and unwinds from the cam 60.
- the anchor cable 62 spools onto the cam 61, shortening its effective length and causing the flat spring 50 to flex.
- the cam assembly 51 unreels and the flat spring 50 bends to a greater degree. Because the flat spring 50 and cam assembly 51 combine to form a constant-force displacement, however, the patient feels a constant upward unloading force on that side of the harness 91.
- the displacement of the tether 52 - whether it is one inch or six inches - does not cause a proportional change in the upward force. Rather, the displacement causes essentially no change in unloading force. In this way, the device 10 provides a constant unloading of each side of the user’s body, independently of each other.
- a sensor 100 proximate one of the wheels 12 measures rolled distance.
- the sensors 100 and 101 each may include a microprocessor, gyroscope, accelerometer, memory chip, PCB, and like electronic components. The readings from these two sensors 100 and 101 are correlated for later analytics; doctors and physical therapists can use this information to determine stride length, stance and swing phase duration, speed, work energy, and other kinematic and kinetic parameters of locomotion, and this information can be compared for each side of the body as well as over time to evaluate rehabilitation.
- these sensors 100 and 101 are coupled in wired or wireless data communication to a display head unit, such as a smartphone or other electronic device, preferably mounted on the top tube 22, which displays such information to the user 90.
- a display head unit such as a smartphone or other electronic device, preferably mounted on the top tube 22, which displays such information to the user 90.
- the user 90 can toggle through this and other information by depressing a physical button or touching the display of the head unit.
- the wheels of the device 10 may be removed. This removes the mobility of the device 10, but it can instead now be placed on or around a treadmill.
- the bottom 17 of the frame may be bolted onto or otherwise secured to the treadmill using the holes 31 and 33.
- pads or cushions applied to the bottom 17 of the frame 11 can support the device 10 around the treadmill. The user can then walk or run on the treadmill with his weight supported as described above.
- FIG. 5 shows an alternate embodiment of the unloading assembly 13 of the device 10.
- the below description applies equally to an alternate embodiment of the unloading assembly 14.
- two flat springs are used in combination.
- FIG. 5 is stylized in the form of a free body diagram, but a reader understanding the description hereto will nonetheless readily appreciate and understand FIG. 5.
- the flat spring 50 is mounted as in FIG. 3A: the fixed end 53 is fixed to the main tube 24 and the free end 54 is free.
- the cam assembly 51 is mounted for rotation to the free end 54, and the anchor cable 62 is fixed while the tether 52 routes around the pulley 65 to extend to the harness.
- a second flat spring 110 is used.
- the flat spring 110 is also a sprung arm preferably, but not necessarily, identical in structure, features, and construction to the flat spring 50; it also includes a fixed end 111 and a free end 112.
- the flat spring 110 is mounted in a parallel fashion to the flat spring 50.
- parallel is analogous to two elements in an electrical circuit and does not necessarily refer to a geometric relationship or alignment between the two flat springs 50 and 110.
- the flat spring 50 and cam assembly 51 are in a first position, and the second flat spring 110 is carried in a second position; the first and second positions are different but are registered with each other in a vertically offset fashion.
- the flat springs 50 and 110 in this embodiment are coextensive, but they need not be.
- the second flat spring 110 is stacked above the flat spring 50.
- a rigid, inelastic cable 113 ties or couples the free end 112 of the flat spring 110 to the free end 54 of the flat spring 50, such that movement of the free end 54 immediately and directly imparts movement to the free end 112.
- This coupled arrangement increases the spring force of the flat spring 50.
- the tether 52 remains wrapped around the cam assembly 51 on the flat spring 50. Stacking flat springs on the frame 11 in this way allows the device 10 to unload more weight from the user during operation. In other embodiments, three or more flat springs could be stacked, though this would not likely be necessary for all but the most demanding of weight needs.
- FIG. 6 shows another alternate embodiment of the device 10. While the unloading assembly 14 in FIGS. 3 A and 3B is mounted in a horizontal configuration in which the flat spring 50 extends rearwardly in a general direction and its free end 54 is behind its fixed end 53, here in FIG. 6, the unloading assembly 14 is mounted in a vertical configuration. This unloading assembly 14 is mounted on the vertical housing 25 rather than the horizontal top of the main tube 24. The flat spring 50 is still mounted to the block 55, but the block 55 is fixed vertically on the housing 25, such that the flat spring 50 extends upward, rather than rearward. The free end 54 of the flat spring 50 is above the fixed end 53, and when the flat spring 50 flexes, the free end 54 is displaced rearwardly toward the housing 25.
- FIG. 6 shows in solid line the unloading assembly 14 in an unloaded position, and the unloading assembly 14 moves along the double-arrowed arcuate line C toward the housing to a loaded position, similar in displacement to the loaded position shown for the horizonal configuration of FIG. 3B.
- Other vertical configurations are possible and may be suitable, including configurations which are vertically or horizontally flipped with respect to the above- described configuration. Generally, however, the vertical configuration is defined as one in which the spring (the spring arm 50, in this case) extends vertically.
- the pulleys 64, 65, and 66 are also moved to a vertical arrangement, but the anchor cable 62 still routes through the pulley 64 and is secured to the tie-down 63, which is on the housing 25.
- the tether 52 also still routes through the pulleys 65 and 66 but now also extends through an additional pulley 120 which redirects the tether 52 upwardly through the housing to the pulley cassette 70.
- FIG. 7 shows yet another alternate embodiment of the unloading assembly 13 of the device 10, somewhat similar to that shown in FIG. 5.
- the below description applies equally to an alternate embodiment of the unloading assembly 14.
- two flat springs are used in combination.
- FIG. 7 is stylized in the form of a free body diagram, but a reader understanding the description hereto will readily appreciate and understand FIG. 7.
- parallel is analogous to two elements in an electrical circuit and does not refer to a geometric relationship or alignment between the two flat springs 50 and 130.
- the flat spring 50 and cam assembly 51 are in a first position, and the second flat spring 130 is carried in a second position; the first and second positions are different but are registered with each other in a vertically offset fashion.
- the flat springs 50 and 130 in this embodiment are coextensive, but they need not be.
- the second flat spring 130 is stacked below the flat spring 50 and has an inverted position: while the flat spring 50 flexes downwardly under a load, the second flat spring 130 flexes upwardly.
- An inelastic cable 133 couples the free end 132 of the flat spring 130 to the inner cam 61 at the free end 54 of the flat spring 50, such that rotation of the inner cam 61 directly imparts upward movement of the free end 132 of the flat spring 130 as well as downward movement of the free end 54 of the flat spring 50.
- the cable 133 passes through a bore 134 in the main tube 24. This coupled arrangement increases the spring force of the unloading assembly beyond that of the unloading assembly 13 or 14.
- the tether 52 remains wrapped around the outer cam 60 of the cam assembly 51 on the flat spring 50. Coupling flat springs on the frame 11 in this way allows the device 10 to unload more weight from the user during operation. In other embodiments, three or more flat springs could be stacked on either side of the main tube 24 and coupled together, though this would not likely be necessary in all but the most demanding of weight needs.
- the cam assembly 51 need not be mounted directly onto the flat spring 50, or, in other words, the cam assembly 51 can be separate from the spring.
- the flat spring 50 of FIG. 7 could be modified to be a rigid, inflexible, unyielding arm 50.
- the cam assembly 51 is simply mounted to an arm 50, similar to a rigid post, above the main tube 24.
- the arm 50 is thus simply considered part of the frame 11, or a rigid extension thereof.
- the cam assembly 51 is thus coupled to the second or free end 132 of the bendable flat spring 130 with the inelastic cable 133, and to the harness with the tether 52.
- the flat spring 130 is the only arm that moves in this arrangement; when the harness drops, the tether 52 pulls on and rotates the cam assembly 51, and the cable between the cam assembly 51 and the flat spring 130 pulls on and bends the flat spring 130.
- This embodiment is exemplary of unloading assemblies in which the cam assembly and the flat spring are separate, illustrating that the cam assembly need not be carried on or mounted to the flat spring. Indeed, the unloading assembly still operates effectively as a constant-force displacement system when the cable 133 (or anchor cable 62) couples the cam assembly in one direction to a spring (such as the flat spring 130) and the tether 52 couples the cam assembly in an opposing direction to the harness, regardless of the mounting of the cam assembly on or off the spring.
- the spring arm and cam assembly may be separated and not mounted to each other, and the arrangement of the cam assembly and spring arm are actually reversed: the cam assembly 51 is mounted on the main tube 24, the spring arm 50 is mounted on the main tube 24 apart from the cam assembly 51 extends away, an anchor cable 62 coupled to a tie down 63 extends to the cam assembly 51, and then a tether 52 extends from the cam assembly 51 to over the free end 54 of the flat spring 50 and then toward the harness (likely through a pulley assembly).
- FIGS. 8-10B illustrate other alternate embodiments of unloading assemblies suitable for use with the device 10.
- the below descriptions apply equally to an unloading assembly used on the left or right sides 20 of the frame 21 or in an alternate location to support the user within the device 10.
- FIG. 8 illustrates a stylized, free-body diagram of an unloading assembly 140 but nevertheless shows the structural elements and features of the assembly 140.
- the unloading assembly 140 is positioned within the frame 11 proximate the main tube 24 and the vertical tube or housing 25.
- the unloading assembly 140 includes a flat spring 141, a cam assembly 142, a first tether 143 extending from the flat spring 141 to the cam assembly 142, and a second tether 144 extending from the cam assembly 142 and running up (or in some cases, inside) the housing 25 to the pulley cassette 70 described above. As described, the unloading assembly 140 exerts an unloading force on the harness 91 and a load carried therein with respect to the frame 11, in response to the load being applied at the harness 91.
- the flat spring 141 is a sprung arm: a lightweight, compact, resilient and elongate flat spring member having a first, fixed end 150 and a second, free end 151.
- the fixed end 150 is secured in a sleeve mounted on a block 152.
- An adjustment knob 153 passes through a hole in the fixed end 150 and into a threaded bore in the block 152. The adjustment knob 153 is thus threadably engaged to the block 152 and can be tightened and loosened to change the spring force of the flat spring 141. For less spring force, the adjustment knob 153 is loosened and backed out of the bore, which allows the fixed end 150 to rise slightly away from the block 152.
- the adjustment knob 153 is tightened into the bore, which holds the fixed end 150 closer to the block 152.
- the adjustment knob 153 is a means for adjusting the spring force of the flat spring 141; in other embodiments, the adjustment knob 153 may be an electric, electromechanical or electromagnetic adjustment, or an adjustable bolt, or some other means for changing the spring force.
- the flat spring 141 operates as a spring. It is mounted in a horizontal configuration. In this horizontal configuration, the free end 151 is level with the fixed end 150 and moves between a first, “unloaded” position as shown in solid line in FIG. 8, and a second, “loaded” position as shown in broken line in FIG. 8, in which the free end 151 is in a high position away from the main tube 24 and above the fixed end 150. This movement is indicated by the arcuate double-arrowed line 154.
- the flat spring 141 moves toward the loaded position in response to a load being placed in the harness 91, such as by the user 90 walking, and pulling the flat spring 141 up via the second tether 144.
- load is used to describe any weight or other downward force exerted on the harness 91, and it should be understood as such.
- a load is preferably a live load, such as a user 90 in the harness, or it may be some other weight or downward force acting on the unloading assembly 140.
- the flat spring 141 exerts a biasing force in a direction opposite the pull of gravity and vertical translation of the user 90 downward during locomotion or elongation of the second tether 144 with lateral translation of the pelvis; the flat spring 141 acts to pull the second tether 144 back.
- Other horizontal configurations are possible and may be suitable, including configurations which are vertically or horizontally flipped with respect to the above-described configuration. Generally, however, the horizontal configuration is defined as one in which the spring (the spring arm 141, in this case) extends horizontally.
- the flat spring 141 is just a spring which exerts a biasing force in opposition to displacement, whether that is through deflection, extension, or compression of a spring. And, in this sense, other springs may be suitable, such as coil springs, pneumatic springs, torsion springs, etc.
- the flat spring 141 has a non-constant force-displacement curve, such that the force produced by the flat spring 141 increases as the displacement of the three end 151 increases; at larger displacements, the spring force is larger.
- the flat spring 141 is directed horizontally toward the housing 25, and the free end 151 terminates below the cam assembly, such that deflection of the flat spring 141 causes the spring 141 to yield and deflect upward toward the cam assembly 142.
- the cam assembly 142 is mounted for rotation on an axle 160 carried on a bracket 161.
- the bracket 161 is secured to the housing 25 and extends forwardly.
- the cam assembly 142 includes outer and inner cams 162 and 163.
- the stacked cam assembly 142 includes outer and inner cams 162 and 163, mounted coaxially side-by-side on the bracket 161. Both cams 162 and 163 are mounted for rotation with respect to each other about the same axis of rotation, but the cams 162 and 163 are fixed to each other to prevent relative rotation to each other.
- the outer cam 162 is larger, and the inner cam 163 is smaller. Both cams 162 and 163 are circular wheels in this drawing.
- the axle 160 about which they are mounted is not concentric, and therefore the cams 162 and 163 are mounted for eccentric rotation.
- their axes of rotation are offset from their respective geometric centers, such that as they rotate, their lever arms change and the ratio of their respective lever arms change.
- the axle 160 is mounted concentrically to the cams 162 and 163, and in other embodiments, the cams 162 and 163 have shapes other than circles.
- the first tether 143 is an inelastic cable, band, cord, or other tether. One end of the first tether 143 is coupled to the free end 151 of the flat spring 141, and the other end of the first tether 143 is coupled to the inner cam 163.
- the inner cam 163 has at least a single groove formed into its perimeter, and as the inner cam 163 rotates, the first tether 143 rolls and unrolls from this groove.
- the second tether 144 is an inelastic cable, band, cord, or other tether.
- One end of the second tether 144 is coupled to the outer cam 162. From there, the second tether 144 extends over to and then up the housing 25 and to the pulley cassette 70 and then eventually to the harness 91.
- the pulley cassette 90 and harness 91 are not shown in FIG. 8, the reader will understand their location and arrangement from the description above.
- the outer cam 162 has at least a single groove formed into its perimeter, and as the outer cam 162 rotates, the second tether 144 rolls and unrolls from this groove.
- the first and second tethers 143 and 144 are arranged oppositely to each other on the cam assembly 142.
- the first tether 143 is secured at an attachment point 164 on the inner cam 163 and extends downward to the flat spring 141.
- the second tether 144 is secured at an attachment point 165 on the outer cam 162 and extends upward to the pulley cassette.
- the attachment points 164 and 165 are diametrically opposed to each other. In other embodiments, the attachment points 164 and 165 may be in different locations, but the tethers extend outward in opposite directions.
- the second tether 144 extends generally upward in FIG. 8 because it is redirected by a pulley 166.
- a small pulley 166 mounted to the bracket 161 for rotation near the top of the bracket 161, redirects the second tether 144 from its horizontal tangent coming off the outer cam 162 into an upward orientation just along the outside of the housing 25 up to the pulley cassette 70.
- the pulley 166 directs the second tether 144 inside the housing 25.
- FIG. 9 illustrates a stylized, free-body diagram of an unloading assembly 170 but nevertheless shows the structural elements and features of the assembly 170.
- the unloading assembly 170 is positioned within the frame 11 between the front tube 26, the main tube 24, and the vertical tube or housing 25.
- the unloading assembly 170 includes a flat spring 171, a cam assembly 172, a first tether 173 extending from the flat spring 171 to the cam assembly 172, and a second tether 174 extending from the cam assembly 172 and running inside the housing 25 to the pulley cassette 70 described above. As described, the unloading assembly 170 exerts an unloading force on the harness 91 and a load carried in the harness with respect to the frame 11.
- the flat spring 171 is a sprung arm: a lightweight, compact, resilient and elongate flat spring member having a first, fixed end 180 and a second, free end 181.
- the fixed end 180 is secured in a sleeve mounted on a block 182.
- no adjustment knob is used on the flat spring 171, but the reader will readily appreciate that it could be incorporated, and it should nonetheless be considered part of the scope of the disclosure.
- the spring force of the flat spring 171 may be adjusted by an electric, electromechanical or electromagnetic adjustment, or an adjustable bolt, or some other means for changing the spring force.
- the flat spring 171 operates as a spring. It is mounted in a diagonal configuration.
- the block 182 in which the fixed end 180 is secured is fixed to the front tube 26 near its top.
- the flat spring 171 then extends along the diagonal length of the front tube 26 toward the main tube 24.
- the free end 181 is below and in front of the fixed end 180 and moves between a first, “unloaded” position as shown in solid line in FIG. 9, and a second, “loaded” position as shown in broken line in FIG. 9, in which the free end 181 is drawn back away from the front tube 26 and toward the housing 25. This movement is indicated by the arcuate double-arrowed line 183.
- the flat spring 171 moves toward the loaded position in response to a load being placed in the harness 91, such as by the user 90 walking, and pulling the flat spring 171 down via the second tether 174.
- the flat spring 171 exerts a biasing force in a direction opposite the pull of gravity and vertical translation of the user 90 downward during locomotion or elongation of the second tether 174 with lateral translation of the pelvis; the flat spring 171 acts to pull the second tether 174 back.
- Other configurations are possible and may be suitable, including configurations which are vertically or horizontally flipped with respect to the above-described configuration.
- the diagonal configuration is defined as one in which the spring (the spring arm 171, in this case) extends diagonally, especially but not necessarily along the front tube 26.
- the flat spring 171 is a spring which exerts a biasing force in opposition to displacement, whether that is through deflection, extension, or compression. In this sense, other springs may be suitable, such as coil springs, pneumatic springs, torsion springs, etc.
- the flat spring 171 has a non-constant force-displacement curve, such that the force produced by the flat spring 171 increases as the displacement of the free end 181 increases; at larger displacements, the spring force is larger.
- the cam assembly 172 is mounted for rotation on an axle 190 carried on a bracket 191.
- the bracket 191 is secured to the housing 25 and extends forwardly.
- the cam assembly 172 includes outer and inner cams 192 and 193.
- the stacked cam assembly 172 includes outer and inner cams 192 and 193, mounted coaxially side-by-side on the bracket 191. Both cams 192 and 193 are mounted for rotation with respect to each other about the same axis of rotation, however, the cams 192 and 193 are fixed to each other to prevent relative rotation.
- the outer cam 192 is larger, and the inner cam 193 is smaller. Both cams 192 and 193 are circular wheels in this embodiment.
- the axle 190 is concentric to each other but the axle 190 about which they are mounted is not concentric, and therefore the cams 192 and 193 are eccentrically mounted for rotation.
- their axes of rotation are offset from their respective geometric centers, such that as they rotate, their lever arms change and the ratio of their respective lever arms change.
- the axle 190 is mounted concentrically to the cams 192 and 193, and in other embodiments, the cams 192 and 193 have shapes other than circles.
- the first tether 173 is an inelastic cable, band, cord, or other tether. One end of the first tether 173 is coupled to the free end 181 of the flat spring 171, and the other end of the first tether 173 is coupled to the inner cam 193.
- the inner cam 193 has at least a single groove formed into its perimeter, and as the inner cam 193 rotates, the first tether 173 rolls and unrolls from this groove.
- the second tether 174 is an inelastic cable, band, cord, or other tether.
- One end of the second tether 174 is coupled to the outer cam 192. From there, the second tether 174 extends up through the housing 25 and to the pulley cassette 70 and then eventually to the harness 91. Though the pulley cassette 90 and harness 91 are not shown in FIG. 9, the reader will understand their location and arrangement from the description above.
- the outer cam 192 has at least a single groove formed into its perimeter, and as the outer cam 192 rotates, the second tether 174 rolls and unrolls from this groove.
- the first and second tethers 173 and 174 are arranged oppositely to each other on the cam assembly 172.
- the first tether 173 is secured at an attachment point 194 on the inner cam 193 and extends downward to the flat spring 171.
- the second tether 174 is secured at an attachment point 195 on the outer cam 194 and then extends generally upward to the pulley cassette.
- the attachment points 194 and 195 are diametrically opposed to each other on the cam assembly 172. In other embodiments, the attachment points 194 and 195 may be in different locations, but the tethers extend outward in opposite directions.
- Two pulleys 196 and 197 redirect the orientations of the first and second tethers 173 and 174.
- a first pulley 196 is mounted to the main tube 24 for rotation and redirects the first tether 173.
- the first tether 173 extends diagonally downward from the free end 181, wraps under and around the first pulley 196, and then extends diagonally upward to the attachment point 194 on the inner cam 193.
- a second pulley 197 is mounted to the bracket 191 for rotation near the top of the bracket 191.
- a small cutout is made in the housing 25 to allow the pulley 197 to be partially disposed within housing 25.
- the pulley 197 redirects the second tether 174 from its horizontal tangent coming off the outer cam 192 into an upward orientation just inside the housing 25 up to the pulley cassette 70. In some embodiments, the pulley 197 directs the second tether 174 along the outside of the housing 25.
- the flat spring 171 and cam assembly 172 together form a constant-force displacement system. In other words, beyond a pre-determined displacement, additional displacement does not significantly change the tension in or force on the second tether 174 required for continued displacement.
- different cam combinations are used, including assemblies with three or more cams, cams of different sizes and shapes than presented here, similarly-sized cams, etc.
- FIGS. 10A and 10B illustrate unloaded and loaded positions of another embodiment of an unloading assembly 210.
- the drawings are stylized, free-body diagrams but nevertheless show the structural elements and features of the assembly 210.
- the unloading assembly 210 is positioned within the frame 11 between the front tube 26 (here shown as vertical), the main tube 24, and the vertical tube or housing 25.
- the unloading assembly 210 includes a spring 211, a cam assembly 212, a first tether 213 extending from the spring 211 to the cam assembly 212, and a second tether 214 extending from the cam assembly 212 and running inside the housing 25 to the pulley cassette 70 described above.
- the unloading assembly 210 exerts an unloading force on the harness 91, and a load carried therein, with respect to the frame 11.
- the spring 211 is a coiled extension spring.
- the spring 211 has a first, fixed end 220 and a second, free end 221.
- the fixed end 220 is coupled to a bolt 222, such as an eye bolt, which is threaded into or otherwise secured in the front tube 26.
- the spring 211 is mounted in a horizontal configuration, oriented along the horizonal length of the main tube 24.
- the free end 221 of the spring 211 is disposed toward the housing 24.
- FIG. 10A shows a first, “unloaded” position
- FIG. 10B shows a second, “loaded” position. In the unloaded position, the spring 211 is compressed and has a shorter length. In the loaded position, the spring 211 is extended and has a longer length. The spring 211 stretches along the length of the main tube 24 when placed under load.
- the spring 211 moves toward the loaded position in response to a load being placed in the harness 91, such as by the user 90 walking, and pulling the spring 211 into extension via the second tether 214.
- the spring 211 exerts a biasing force in a direction opposite the pull of gravity and vertical translation of the user 90 downward during locomotion or elongation of the second tether 214 with lateral translation of the pelvis; the spring 211 acts to pull the second tether 214 back.
- Other configurations are possible and may be suitable with the spring 211, including configurations which are vertically or horizontally flipped with respect to the above-described configuration.
- the horizontal configuration is defined as one in which the spring 211 extends horizontally, especially but not necessarily along the main tube 24.
- the cam assembly 212 is mounted for rotation on an axle 230 carried on a bracket 231.
- the bracket 231 is secured to the housing 25 and extends forwardly.
- the cam assembly 212 includes outer and inner cams 232 and 233.
- the stacked cam assembly 212 includes outer and inner cams 232 and 233, mounted coaxially side-by-side on the bracket 231. Both cams 232 and 233 are mounted for rotation with respect to each other about the same axis of rotation, however, the cams 232 and 233 are fixed to each other to prevent relative rotation.
- the outer cam 232 is larger, and the inner cam 233 is smaller.
- Both cams 232 and 233 are circular wheels in this embodiment. They are concentric to each other but the axle 230 about which they are mounted is not concentric, and therefore the cams 232 and 233 are eccentrically mounted. In other words, their axes of rotation are offset from their respective geometric centers, such that as they rotate, their lever arms change and the ratio of their respective lever arms change.
- the axle 230 is mounted concentrically to the cams 232 and 233, and in other embodiments, the cams 232 and 233 have shapes other than circles.
- the first tether 213 is an inelastic cable, band, cord, or other tether. One end of the first tether 213 is coupled to the free end 221 of the spring 211, and the other end of the first tether 213 is coupled to the inner cam 233.
- the inner cam 233 has at least a single groove formed into its perimeter, and as the inner cam 233 rotates, the first tether 213 rolls and unrolls from this groove.
- the second tether 214 is an inelastic cable, band, cord, or other tether. One end of the second tether 214 is coupled to the outer cam 232.
- the outer cam 232 has at least a single groove formed into its perimeter, and as the outer cam 232 rotates, the second tether 214 rolls and unrolls from this groove.
- the first and second tethers 213 and 214 are arranged oppositely to each other on the cam assembly 212.
- the first tether 213 is secured at an attachment point 234 on the inner cam 233 and extends generally downward to the spring 211.
- the second tether 214 is secured at an attachment point 235 on the outer cam 234 and then extends generally upward to the pulley cassette.
- the attachment points 234 and 235 are diametrically opposed to each other on the cam assembly 212. In other embodiments, the attachment points 234 and 235 may be in different locations, but the tethers extend outward in opposite directions.
- Two pulleys 236 and 237 redirect the orientations of the first and second tethers
- a first pulley 236 is mounted to the main tube 24 for rotation and redirects the first tether 213.
- the first tether 213 extends horizontally from the free end 221 of the spring 211, wraps around the first pulley 236, and then extends vertically upward to the attachment point 234 on the inner cam 233.
- a second pulley 237 is mounted to the bracket 231 for rotation near the top of the bracket 231 and slightly within the housing 25. It redirects the second tether
- the pulley 237 directs the second tether 214 along the outside of the housing 25.
- FIGS. 11A-11C illustrate a harness 240 and components thereof.
- the harness 240 is preferably used instead of the harness 91 described above.
- This harness 240 includes an adjustable waist belt 241, adjustable thigh straps 242, a cross-piece 243 connecting the thigh straps 242, and outer or lateral straps 244 on each side of the harness 240 inelastically connecting the waist belt 241 to each of the thigh straps 242.
- the waist belt 241 is a length of webbing or other suitable strong and durable material, fastened into a loop with a buckle 245 at the front of the harness 240.
- the thigh straps 242 are each lengths of webbing or other suitable strong and durable material, fastened into loops with buckles 246. The length of webbing may be pulled through the buckles 245 and 246 to adjust each of the waist belt 241 and thigh straps 242 so that they fit the user snugly.
- the lateral straps 244 couple the thigh straps 242 to the waist belt 241.
- the lateral straps 244 are identical and only one is described herein, with the understanding that the description applies equally to both.
- the lateral strap 244, shown in both FIGS. 11A and 11B, includes an inner strap 250 and an outer strap 251.
- the inner strap 250 is a length of webbing or other suitably strong and durable material and is sewn directly to the waist belt 241 and the thigh strap 242.
- the outer strap 251 is also a length of webbing or other suitably strong and durable material.
- the outer strap 251 is sewn to the inner strap 250 along approximately the top half of the inner strap 250.
- the outer strap 251 then separates from the inner strap 250.
- a ring strap 252 is disposed between the inner and outer straps 250 and 251 along the bottom half thereof.
- the ring strap 252 holds the ring 253 shown in FIG. 11C.
- the ring strap 252 is a length of webbing or other suitably strong and durable material, folded over itself to define an inner portion 254, an outer portion 255, and a bend 256 at the top between the inner and outer portions 254 and 255.
- the ring 253 is fit between the inner and outer portions 254 and 255 and disposed in and against the bend 256. Then, the inner and outer portions 254 and 255 are sewn to each other to close the ring strap 252 and secure the ring 253 therein.
- the outer strap 251 is further sewn onto the outer portion 255 of the ring strap 252, and in some cases also sewn to the inner portion 254 and/or the inner strap 250 to secure the lateral strap 244.
- the ring 253 is secured in the lateral strap 244 to hold one of the tethers.
- the tether identified with reference character 144 is used, corresponding to the unloading assembly 140 of FIG. 8, but the reader should understand that the second tether 144 could be one of the other various tethers (or first or second tethers) described in this specification which leads from an unloading assembly.
- the second tether 144 terminates in a disc-shaped puck 260 shown in broken line in FIG. 11C.
- the puck 260 is hard, durable, and permanently fixed to the end of the second tether 144. It slips into and is secured in the ring 253 to couple and engage the harness 240 to the unloading assembly 140.
- the ring 253 includes a backer plate 261, a front plate 262, and a sidewall 263 formed therebetween.
- the backer plate 261 is flat and triangular, having a bottom 264 through which a longitudinal slot 265 is formed entirely.
- the slot 265 is shown in broken line in FIG. llC.
- the front plate 262 is flat and generally triangular.
- the front plate 262 has a bottom 270 through which a longitudinal slot 271 is formed entirely.
- the slots 265 and 271 are coextensive and registered with each other.
- the bend 256 of the ring strap 252 is passed through both of the slots 265 and 271 to secure the ring 253 to the lateral strap 244.
- the front plate 262 also has an open top 272.
- a slit 273 is formed medially through the front plate 262, between the open top 272 and a circular hole 274.
- the top 272, slit 273, and hole 274 cooperate to define a passage for the end of the second tether 144.
- the second tether 144 and puck 260 are applied through that passage and then moved upward, thereby becoming captured within the ring 253.
- the sidewall 263 prevents the puck 260 from coming loose from the ring 253.
- the sidewall 263 extends between the back and front plates 261 and 262 and includes an opening 280 registered with and below the open top 272 of the front plate 262.
- the sidewall 263 is registered along the outside of the ring 253 to just above the slots 265 and 271.
- the sidewall has a large internal cavity 281, shown in broken line in FIG. 11C.
- the internal cavity 281 is preferably but not necessarily circular.
- the internal cavity 281 is offset from the circular hole 274, proximate the top of the ring 253. In this way, when the puck 260 is applied through the circular hole 274, it moves into the internal cavity 281.
- the harness 240 When a user wears the harness 240 and applies a load to the unloading assembly 140, the puck 260 will slide upward within the internal cavity 281 toward the top of the ring 253, into a captured position where it cannot inadvertently come loose.
- the puck 260 cannot be withdrawn from the ring 253 without unloading the tether 144 and pulling the puck 260 down and out of the circular hole 274.
- the embodiments of the unloading assemblies 140, 170, and 210 are used in the device 10 similarly to the unloading assemblies 13 and 14.
- the harness 240 is used similarly in the device 10 to the harness 91. Based on the foregoing descriptions, the reader will understand the operation of the device with substitution of any of the unloading assemblies 140, 170, or 210 or with the harness 240.
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- Health & Medical Sciences (AREA)
- Epidemiology (AREA)
- Pain & Pain Management (AREA)
- Physical Education & Sports Medicine (AREA)
- Rehabilitation Therapy (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Rehabilitation Tools (AREA)
- Braking Arrangements (AREA)
Abstract
Description
Claims
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP22833914.9A EP4312938A1 (en) | 2021-06-29 | 2022-06-19 | Bodyweight unloading locomotive device |
JP2023581049A JP2024525057A (en) | 2021-06-29 | 2022-06-19 | Body weight support walking exercise device |
CN202280038773.1A CN117479912A (en) | 2021-06-29 | 2022-06-19 | Body weight unloading exercise device |
CA3220727A CA3220727A1 (en) | 2021-06-29 | 2022-06-19 | Bodyweight unloading locomotive device |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US17/362,799 | 2021-06-29 | ||
US17/362,799 US11617704B2 (en) | 2020-01-28 | 2021-06-29 | Bodyweight unloading locomotive device |
Publications (2)
Publication Number | Publication Date |
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WO2023278186A1 true WO2023278186A1 (en) | 2023-01-05 |
WO2023278186A8 WO2023278186A8 (en) | 2023-11-23 |
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Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/US2022/034126 WO2023278186A1 (en) | 2021-06-29 | 2022-06-19 | Bodyweight unloading locomotive device |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP4312938A1 (en) |
JP (1) | JP2024525057A (en) |
CN (1) | CN117479912A (en) |
CA (1) | CA3220727A1 (en) |
WO (1) | WO2023278186A1 (en) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2210269A (en) * | 1938-02-01 | 1940-08-06 | Byron M Taylor | Means to aid in regaining normal body locomotion |
US3629880A (en) * | 1968-09-10 | 1971-12-28 | Johannes Nicolaas Van Rhyn | Apparatus for assisting invalids |
US4907794A (en) * | 1987-12-24 | 1990-03-13 | Guardian Products, Inc. | Foldable rolling walker |
US20160158088A1 (en) * | 2014-07-07 | 2016-06-09 | Justin Frankian | Suspension-Based Walking Assistance Aide Apparatus |
-
2022
- 2022-06-19 CA CA3220727A patent/CA3220727A1/en active Pending
- 2022-06-19 CN CN202280038773.1A patent/CN117479912A/en active Pending
- 2022-06-19 EP EP22833914.9A patent/EP4312938A1/en active Pending
- 2022-06-19 WO PCT/US2022/034126 patent/WO2023278186A1/en active Application Filing
- 2022-06-19 JP JP2023581049A patent/JP2024525057A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2210269A (en) * | 1938-02-01 | 1940-08-06 | Byron M Taylor | Means to aid in regaining normal body locomotion |
US3629880A (en) * | 1968-09-10 | 1971-12-28 | Johannes Nicolaas Van Rhyn | Apparatus for assisting invalids |
US4907794A (en) * | 1987-12-24 | 1990-03-13 | Guardian Products, Inc. | Foldable rolling walker |
US20160158088A1 (en) * | 2014-07-07 | 2016-06-09 | Justin Frankian | Suspension-Based Walking Assistance Aide Apparatus |
Also Published As
Publication number | Publication date |
---|---|
WO2023278186A8 (en) | 2023-11-23 |
EP4312938A1 (en) | 2024-02-07 |
CA3220727A1 (en) | 2023-01-05 |
CN117479912A (en) | 2024-01-30 |
JP2024525057A (en) | 2024-07-09 |
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