| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | METHOD WITH BIOFEEDBACK FOR TRAINING THE MUSCLES OF THE PELVIC FLOOR | US14414893 | 2013-07-16 | US20150182161A1 | 2015-07-02 | Miguel Angel Mañanas Villanueva; Juan Jose Ramos Castro; Montserrat Espuña Pons; Amelia Perez Gonzalez |
| The invention relates to a method with biofeedback for training muscles of the pelvic floor, applicable to the treatment of urinary incontinence, fecal incontinence and prolapse of pelvic organs, using a portable electronic device for capturing, by means of sensors, EMG signals relating to abdominal activity and the area to be treated during muscle exercises, said device providing results visually and/or acoustically, the method comprising: placing a vaginal or rectal sensor (10) and two sensors (11) in the lower abdominal area, performing exercises working the muscles of the pelvic floor, providing evaluation of the exercises performed and storing results. The user places the sensors herself, the device evaluating the correct placement of the sensors indicating to the user that the suitable position has been reached through said acoustic and/or visual means, and performing a step prior to the exercises for acquiring muscle tone. | ||||||
| 42 | MUSCULAR STRENGTH ASSISTING APPARATUSES AND METHODS OF CONTROLLING THE SAME | US14499370 | 2014-09-29 | US20150141886A1 | 2015-05-21 | Tae Sin HA; Young Do KWON; Youn Baek LEE |
| A muscular strength assisting apparatus may include: a wearing unit configured to enclose a part of a user's body; a tightening unit configured to pull the wearing unit in one or both directions; and/or a control unit configured to drive the tightening unit to tighten the part of the user's body on which the wearing unit is located, when it is determined that muscular contraction occurs at the part of the user's body on which the wearing unit is located. A method of controlling a muscular strength assisting apparatus may include: determining whether muscular contraction occurs at a part of a user's body that is enclosed by a wearing unit; and/or driving a tightening unit pulling the wearing unit in one direction or both directions to tighten the part of the user's body on which the wearing unit is located when it is determined that the muscular contraction occurs. | ||||||
| 43 | EXERCISE MACHINE FOR MUSCLE SPEED AND EXPLOSIVENESS | US14103756 | 2013-12-11 | US20140100083A1 | 2014-04-10 | Dak Brandon Steiert |
| As shown in FIG. 1 the exercise machine of the preferred embodiments includes a mechanical force input interface 1 designed to interface with a user 5 and allow the user 5 to input force 4 into the exercise machine; a force resistor 2 that functions to resist force input into the mechanical force input interface 1 by a user 5; and a trigger mechanism 3 that functions to cause a sudden change in the resistance provided against the force input 4 by the user 5. The exercise machine of the preferred embodiments is designed to exercise muscles in a way that improves muscle speed, explosiveness, or both. Sudden is defined by the Oxford dictionary as “occurring or done quickly and unexpectedly or without warning”—given human reaction times of roughly 500 milliseconds the force reduction is expected to take place in under roughly 500 milliseconds. This is only described as a minimum effective time for sudden operation, not to provide an optimal range of operation. The reduction in force should take place quickly enough that the user will not easily react and reduce their force output, which would be roughly under 500 milliseconds. This exercise machine is does not operate in the same mode or with similarities to a spotting device or machine. | ||||||
| 44 | Rehabilitation supporting device | US12531730 | 2008-03-17 | US08574176B2 | 2013-11-05 | Yoshiyuki Sankai |
| A rehabilitation supporting device 1 includes a first frame 11 arranged along a first skeletal portion extending from a joint, a second frame 12 arranged along a second skeletal portion extending from the joint in a direction different from a direction of the first skeletal portion, an angle sensor 131 arranged to detect a rotational angle position between the first frame and the second frame, a flexion-side biosignal sensor 14 arranged to detect a biosignal of a flexor, an extension-side biosignal sensor 15 arranged to detect a biosignal of an extensor, a calibration unit 31 arranged to determine a flexion-side correction value and an extension-side correction value individually, and a memory unit 34 arranged to store individual correction values of the biosignals different for individuals, the flexion-side correction value, and the extension-side correction value. | ||||||
| 45 | DEVICE FOR ASSISTING JOINT EXERCISE | US13932553 | 2013-07-01 | US20130288863A1 | 2013-10-31 | Motoji YAMAMOTO; Shin-ichiro TAKASUGI; Masanori SATO; Kazunobu HASHIMOTO |
| Provided is a device having a novel configuration and adapted to assist joint exercise. A device for assisting joint exercise that assists bending and extending of a joint including: a flexible assist force transmission section; a first mounting section and a second mounting section, which are provided at both end portions of the assist force transmission section, the first mounting section adapted to be mounted on one site and the second mounting section adapted to be mounted on another site sandwiching a user's joint; a drive source provided that exerts tensile force between the first mounting section and the second mounting section through the assist force transmission section, wherein at least a portion of the assist force transmission section is elastically deformable in an acting direction of the tensile force by the drive source. | ||||||
| 46 | BIOFEEDBACK TRAINING OF ANAL AND RECTAL MUSCLES | US13547324 | 2012-07-12 | US20130018308A1 | 2013-01-17 | Satish Sanku Chander Rao; Muralidhar Nukala Sunil Kumar |
| A probe including a housing, a rectal muscle air bag, a rectal tube, an anal muscle air bag, and an anal tube is provided. The rectal muscle air bag mounts to the housing a first distance from a non-insertion end. A rectal tube is connected to the rectal muscle air bag at a first end and to a first pressure sensor at a second end. The anal muscle air bag is mounted to the housing a second distance from the non- insertion end. The anal tube is connected to the anal muscle air bag at a first end and to a second pressure sensor at a second end. The first distance is selected to position the rectal muscle air bag adjacent a rectal muscle, and the second distance is selected to position the anal muscle air bag adjacent an anal muscle when the housing is inserted in the rectum. | ||||||
| 47 | ATHLETE MANAGEMENT APPARATUS FOR MANAGING STATE OF ATHLETE IN CONJUNCTION WITH PROTECTOR WORN BY ATHLETE, ATHLETE MANAGEMENT SYSTEM, AND ATHLETE MANAGEMENT METHOD USING SAME | US15743544 | 2016-06-24 | US20180207480A1 | 2018-07-26 | Sun Ki HONG |
| Provided is an apparatus for managing a player with a guard including a sensor sensing a vital information of a player to calculate an injury risk of the player to thereby manage a condition of the player, the apparatus including: a communication unit receiving the vital information from the guard and transmitting the injury risk to the guard; a memory storing a program calculating the injury risk to manage the condition of the player; and a processor connected to the communication unit and the memory to execute an operation implemented by the program, in which the program may include instructions using the vital information and pre-stored vital recovering ability data of the player to calculate the injury risk of the player. | ||||||
| 48 | Determining work performed on a treadmill | US14805151 | 2015-07-21 | US09943722B2 | 2018-04-17 | William T. Dalebout |
| A treadmill system includes a deck, an endless tread belt covering at least a portion of the deck, and a motion transducer positioned to detect movement of the tread belt. The treadmill system also includes a processor and memory where the memory includes instructions executable by the processor to receive an output of the motion transducer, determine an exercise type performed on the tread belt, and calculate an amount of work performed by a user on the tread belt based on the output of the motion transducer and the determined type of exercise. | ||||||
| 49 | Method, Virtual Reality Device, System, and Non-Volatile Storage Media for Providing Virtual Realistic Scenes | US15678129 | 2017-08-16 | US20180050257A1 | 2018-02-22 | Danian CHEN; Xiaolin TONG |
| The present invention relates to a method for providing virtual realistic scenes, a VR device, a system, and a nonvolatile storage medium. Virtual outdoor realistic sports scenes are generated via the VR device while a user is running motion on a treadmill apparatus. In addition, the virtual outdoor realistic sports scenes can be changed based on different motion states. | ||||||
| 50 | REHABILITATION DEVICE | US14888094 | 2014-01-16 | US20160199245A1 | 2016-07-14 | Michal MIKULSKI |
| The invention pertains to a device for rehabilitating patients especially with peripheral nervous system paralysis. The rehabilitation device comprising a remote control terminal, a base, an arm mounted to a column with adjustable height containing an motor propelling the arm and at least two electrodes of the electromyography (EMG) sensor according to the invention is characteristic in that the actuator (7) enables the extension (4) to move within the angular range of 360°, while the EMG signal from the sensor connected to the muscle or muscles of the patient is transmitted to the network of the motor controlling module (2) and then further by radio or cable connection to a remote control terminal (1). | ||||||
| 51 | SYSTEMS AND METHODS FOR GAIT REHABILITATION USING MECHANICAL PERTURBATIONS ON THE UNIMPAIRED LEG TO PROVIDE THERAPY TO THE IMPAIRED LEG | US15001742 | 2016-01-20 | US20160144226A1 | 2016-05-26 | Panagiotis Artemiadis; Jeffrey Skidmore |
| Embodiments for systems and methods of a variable stiffness treadmill for gait rehabilitation using mechanical perturbations on the unimpaired leg to provide therapy to the impaired leg are disclosed. | ||||||
| 52 | EXERCISE THERAPY AND REHABILITATION SYSTEM AND METHOD | US14837509 | 2015-08-27 | US20160059077A1 | 2016-03-03 | SETH PAUL; ANDREW MERRYWEATHER |
| A method is provided for performing exercise therapy and rehabilitation. A first therapy module can be performed. The first therapy module comprises at least one first physical metric for rotating, by a resistance device, at least one joint of a limb of a user. At least one psychophysical metric and at least one physical metric of the user can be monitored while performing the first therapy module. Psychophysical metric data for the at least one psychophysical metric and physical metric data for the at least one physical metric can be received. Based on at least one of the psychophysical metric data and the physical metric data, the at least one first physical metric for rotating the at least one joint of the limb by the resistance device while performing the first therapy module can be modified. | ||||||
| 53 | Pilates Exercise Routine System and Method | US14613779 | 2015-02-04 | US20150217164A1 | 2015-08-06 | Sebastien Anthony Louis Lagree |
| A Pilates Exercise System. A member ID of a member of the Pilates exercise system is received. A selection of a Pilates exercise routine comprising of two or more Pilates exercises is received. Settings associated with a previous performance of at least one of the two or more exercises by the member are provided. | ||||||
| 54 | Exercise machine for muscle speed and explosiveness | US14103756 | 2013-12-11 | US09072938B2 | 2015-07-07 | Dak Brandon Steiert |
| As shown in FIG. 1 the exercise machine of the preferred embodiments includes a mechanical force input interface 1 designed to interface with a user 5 and allow the user 5 to input force 4 into the exercise machine; a force resistor 2 that functions to resist force input into the mechanical force input interface 1 by the user 5; and a trigger mechanism 3 that functions to cause a sudden change in the resistance provided against the force input 4 by the user 5. The exercise machine of the preferred embodiments is designed to exercise muscles in a way that improves muscle speed, explosiveness, or both. | ||||||
| 55 | Wearable power assistive device for helping a user to move their hand | US12472295 | 2009-05-26 | US08574178B2 | 2013-11-05 | Kai Yu Tong; Peter Man Kit Pang; Mo Chen; Sze Kit Ho; Hongfu Zhou; David Tai Wai Chan |
| A rehabilitation system for training hand movement of a user, the system comprising: a platform to be attached to the hand of the user; a plurality of finger assemblies operatively connected to the platform, each finger assembly having: a motor, a proximal follower assembly for a metacarpophalangeal (MCP) joint having a proximal rail guide operatively connected to the motor, and an intermediate follower assembly for a proximal interphalangeal (PIP) joint having an intermediate rail guide operatively connected to the proximal follower assembly; wherein a knuckle joint indicator of the proximal rail guide corresponds to a first virtual center and knuckle joint indicator of the intermediate rail guide corresponds to a second virtual center, the alignment of the knuckle joint indicators to the virtual centers enable motion of the finger to be controlled and maintain rotational axes of the finger about each virtual center when the proximal and intermediate follower assemblies are actuated by the motor. | ||||||
| 56 | APPARATUS FOR PHYSICAL EXERCISE COMPRISING A VIBRATING HANDLE | US13881617 | 2011-10-24 | US20130210577A1 | 2013-08-15 | Fabrizio Ceoldo; Fulvio Ceoldo; Leonardo Ceoldo |
| The present invention concerns an apparatus for physical exercise comprising at least one handle, vibrating means being coupled to said at least one handle, the apparatus being characterised in that said vibrating means is connected to a processing and controlling device that is housed in a control panel and in turn connected to interface means for inputting data capable to set a vibration frequency of said vibrating means, said at least one handle comprising first sensing means capable to detect a vibration frequency of said at least one handle and to send detection data to said processing and controlling device, said processing and controlling device controlling an operation of said vibrating means so that the vibration frequency detected by said first sensing means is equal to a vibration frequency set through said interface means. | ||||||
| 57 | REHABILITATION SUPPORTING DEVICE | US12531730 | 2008-03-17 | US20100130893A1 | 2010-05-27 | Yoshiyuki Sankai |
| A rehabilitation supporting device 1 includes a first frame 11 arranged along a first skeletal portion extending from a joint, a second frame 12 arranged along a second skeletal portion extending from the joint in a direction different from a direction of the first skeletal portion, an angle sensor 131 arranged to detect a rotational angle position between the first frame and the second frame, a flexion-side biosignal sensor 14 arranged to detect a biosignal of a flexor, an extension-side biosignal sensor 15 arranged to detect a biosignal of an extensor, a calibration unit 31 arranged to determine a flexion-side correction value and an extension-side correction value individually, and a memory unit 34 arranged to store individual correction values of the biosignals different for individuals, the flexion-side correction value, and the extension-side correction value. | ||||||
| 58 | EQUIPMENT WITH BIOFEEDBACK FOR TRAINING THE MUSCLES OF THE PELVIC FLOOR | EP13820576.0 | 2013-07-16 | EP2873366B1 | 2018-06-27 | MAÑANAS VILLANUEVA, Miguel Angel; RAMOS CASTRO, Juan Jose; ESPUÑA PONS, Montserrat; PEREZ GONZALEZ, Amelia |
| The invention relates to a method with biofeedback for training muscles of the pelvic floor, applicable to the treatment of urinary incontinence, fecal incontinence and prolapse of pelvic organs, using a portable electronic device for capturing, by means of sensors, EMG signals relating to abdominal activity and the area to be treated during muscle exercises, said device providing results visually and/or acoustically, the method comprising: placing a vaginal or rectal sensor (10) and two sensors (11) in the lower abdominal area, performing exercises working the muscles of the pelvic floor, providing evaluation of the exercises performed and storing results. The user places the sensors herself, the device evaluating the correct placement of the sensors indicating to the user that the suitable position has been reached through said acoustic and/or visual means, and performing a step prior to the exercises for acquiring muscle tone. | ||||||
| 59 | SWIMMING WEARABLE DEVICE AND UPPER LIMB WEARABLE DEVICE | EP15879270.5 | 2015-10-30 | EP3311734A1 | 2018-04-25 | ZHOU, Feng; CAO, Chunlei |
A swimming wearable device comprises an upper body wearable device (100) and a lower limb wearable device (2). The upper body wearable device (100) is provided with an electronic airbag (11) and the lower limb wearable device (2) is provided with a muscle condition monitoring device (21). The muscle condition monitoring device (21) is connected by signal with the upper body wearable device (100) or with the electronic airbag (11) of the upper body wearable device (100). When detecting a muscle spasm in lower limb, the muscle condition monitoring device (21) sends a signal to the upper body wearable device (100) or the electronic airbag (11) of the upper body wearable device (100), so as to make the upper body wearable device (100) activate the electronic airbag (11) to open or to activate the electronic airbag (11) to open. The swimming wearable device can provide certain buoyancy for the swimmer at the occurrence of muscle cramp, thereby reducing drowning accidents and improve safety of swimming exercise. An upper limb wearable device is also provided. |
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| 60 | METHOD WITH BIOFEEDBACK FOR TRAINING THE MUSCLES OF THE PELVIC FLOOR | EP13820576.0 | 2013-07-16 | EP2873366A1 | 2015-05-20 | MAÑANAS VILLANUEVA, Miguel Angel; RAMOS CASTRO, Juan Jose; ESPUÑA PONS, Montserrat; PEREZ GONZALEZ, Amelia |
The invention relates to a method with biofeedback for training muscles of the pelvic floor, applicable to the treatment of urinary incontinence, fecal incontinence and prolapse of pelvic organs, using a portable electronic device for capturing, by means of sensors, EMG signals relating to abdominal activity and the area to be treated during muscle exercises, said device providing results visually and/or acoustically, the method comprising: placing a vaginal or rectal sensor (10) and two sensors (11) in the lower abdominal area, performing exercises working the muscles of the pelvic floor, providing evaluation of the exercises performed and storing results. The user places the sensors herself, the device evaluating the correct placement of the sensors indicating to the user that the suitable position has been reached through said acoustic and/or visual means, and performing a step prior to the exercises for acquiring muscle tone. |
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