Patents Assigned to Ekso Bionics, Inc.
-
Publication number: 20180021943Abstract: An exoskeleton configured to be coupled to a user includes a plurality of interconnected support elements constituted by rigid compression members interconnected through a tensegrity joint. The joint includes a tensile member having a first end and a second end coupled to first and second ones of the support elements respectively.Type: ApplicationFiled: September 14, 2017Publication date: January 25, 2018Applicant: Ekso Bionics, Inc.Inventors: Russdon Angold, Adam Preuss, Nicholas Fleming, Matthew D. Sweeney
-
Publication number: 20170319421Abstract: An exoskeleton includes first and second supports coupled to an exoskeleton wearer, a joint connecting the first support to the second support and an actuator. The actuator includes a ball screw, a ball nut assembly coupled to the ball screw and first and second tensile members. The ball nut assembly has first and second cord reactors. The first tensile member is routed through the first cord reactor, and the second tensile member is routed through the second cord reactor. Movement of the ball nut assembly along the ball screw in a first direction causes the second support to move relative to the first support in a first rotational direction about the joint. Movement of the ball nut assembly along the ball screw in a second direction causes the second support to move relative to the first support in a second rotational direction about the joint.Type: ApplicationFiled: April 27, 2017Publication date: November 9, 2017Applicant: Ekso Bionics, Inc.Inventors: Aaron JULIN, Mike HUGHES
-
Patent number: 9801772Abstract: A system and method by which movements desired by a user of a lower extremity orthotic is determined and a control system automatically regulates the sequential operation of powered lower extremity orthotic components to enable the user, having mobility disorders, to walk, as well as perform other common mobility tasks which involve leg movements, perhaps with the use of a gait aid.Type: GrantFiled: October 6, 2011Date of Patent: October 31, 2017Assignees: Ekso Bionics, Inc., The Regents of the University of CaliforniaInventors: Katherine Strausser, Adam Zoss, Tim Swift
-
Patent number: 9782892Abstract: An exoskeleton configured to be coupled to a user includes a plurality of interconnected support elements constituted by rigid compression members interconnected through a tensegrity joint. The joint includes a tensile member having a first end and a second end coupled to first and second ones of the support elements respectively.Type: GrantFiled: April 24, 2015Date of Patent: October 10, 2017Assignee: Ekso Bionics, Inc.Inventors: Russdon Angold, Adam Preuss, Nicholas Fleming, Matthew D Sweeney
-
Publication number: 20170281385Abstract: An exoskeleton device includes a first brace coupled to a first portion of a wearer of the exoskeleton device and a second brace coupled to a second portion of the wearer. A first joint connects the first and second braces and allows relative movement between the first and second braces. A first brake is controllable between an unactuated state and a plurality of actuated states, and the first brake impedes relative movement between the first and second braces at the first joint while the first brake is in one of the plurality of actuated states. A manual actuator is selectively used by the wearer during relative movement between the first and second braces. Use of the actuator causes the first brake to enter one of the plurality of actuated states such that relative movement between the first and second braces is impeded at the first joint.Type: ApplicationFiled: September 3, 2015Publication date: October 5, 2017Applicant: Ekso Bionics, Inc.Inventors: Russ Angold, Kurt Amundson
-
Publication number: 20170209330Abstract: An exoskeleton includes first and second compression members configured to be coupled to a wearer of the exoskeleton. A tensegrity joint connects the first compression member to the second compression member, the joint including a tensile member having a first end and a second end. The first end is coupled to the first compression member on a first side of the joint, and the second end is coupled to the first compression member on a second side of the joint opposite the first side.Type: ApplicationFiled: July 15, 2016Publication date: July 27, 2017Applicant: EKSO BIONICS, INC.Inventors: Mike HUGHES, Russdon ANGOLD, Jeff VICKERS, Bradley ROAN, Kurt AMUNDSON, Nicholas FLEMING
-
Publication number: 20170173783Abstract: An exoskeleton includes a first link that pivots in a transverse plane about a first vertical axis and a second link that pivots in a transverse plane about a second vertical axis. The second link is coupled to the first link. An arm support assembly is coupled to the second link and pivots about a horizontal axis. The arm support assembly includes a spring that generates an assistive torque that counteracts gravity. The arm support assembly provides the assistive torque to an arm of a wearer to support the arm of the wearer. The arm support assembly further includes a cam profile and a cam follower. Contact between the spring, cam follower and cam profile determines an amount of the assistive force provided by the arm support assembly. A cuff is coupled to the arm support assembly and the arm of the wearer.Type: ApplicationFiled: December 20, 2016Publication date: June 22, 2017Applicant: Ekso Bionics, Inc.Inventors: Russ Angold, James Lubin, Mario Solano, Chris Paretich, Tom Mastaler
-
Patent number: 9662261Abstract: An orthotic system includes a controller, a joint and a fail-safe system for the joint. In a preferred embodiment, the orthotic system is an exoskeleton, the joint is a knee joint and the fail-safe system is a normally engaged brake that is controlled by the controller. The brake is engaged when the controller fails or the exoskeleton is powered off. The exoskeleton also includes an electrical or mechanical brake disengagement mechanism, separate from the controller, so that an exoskeleton user can disengage the brake when desired. The exoskeleton can also include an override mechanism that prevents the brake disengagement mechanism from functioning when the exoskeleton is powered on and the controller has not failed. Additionally, the exoskeleton can include a user interface at one location, with the brake disengagement mechanism located at a different, limited access location, so that the user cannot accidentally activate the brake disengagement mechanism.Type: GrantFiled: January 16, 2014Date of Patent: May 30, 2017Assignee: Ekso Bionics, Inc.Inventors: Aaron Julin, Reuben Sandler, Tom Smith, Adam Zoss
-
Publication number: 20170119132Abstract: An exoskeleton includes strapping for coupling the exoskeleton to a wearer. The exoskeleton also includes a hip structure, a thigh link rotatably connected to the hip structure and a shank link rotatably connected to the thigh link. The weight of the exoskeleton is transferred to a surface on which the exoskeleton is standing through the hip structure, the thigh link and the shank link. An arm brace supports an arm of the wearer, and a telescopic link is rotatably connected to the arm brace. An energy storage device delivers power to a tool through a conduit, and a conduit-energy storage device coupling connects the conduit to the energy storage device.Type: ApplicationFiled: October 31, 2016Publication date: May 4, 2017Applicant: Ekso Bionics, Inc.Inventors: Adam Pruess, Chris Meadows, Kurt Amundson, Russ Angold, James Lubin, Mario Solano, Tom Mastaler, Nicholas Fleming, Matt Sweeney
-
Patent number: 9610208Abstract: A lower extremity exoskeleton, configurable to be coupled to a person, includes: leg supports configurable to be coupled to the person's lower limbs and designed to rest on the ground during stance phases, with each leg support having a thigh link and a shank link; two knee joints, each configured to allow flexion and extension between respective shank and thigh links; an exoskeleton trunk configurable to be coupled to the person's upper body, rotatably connectable to the thigh links of the leg supports, allowing for the flexion and extension between the leg supports and the exoskeleton trunk; two hip actuators configured to create torques between the exoskeleton trunk and the leg supports; and at least one power unit capable of providing power to the hip actuators. In use, power is supplied to the hip actuators in an amount to reduce the energy consumed by a user during a walking cycle.Type: GrantFiled: December 10, 2012Date of Patent: April 4, 2017Assignee: Ekso Bionics, Inc.Inventors: Homayoon Kazerooni, Kurt Amundson, Nathan Harding
-
Patent number: 9604369Abstract: An exoskeleton comprises a torso brace, configured to be coupled to a torso of a user, and a leg support, configured to be coupled to a leg of the user. A plurality of links couples the torso brace to the leg support. The plurality of links includes a first link, coupled to the torso brace at a first pivot point, and a second link, coupled to the leg support at a second pivot point. The first link is coupled to the second link through a third pivot point located between the first and second pivot points. The first pivot point enables adduction of the leg support, and the third pivot point enables abduction of the leg support.Type: GrantFiled: June 1, 2015Date of Patent: March 28, 2017Assignee: Ekso Bionics, Inc.Inventors: Russdon Angold, Nicholas Fleming
-
Publication number: 20170000682Abstract: An ambulatory exoskeleton can be selectively operated in at least two different modes, with one mode constituting an unworn propulsion mode, used when the exoskeleton is not worn by a user, and another mode constituting a default or worn propulsion mode, used when the exoskeleton is worn by a user. With this arrangement, a physical therapist, or other operator, wishing to move an unworn exoskeleton, can balance the unworn exoskeleton, while simultaneously utilizing a control system and actuators of the exoskeleton to propel the unworn exoskeleton. Therefore, the exoskeleton walks by taking steps forward, as commanded by the operator using any of a plurality of input arrangements, while the operator balances and steers the exoskeleton by physically guiding the exoskeleton using a handle or other interaction surface of the exoskeleton.Type: ApplicationFiled: March 19, 2015Publication date: January 5, 2017Applicant: Ekso Bionics, Inc.Inventors: Nathan Harding, Adam Zoss
-
Patent number: 9504623Abstract: An exoskeleton, configurable to be coupled to a person, includes an exoskeleton trunk connected to first and second leg supports at respective hip joints, which allow for flexion and extension about respective hip axes. A counterweight device including an auxiliary mass is connected to the exoskeleton trunk through an actuator such that the auxiliary mass extends in a position behind the exoskeleton trunk. A front load is supported by the exoskeleton through a load bearing device including a load shifting device for selectively operating powered reel mechanisms to raise or lower the front load with respect to the exoskeleton trunk. The auxiliary mass can be selectively shifted with respect to the exoskeleton trunk to balance the moment created about the hip axes by the auxiliary mass and the moment created by a downward force of the load on the load bearing device.Type: GrantFiled: April 8, 2011Date of Patent: November 29, 2016Assignee: Ekso Bionics, Inc.Inventors: Russdon Angold, Adam Zoss, Jon Burns, Kurt Amundson, Nathan Harding
-
Publication number: 20160250094Abstract: A lower extremity orthosis is configured to be coupled to across at least one joint of a person for gait assistance and can incorporate knee, thigh, hip and ankle/foot assistive orthotic devices which can be used in various combinations to aid in the rehabilitation and restoration of muscular function in patients with impaired muscular function or control.Type: ApplicationFiled: November 12, 2014Publication date: September 1, 2016Applicant: Ekso Bionics, Inc.Inventors: Kurt Amundson, Nathan Harding, Russdon Angold, Adam Zoss
-
Publication number: 20160229049Abstract: An exoskeleton configured to be coupled to a user includes a plurality of interconnected support elements constituted by rigid compression members interconnected through a tensegrity joint. The joint includes a tensile member having a first end and a second end coupled to first and second ones of the support elements respectively.Type: ApplicationFiled: April 24, 2015Publication date: August 11, 2016Applicant: EKSO BIONICS, INC.Inventors: Russdon Angold, Adam Preuss, Nicholas Fleming, Matthew D Sweeney
-
Publication number: 20160229065Abstract: An exoskeleton comprises a torso brace, configured to be coupled to a torso of a user, and a leg support, configured to be coupled to a leg of the user. A plurality of links couples the torso brace to the leg support. The plurality of links includes a first link, coupled to the torso brace at a first pivot point, and a second link, coupled to the leg support at a second pivot point. The first link is coupled to the second link through a third pivot point located between the first and second pivot points. The first pivot point enables adduction of the leg support, and the third pivot point enables abduction of the leg support.Type: ApplicationFiled: June 1, 2015Publication date: August 11, 2016Applicant: Ekso Bionics, Inc.Inventors: Russdon Angold, Nicholas Fleming
-
Patent number: 9351855Abstract: A powered lower extremity orthotic, including a shank link coupled to an artificial foot, a knee mechanism connected to the shank link and a thigh link, is controlled by based on signals from various orthotic mounted sensors such that the artificial foot follows a predetermined trajectory defined by at least one Cartesian coordinate.Type: GrantFiled: May 24, 2012Date of Patent: May 31, 2016Assignees: Ekso Bionics, Inc., The Regents of the University of CaliforniaInventors: Tim Swift, Adam Brian Zoss, Katherine Strausser, Matthew Rosa, Dylan Miller Fairbanks, Minerva Vasudevan Pillai, Miclas Schwartz, Bram Gilbert Antoon Lambrecht, Sebastian Kruse
-
Patent number: 9295604Abstract: A powered exoskeleton configured to be coupled to lower limbs of a person is controlled to impart a movement desired by the person. The intent of the person is determined by a controller based on monitoring at least one of: positional changes in an arm portion of the person, positional changes in a head of the person, an orientation of a walking aid employed by the person, a contact force between a walking aid employed by the person and a support surface, a force imparted by the person on the walking aid, a force imparted by the person on the walking aid, a relative orientation of the exoskeleton, moveable components of the exoskeleton and the person, and relative velocities between the exoskeleton, moveable components of the exoskeleton and the person.Type: GrantFiled: September 19, 2011Date of Patent: March 29, 2016Assignees: Ekso Bionics, Inc., The Regents of the University of CaliforniaInventors: Adam Zoss, Katherine Strausser, Tim Swift, Russ Angold, Jon Burns, Dylan Fairbanks, Nathan Harding
-
Publication number: 20160030201Abstract: A powered orthotic system, such as an exoskeleton, is employed for rehabilitation purposes by adapting and adjusting to real-time needs in a rehabilitation situation whereby the system can be initially controlled to perform gait functions for a wearer based on a predetermined level of assistance but the predetermined level of assistance can be varied, based on one or more rehabilitation parameters or specific needs of the wearer undergoing therapy, through the application and adjustment of appropriate variables associated with operation of the system.Type: ApplicationFiled: March 13, 2014Publication date: February 4, 2016Applicant: EKSO BIONICS, INC.Inventors: Adam Zoss, Tim Swift, Alec Berg, Katherine Strausser, Erick Brendan St. John
-
Publication number: 20150351991Abstract: A lower extremity orthosis, including at least one actuator configured to control a motion of at least one joint of a person wearing the orthosis, is provided with a handle including a force sensor configured to produce a signal representing a force applied to the handle. A controller, which is in communication with the force sensor and the at least one actuator, is configured to modify the motion based on the signal from the force sensor. The system can be particularly employed to enable a physical therapist to have input in controlling and modifying the positions and/or forces prescribed by the lower extremity orthosis during rehabilitation of the person.Type: ApplicationFiled: January 15, 2014Publication date: December 10, 2015Applicant: Ekso Bionics, Inc.Inventors: Kurt Amundson, Nathan Harding, James Stryker