子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | EXERCISE DEVICE | EP16178040.8 | 2016-07-05 | EP3115086A1 | 2017-01-11 | Harada, John; Godoy, John |
A footrest device for supporting and exercising a user's feet and legs. The footrest device includes a pair of footrests that are pivotally connected to the opposed ends of a rigid elongated member, which is suspended by a non-rigid suspension member. The footrests are pivotally connected to the rigid elongated member. The footrest device can be suspended from a fixed object, such as the underside of a desk. Alternatively, the footrest device can include, and be suspended from, a mobile base that is positioned on the floor.
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| 22 | Gerät zur Übertragung reizgebender Impulse auf den Körper eines Anwenders | EP13000142.3 | 2013-01-11 | EP2628507A1 | 2013-08-21 | Frei, Rudolf |
Die Erfindung betrifft ein Gerät (1) zur Übertragung reizgebender mechanischer Impulse auf den Körper eines Anwenders. Das Gerät (1) weist zumindest eine Fußplatte (4, 5) auf, die in Längs- und/oder in Querrichtung beweglich gehalten ist, wobei auf der Plattenunterseite (7) der Fußplatte (4, 5) wenigstens ein Schlaghammer (8) beweglich gelagert ist, der bei einer Bewegung der Fußplatte (4, 5) auf der Plattenunterseite (7) anschlägt. Durch die mittels der Schlaghammer erzeugten und vom Organismus des Anwenders wahrnehmbaren Schläge werden unregelmäßige Impulse erzeugt, die vom Gehirn des Anwenders wahrgenommen werden (vgl. |
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| 23 | SYSTEMS AND METHODS FOR INTERACTION WITH EXERCISE DEVICE | EP01924665.1 | 2001-04-04 | EP1309375B1 | 2011-03-09 | WATTERSON, Scott, R.; DALEBOUT, William, T.; ASHBY, Darren, C. |
| An exercise device is configured to enable a user to interact with a trainer in real-time communication. The exercise device includes an exercise mechanism having a movable element for movement in performance of exercise by a user. Communicating with the exercise mechanism is an interface adapted for gathering a first real-time signal from the user. The interface communicates with a communication system for receiving a packetized second real-time signal including a synchronized control signal from the trainer. The exercise device includes an output device configured to reproduce the second real-time signal. The control signals carried by the second signal are used to control the operating parameters of the exercise mechanism in real-time. | ||||||
| 24 | MULTI-MODAL GAIT-BASED NON-INVASIVE THERAPY PLATFORM | EP14869433 | 2014-10-31 | EP3079642A4 | 2017-11-01 | THOLKES ALAN; DANDURAND DUWAYNE |
| Apparatus and associated methods relate to a knee-position control system having a knee engagement pad, a lower-leg control member and an upper-leg control member, the knee engagement pad configured to naturally position a user's knee in response to movement of a foot-rest of a natural-gait therapy system. In an illustrative embodiment, the upper-leg control member may pivot about a point substantially axially coincident with a user's hip. In some embodiments, the upper-leg control member may be pivotally coupled to the lower-leg control member at a pivot point substantially axially coincident with a user's knee. The lower-leg control member may be pivotably coupled to the foot rest at a pivot point substantially axially coincident with a user's ankle. The knee-position control system may advantageously position a user's knee in a natural position relative to both the user's ankle and the user's hip, in response to movement of the user's foot. | ||||||
| 25 | Gerät zur Übertragung reizgebender Impulse auf den Körper eines Anwenders | EP13000142.3 | 2013-01-11 | EP2628507B1 | 2015-04-15 | Frei, Rudolf |
| 26 | SYSTEM FOR INTERACTION WITH EXERCISE DEVICE | EP01924323.7 | 2001-03-26 | EP1318860B1 | 2011-08-31 | WATTERSON, Scott, R.; DALEBOUT, William, T.; ASHBY, Darren, C. |
| An exercise device is configured to enable a user to interact with a trainer (21) in real-time communication. The exercise device (12) includes an exercise mechanism having a movable element for movement in performance of exercise by a user. Communicating with the exercise mechanism is an interface (16) adapted for gathering a first real-time signal from the user. The interface (16) communicates with a communication system for receiving a packetized second real-time signal including a synchronized control signal from the trainer. The exercise device includes an output device configured to reproduce the second real-time signal. The control signals carried by the second signal are used to control the operating parameters of the exercise mechanism in real-time. | ||||||
| 27 | Bewegungsgerät, insbesondere für ältere Personen | EP10008646.1 | 2010-08-19 | EP2298420A1 | 2011-03-23 | Zvonomir, Bogdan |
Das Bewegunsgerät hat ein schwenk- oder drehbares Geräteteil (4, 6; 5, 7), das mit einer Achse (10) drehbar in einem Lagerteil (12, 13) gelagert ist. Damit die Übenden problem- und gefahrlos ihre Übungen mit dem jeweiligen Geräteteil (4, 6, 5, 7) durchführen können, steht die Achse (10) unter der Kraft einer Feder, die am Lagerteil (12, 13) abgestützt ist und an einem von der Achse (10) abstehenden Arm angreift. Beim Drehen der Achse (10) erzeugt die Feder eine Rückstellkraft auf die Achse (10). Dadurch erfährt der Übende beim Betätigen des Geräteteiles (4, 6; 5,7 ) eine Gegenkraft, so dass ein zu leichtes Drehen der Achse (10) des Geräteteiles (4, 6; 5, 7) nicht möglich ist. Das Bewegunsgerät ist dadurch insbesondere für ältere Personen geeignet.
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| 28 | SYSTEMS AND METHODS FOR INTERACTION WITH EXERCISE DEVICE | EP01924665.1 | 2001-04-04 | EP1309375A1 | 2003-05-14 | WATTERSON, Scott, R.; DALEBOUT, William, T.; ASHBY, Darren, C. |
| An exercise device is configured to enable a user to interact with a trainer in real-time communication. The exercise device includes an exercise mechanism having a movable element for movement in performance of exercise by a user. Communicating with the exercise mechanism is an interface adapted for gathering a first real-time signal from the user. The interface communicates with a communication system for receiving a packetized second real-time signal including a synchronized control signal from the trainer. The exercise device includes an output device configured to reproduce the second real-time signal. The control signals carried by the second signal are used to control the operating parameters of the exercise mechanism in real-time. | ||||||
| 29 | MULTI-MODAL GAIT-BASED NON-INVASIVE THERAPY PLATFORM | EP14869433.4 | 2014-10-31 | EP3079642A1 | 2016-10-19 | THOLKES, Alan; DANDURAND, DuWayne |
| Apparatus and associated methods relate to a knee-position control system having a knee engagement pad, a lower-leg control member and an upper-leg control member, the knee engagement pad configured to naturally position a user's knee in response to movement of a foot-rest of a natural-gait therapy system. In an illustrative embodiment, the upper-leg control member may pivot about a point substantially axially coincident with a user's hip. In some embodiments, the upper-leg control member may be pivotally coupled to the lower-leg control member at a pivot point substantially axially coincident with a user's knee. The lower-leg control member may be pivotably coupled to the foot rest at a pivot point substantially axially coincident with a user's ankle. The knee-position control system may advantageously position a user's knee in a natural position relative to both the user's ankle and the user's hip, in response to movement of the user's foot. | ||||||
| 30 | EINRICHTUNG ZUM TRAINIEREN DER MUSKULATUR | EP13711874.1 | 2013-03-20 | EP2976136A1 | 2016-01-27 | SCHRAG, Michael |
| An apparatus (1) for exercising the muscles comprises a power arm (2) which, at one end area (3), is equipped with actuating elements (4) and, with the other end area (5), is pivotable about a first joint (9). This first joint (9) is arranged on a holding element (6). One end area (10) of a spring element (11) is articulated on the power arm (2) at a first articulation point (12), while the other end area (13) is articulated on the holding element (6). The holding element (6) is connected to a support (17) via a rotary joint, is rotatable about this support (17) in one plane and can be locked in each suitably adjusted rotation position. This apparatus allows a wide variety of muscle groups to be exercised and moved in a very simple way. | ||||||
| 31 | SYSTEM FOR INTERACTION WITH EXERCISE DEVICE | EP01924323 | 2001-03-26 | EP1318860A4 | 2009-04-22 | WATTERSON SCOTT R; DALEBOUT WILLIAM T; ASHBY DARREN C |
| An exercise device is configured to enable a user to interact with a trainer (21) in real-time communication. The exercise device (12) includes an exercise mechanism having a movable element for movement in performance of exercise by a user. Communicating with the exercise mechanism is an interface (16) adapted for gathering a first real-time signal from the user. The interface (16) communicates with a communication system for receiving a packetized second real-time signal including a synchronized control signal from the trainer. The exercise device includes an output device configured to reproduce the second real-time signal. The control signals carried by the second signal are used to control the operating parameters of the exercise mechanism in real-time. | ||||||
| 32 | SYSTEMS AND METHODS FOR INTERACTION WITH EXERCISE DEVICE | EP01924665 | 2001-04-04 | EP1309375A4 | 2009-04-22 | WATTERSON SCOTT R; DALEBOUT WILLIAM T; ASHBY DARREN C |
| An exercise device is configured to enable a user to interact with a trainer in real-time communication. The exercise device includes an exercise mechanism having a movable element for movement in performance of exercise by a user. Communicating with the exercise mechanism is an interface adapted for gathering a first real-time signal from the user. The interface communicates with a communication system for receiving a packetized second real-time signal including a synchronized control signal from the trainer. The exercise device includes an output device configured to reproduce the second real-time signal. The control signals carried by the second signal are used to control the operating parameters of the exercise mechanism in real-time. | ||||||
| 33 | SYSTEM FOR INTERACTION WITH EXERCISE DEVICE | EP01924323.7 | 2001-03-26 | EP1318860A1 | 2003-06-18 | WATTERSON, Scott, R.; DALEBOUT, William, T.; ASHBY, Darren, C. |
| An exercise device is configured to enable a user to interact with a trainer (21) in real-time communication. The exercise device (12) includes an exercise mechanism having a movable element for movement in performance of exercise by a user. Communicating with the exercise mechanism is an interface (16) adapted for gathering a first real-time signal from the user. The interface (16) communicates with a communication system for receiving a packetized second real-time signal including a synchronized control signal from the trainer. The exercise device includes an output device configured to reproduce the second real-time signal. The control signals carried by the second signal are used to control the operating parameters of the exercise mechanism in real-time. | ||||||
| 34 | Modular Space-Saving Exercise Equipment | US15922315 | 2018-03-15 | US20180264311A1 | 2018-09-20 | David Alexander Fowler |
| The invention concerns a modular exercise system having a first support frame module having a plurality of frame members, each member being joined to an adjacent frame member and oriented in a common plane such that the first support frame is two-dimensional in form. The modular exercise system further requires a weight source mounted on the first support frame, a plurality of pulleys mounted to different frame members of the first support frame, and a cable running from the weight source over the pulleys to connect the weight source to one or more manual actuator for performing a resistance exercise in use. The first support frame has one or more attachment formation for selective attachment to one or more further support frame module. The further support frame module is also two-dimensional in form and attachable to the first support frame in an orientation within the common plane, wherein the further support frame module has one or more further manual actuator. | ||||||
| 35 | Bike System For Use In Rehabilitation Of A Patient | US15789002 | 2017-10-20 | US20180036593A1 | 2018-02-08 | Angela L. Ridgel; Hassan Mohammadi-Abdar; Fred M. Discenzo; Kenneth A. Loparo |
| A system for use in rehabilitation of a target patient is provided. The system includes at least two bicycle devices for use by the target patient and a second operator other than the target patient. The at least two bicycle devices each include pedals. At least one of the pedals may have at least one sensor mounted thereon for monitoring operation of the first bicycle device and the target's condition. A servomotor is coupled to the pedals for providing gear-like resistance or pedal assistance for the at least two bicycle devices. A controller is programmed to electrically couple the at least two bicycle devices to each other. | ||||||
| 36 | Linear Powered Input Device | US15711866 | 2017-09-21 | US20180010673A1 | 2018-01-11 | John P. Fitzsimmons |
| A linear powered input device that utilizes linear input from a user and converts the linear input rotational energy to perform work. The linear input is generated by lever arms having a slotted attachment at a pivot point that allows a free end of the lever arms to move linearly rather than in an arcuate path. The lever arms are connected to a power transmission mechanism that wraps around one or more drive wheels having one-way bearings mounted on one or more output shafts. The output shafts can be connected to any type of auxiliary device to perform the desired work. Output wheels may be mounted on the output shafts and operatively connected by a transmission link that allows linear motion of any lever arm in any allowable direction to cause the output shaft to rotate in the same rotational direction so as to receive continuous input. | ||||||
| 37 | User interface on console for exercise machine | US15040013 | 2016-02-10 | US09782625B1 | 2017-10-10 | Matthew P. Blum; Warren A. Rickert |
| A console for an exercise machine has a console housing providing a user interface for controlling the exercise machine and a media rack removably attached to the console housing and having a shelf sized to support a media item. At least one touch input element is on the media rack and is operable to control an auxiliary device on the exercise machine. | ||||||
| 38 | Linear powered input device | US14939870 | 2015-11-12 | US09772015B2 | 2017-09-26 | John P Fitzsimmons |
| A linear powered input device that utilizes linear input from a user and converts the linear input rotational energy to perform work. The linear input is generated by lever arms having a slotted attachment at a pivot point that allows a free end of the lever arms to move linearly rather than in an arcuate path. The lever arms are connected to a power transmission mechanism that wraps around one or more drive wheels having one-way bearings mounted on one or more output shafts. The output shafts can be connected to any type of auxiliary device to perform the desired work. Output wheels may be mounted on the output shafts and operatively connected by a transmission link that allows linear motion of any lever arm in any allowable direction to cause the output shaft to rotate in the same rotational direction so as to receive continuous input. | ||||||
| 39 | Apparatus for exercising the muscles | US14770122 | 2013-03-20 | US09713738B2 | 2017-07-25 | Michael Schrag |
| An apparatus for exercising the muscles, comprising a power arm having actuating elements at one end area, and where the other end of the power arm is pivotally connected to a holding element through a first hinge. The apparatus further comprises a spring element, wherein one end of the spring element is linked to the power arm at a first articulation point, and a second end of the spring element is linked to the holding element through a second articulation point. A support is further included which lies on an imaginary plane defined by an x-axis and a y-axis. The holding element is connected to the support by a rotary hinge which allows the holding element to rotate with respect to the support about a shaft which lies on an axis that is normal to the imaginary plane. | ||||||
| 40 | Linear Powered Input Device | US14939870 | 2015-11-12 | US20170138452A1 | 2017-05-18 | John P. Fitzsimmons |
| A linear powered input device that utilizes linear input from a user and converts the linear input rotational energy to perform work. The linear input is generated by lever arms having a slotted attachment at a pivot point that allows a free end of the lever arms to move linearly rather than in an arcuate path. The lever arms are connected to a power transmission mechanism that wraps around one or more drive wheels having one-way bearings mounted on one or more output shafts. The output shafts can be connected to any type of auxiliary device to perform the desired work. Output wheels may be mounted on the output shafts and operatively connected by a transmission link that allows linear motion of any lever arm in any allowable direction to cause the output shaft to rotate in the same rotational direction so as to receive continuous input. | ||||||
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