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公开(公告)号:US20180177667A1
公开(公告)日:2018-06-28
申请号:US15324136
申请日:2015-06-23
Applicant: Osaka University
Inventor: Mitsunori UEMURA , Fumio MIYAZAKI , Hiroaki HIRAI
IPC: A61H3/00
CPC classification number: A61H3/00 , A61B5/05 , A61B5/112 , A61B5/1121 , A61B5/1123 , A61B2562/0219 , A61B2562/0247 , A61F2002/503 , A61F2002/5073 , A61F2002/704 , A61F2002/7625 , A61F2002/763 , A61H1/024 , A61H2003/001 , A61H2201/0192 , A61H2201/1207 , A61H2201/164 , A61H2201/165 , A61H2201/1671 , A61H2201/5007 , A61H2201/5058 , A61H2201/5069 , A61H2201/5071 , A61H2201/5079 , A61H2201/5084 , A61H2203/0406 , A61H2205/10 , B25J9/0006 , B25J9/104
Abstract: A walking assistance apparatus includes: a walking assistance attachment to be attached to a leg of a human body and including a variable stiffness mechanism having stiffness that is changeable in a direction where the human bends and stretches the knee by motor driving; and a controller. The controller includes a foot-end motion calculation part configured to receive an output from a sensor to detect motion of a leg and successively calculate a relative velocity of a foot end with reference to a waist of the human body; and a leg state determination part configured to determine shift timing between a swing phase and a stance phase based on the relative velocity of the foot end.
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公开(公告)号:US20180177662A1
公开(公告)日:2018-06-28
申请号:US15904391
申请日:2018-02-25
Applicant: David L. Bombard
Inventor: David L. Bombard
CPC classification number: A61H1/006 , A61H1/0244 , A61H9/0078 , A61H2201/1215 , A61H2201/1642 , A61H2201/1666 , A61H2201/1671 , A61H2201/1676 , A61H2201/5007 , A61H2201/5012 , A61H2201/5015 , A61H2201/5035 , A61H2201/5046 , A61H2201/5058
Abstract: The present invention is directed toward a device for circumduction of a limb having a base, a vertical support operably coupled to and extending away from the base, a rotary member operably connected to the vertical support, a limb support member operably connected to the rotary member, and a motor drivingly engaged with the rotary member. The vertical support may be a rigid plate member, bracket, or frame. The bracket and/or frame may include at least one vertical member and at least one horizontal member. The rotary member is operably connected to the vertical support such that rotary member is free to rotate. Limb support member receives and supports the limb to be treated and is operably coupled to rotary member at a radial distance from a center of rotation thereby resulting in a circular motion of a limb when the motor is operated.
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公开(公告)号:US10005179B2
公开(公告)日:2018-06-26
申请号:US14591755
申请日:2015-01-07
Applicant: Samsung Electronics Co., Ltd.
Inventor: Kee Hong Seo , Ju Suk Lee
CPC classification number: B25J9/0006 , A61H1/024 , A61H1/0244 , A61H1/0266 , A61H3/00 , A61H2201/1207 , A61H2201/1246 , A61H2201/1628 , A61H2201/164 , A61H2201/165 , A61H2201/5007 , A61H2201/501 , A61H2201/5038 , A61H2201/5061 , A61H2201/5069 , A61H2201/5084 , A61H2230/605 , B25J13/085
Abstract: A walking assistant device may calculate a walking cycle by measuring only motion of a specific joint without a force/torque sensor (F/T sensor) of a foot, and a method of controlling the walking assistant device. The method may include measuring motion of a hinge to which different support frames are connected; overlapping a reference trajectory corresponding to the measured motion and modulation trajectories that have been modulated from the reference trajectory; correcting the overlapping trajectory to correspond to the measured motion; determining assistant torque corresponding to a phase of the corrected trajectory; and providing the determined assistant torque to the support frame.
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公开(公告)号:US20180133105A1
公开(公告)日:2018-05-17
申请号:US15791937
申请日:2017-10-24
Applicant: ZOLL Medical Corporation
Inventor: Norman Paradis , David Barash , Henry R. Halperin , Gary A. Freeman
CPC classification number: A61H31/006 , A61H9/0078 , A61H31/005 , A61H2201/5007 , A61H2201/5097 , A61H2230/00 , A61H2230/045 , A61M16/0057 , A61M16/0063 , A61M16/024 , A61M2205/33 , A61M2205/332 , A61M2205/581 , A61M2205/583 , A61M2230/04 , A61M2230/202 , A61M2230/30 , A61N1/3987
Abstract: A system for improving cardiac output of a patient suffering from pulseless electrical activity or shock and yet displays myocardial wall motion including: a sensor to detect myocardial activity to determine the presence of residual left ventricular pump function having a contraction or ejection phase and a filling or relaxation phase, a device to prompt the application of or apply a compressive force repeatedly applied to the chest based on the sensed myocardial activity such that the compressive force is applied during at least some of the ejection phases and is ceased during at least some of the relaxation phases to permit residual cardiac filling, thereby enhancing cardiac output and organ perfusion.
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公开(公告)号:US20180133089A1
公开(公告)日:2018-05-17
申请号:US15815554
申请日:2017-11-16
Applicant: Hefei University of Technology
Inventor: Jiaoyun Yang , Ping Zhao , Lihong Zhu , Liang Zhang , Ning An , Ping Zhang
IPC: A61H1/02 , A61B5/0205 , A61B5/00
CPC classification number: A61H1/0262 , A61B5/0205 , A61B5/02055 , A61B5/021 , A61B5/024 , A61B5/1118 , A61B5/1122 , A61B5/6894 , A61B5/6895 , A61B5/746 , A61H2201/1215 , A61H2201/5007 , A61H2201/5071 , A61H2205/10 , A61H2230/065 , A61H2230/305 , A61H2230/425 , A61H2230/505
Abstract: A smart medical rehabilitation device comprises a driving unit, a linkage unit, a sensing unit and a rehabilitation evaluating unit that are mounted on a frame, wherein the linkage unit comprises a link mechanism and a slide mechanism linked thereto so that the slide mechanism can be moved together with the link mechanism, wherein the slide mechanism is driven by the driving unit to slide along the groove plate, the link mechanism is linked to move with the slide mechanism thus the link mechanism moves to the corresponding position so that the slide mechanism can assist a training object in performing lower limb rehabilitation training, and the rehabilitation evaluating unit evaluates the physical status and rehabilitation status of the training object according to the physiological information and exercise information of the same collected by the sensing unit, and adjusts the exercise frequency and the exercise duration of the training object according to the physical status in real time.
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Patent Agency Ranking
公开(公告)号:US20180133086A1
公开(公告)日:2018-05-17
申请号:US15812011
申请日:2017-11-14
Applicant: Tony Rocklin
Inventor: Tony Rocklin
IPC: A61H1/02
CPC classification number: A61H1/0218 , A61H1/0222 , A61H2001/0233 , A61H2201/0126 , A61H2201/123 , A61H2201/1246 , A61H2201/1642 , A61H2201/1664 , A61H2201/5007 , A61H2201/5035 , A61H2201/5038 , A61H2201/5046 , A61H2201/5071 , A61H2203/0493 , A61H2205/088
Abstract: A hip traction device, system, and associated methods are disclosed. Such a device may include a base having a proximal end and a distal end, a guide coupled to the base, a carrier configured to move along the guide upon receiving a force from a tensioner to move the carrier toward the distal end of the base, causing a leg to be put in tension, and a single body coupling mechanism either removably attachable or permanently attached to the carrier and configured to securely attach to a lower portion of a leg, such that the portion of the leg moves with the carrier during operation of the tensioner.
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公开(公告)号:US09968514B2
公开(公告)日:2018-05-15
申请号:US15349143
申请日:2016-11-11
Applicant: ZOLL Medical Corporation
Inventor: Ulrich R Herken , Gary A Freeman
CPC classification number: A61H31/006 , A61B5/0402 , A61B5/046 , A61B5/4836 , A61H31/005 , A61H31/007 , A61H2201/0176 , A61H2201/10 , A61H2201/1207 , A61H2201/1619 , A61H2201/1645 , A61H2201/1654 , A61H2201/1664 , A61H2201/5007 , A61H2201/5025 , A61H2201/5043 , A61H2201/5048 , A61H2201/5058 , A61H2201/5064 , A61H2201/5079 , A61H2201/5084 , A61H2201/5097 , A61H2230/045 , A61N1/3925 , A61N1/3987
Abstract: A system and method for use during the administration of CPR chest compressions and defibrillating shock on a cardiac arrest victim. The system analyzes compression waveforms from a compression depth monitor to determine the source of chest compressions, and enables the delivery of defibrillating shock during a compression cycle if the compression waveforms are characteristic of an automated CPR chest compression device.
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公开(公告)号:US20180125749A1
公开(公告)日:2018-05-10
申请号:US15796579
申请日:2017-10-27
Applicant: Keith G. Lurie , Kanchana Sanjaya Gunesekera Karunaratne , Joseph Manno , John P. Grimm
CPC classification number: A61H31/006 , A61G13/08 , A61G13/1215 , A61G13/122 , A61G13/1225 , A61G13/1255 , A61G13/1285 , A61G13/129 , A61H31/005 , A61H31/007 , A61H31/008 , A61H2031/001 , A61H2201/013 , A61H2201/0173 , A61H2201/0192 , A61H2201/1604 , A61H2201/1619 , A61H2201/1623 , A61H2201/5007 , A61H2201/5023 , A61H2201/5097 , A61H2230/208 , A61H2230/305
Abstract: An elevation device used in the performance of cardiopulmonary resuscitation (CPR) includes a base and an upper support pivotably coupled to the base. The upper support is configured to elevate the individual's upper back, shoulders and head when pivoted. The upper support is expandable lengthwise. The upper support includes a neck support that is configured to support the individual's spine in a region of the individual's C7 and C8 vertebrae throughout elevation of the upper back, shoulders and head.
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公开(公告)号:US20180116898A1
公开(公告)日:2018-05-03
申请号:US15856117
申请日:2017-12-28
Applicant: GAITTRONICS INC.
Inventor: Aliasgar MORBI , Mojtaba AHMADI , Richard BERANEK
IPC: A61H3/00
CPC classification number: A61H3/00 , A61G7/1019 , A61G7/1048 , A61G7/1053 , A61G7/1059 , A61G2203/10 , A61G2203/32 , A61G2203/38 , A61G2203/723 , A61H1/02 , A61H1/0255 , A61H1/0292 , A61H3/008 , A61H3/04 , A61H2003/043 , A61H2201/0165 , A61H2201/018 , A61H2201/163 , A61H2201/5007 , A61H2201/5061 , A61H2201/5064 , A61H2201/5079 , A61H2201/5084 , A61H2201/5097 , A61H2203/0431 , A61H2230/625
Abstract: Systems and methods for use with haptic devices. A control system for haptic devices determines a first course of action based on a user's motion. Prior to implementing the first course of action, the control system determines if the first course of action would lead to instability in the haptic device which could cause an unsafe situation such as failure of its components. If the first course of action would lead to instability, the control device determines a second course of action that would not lead to instability and implements this second course of action. To assist in this second course of action and to prevent potential oscillation in the haptic device, the control system also selectively dampens a projected action of the haptic device. A haptic device using such a control system is also disclosed.
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公开(公告)号:US20180116896A1
公开(公告)日:2018-05-03
申请号:US15590772
申请日:2017-05-09
Applicant: ROCK LIFE ACADEMIC INC.
Inventor: Guangzhe Chang , Wenxing Quan
IPC: A61H1/02
CPC classification number: A61H1/0292 , A61H1/0229 , A61H2201/0207 , A61H2201/0221 , A61H2201/1604 , A61H2201/1619 , A61H2201/164 , A61H2201/1652 , A61H2201/5007 , A61H2201/5012 , A61H2201/5015 , A61H2201/5046 , A61H2201/5058 , A61H2201/5064 , A61H2201/5082 , A61H2203/0487 , A61H2205/04 , A61H2205/081
Abstract: Disclosed herein are vertical traction systems and methods of using the vertical traction systems to treat both bones and muscles in a normal working state. In one embodiment, a vertical traction system includes a frame, a load-bearing assembly, and a spinal traction assembly. The load-bearing assembly is coupled to the frame, and is configured to move vertically and support a subject under treatment in an upright position while the load-bearing assembly moves vertically. The spinal traction assembly is coupled to the frame, and is configured to pull the cervical or lumbar spine of the subject.
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