| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | PEGBOARD TYPE REHABILITATION TRAINING SYSTEM | US15830080 | 2017-12-04 | US20180085624A1 | 2018-03-29 | Young Geun CHOI; Dong Seok Yang; Sung Jun Roh; Dae Hoon Jang; Dae Kwan Park; Kyung Hwan Yoo; Su Hyun Bae; Seo Jeong Han |
| Disclosed is a rehabilitation training apparatus that is used when a stroke patient or the like performs rehabilitation training. A rehabilitation training system includes a main device in which a plurality of unit modules are disposed on a plane at a specific interval; a board plate inserted into or coupled to the main device and including a plurality of holes; and a plurality of pegs that are inserted into the holes of the board plate, wherein each of the unit modules includes a sensor module configured to detect insertion of a peg into the hole, and a light source module configured to output light of a specific color, and if the board plate is inserted into the main device, the light source module provides output light to the outside through the hole of the board plate. | ||||||
| 122 | EXERCISE APPARATUS | US15671512 | 2017-08-08 | US20180036587A1 | 2018-02-08 | Raymond Giannelli; Mark Buontempo |
| An exercise apparatus comprising: a foot support, a user interface that includes a visual display, the foot support being movable by the user on the frame back and forth through any one of a plurality of complete, reproducible and different arc segments of a master arcuate path, the foot support being interconnected to a selection device that enables the user to select any one of the plurality of arc segments, one or more detectors adapted to detect one or more of force, energy or power exerted by the user over time on the foot support or distance or velocity of travel of the foot support or resistance assembly during the course of the user's performance of all or a portion of an exercise cycle, the visual display displaying a visually recognizable format of one or more of the force, energy, power, distance, time or velocity. | ||||||
| 123 | THREE DIMENSIONAL BODY MOVEMENT STRUCTURE | US15227272 | 2016-08-03 | US20180036584A1 | 2018-02-08 | Joseph Andrew Kleman |
| A three dimensional structure that creates improvised movements to break common movement patterns in a subject's body. The structure uses a system that is infinitely configurable through the arrangement of cables and targets. A subject may start a movement on the floor in rolling, and crawling positions. They are given a parameter to follow but not a specific way of making the movement happen. | ||||||
| 124 | DEVICE FOR NEURO-ORTHOPEDIC REHABILITATION | US15102068 | 2014-05-05 | US20170354525A1 | 2017-12-14 | Viktoria Gennadyevna RYBCHINSKYA; Oleg RYBCHINSKY |
| The invention relates to the field of medicine, specifically to neurology, and more specifically to devices for therapeutic gymnastics. A device consists of a combination of a loading system and an unloading system. Covers/pockets for pneumatic chambers of the unloading system are positioned longitudinally, in pairs and continuously, along a front surface and a rear surface of a load-bearing membrane. Support elements of a knee brace, made of two front portions and of two rear portions, interconnected by means of straps, are positioned in five sub-levels, wherein the two front portions of the brace are connected at the centers thereof by means of a linking component which is provided with an additional cushioning layer and with a half-ring in the center thereof, said half-ring serving for securing and changing the trajectories of elastic tensile components. A foot brace is removable and contains one longitudinal strap under the foot and three transverse straps which are connected to the longitudinal strap. | ||||||
| 125 | Full body exercise equipment | US15048255 | 2016-02-19 | US09789357B2 | 2017-10-17 | Jacob D. Godak |
| Full body exercise equipment including four elongate rails arranged in a generally side-by-side longitudinal configuration. The four elongate rails are connected together to allow for selected angular arrangements between the rails and also allow for selected longitudinal arrangements between the rails. A slidable shuttle member is provided on each rail with the two inside rails having toe holds and the two outside rails having hand grips. A resilient cord is provided for each shuttle for selectable attachment to either end of the shuttle to provide selected resistance against slidable movement of the shuttle in either direction on a respective rail. | ||||||
| 126 | Walking training system | US14961311 | 2015-12-07 | US09782659B2 | 2017-10-10 | Seisuke Yamazaki |
| A walking training system according to the present invention includes a belt conveyor on which a trainee walks, a frame, a sensor, and a control device. The frame, positioned on both sides of the belt conveyor, allows an assistant to place each of the feet thereon. The sensor measures the presence state of a foot on the frame. The control device determines whether there are three or more feet on the frame based on the measurement result of the sensor and, if it is determined that there are three or more feet, performs abnormal-time control. | ||||||
| 127 | METHOD AND DEVICE FOR PHYSICAL TRAINING - A TRAINING MACHINE | US15151003 | 2016-05-10 | US20170173377A1 | 2017-06-22 | Georgi Ivanov Zaykov; Ivan Georgiev Zaykov; Tsvetan Georgiev Zaykov |
| A method and apparatus for physical exercises and, in particular, for training the movements “jump” and “squat” from spot for training. The method and apparatus can have the “jump” and “squat” motions follow into a continuous alternating sequence as a response to a passing via a training spot in the same continuous alternating sequence of a lower obstacle, obligating the performance of “jump”, and of the upper obstacle obligating the performance of “squat”. | ||||||
| 128 | Agility ladder | US14459744 | 2014-08-14 | US09675830B2 | 2017-06-13 | Allen Keith Holland; Daniel John Wray; Kash Oris Bell |
| An agility ladder has a plurality of rungs including first and second rungs. A left link assembly has ends pivotally attached to left ends of the first and second rungs, and a right link assembly has ends pivotally attached to right ends of the first and second rungs. The left and right link assemblies each include first and second links having equal lengths, with the first and second links joined at a link pivot joint which allows the first and second links to form an angle between them of less than 180 degrees. | ||||||
| 129 | WAIST TWISTING APPARATUS | US15049398 | 2016-02-22 | US20170113097A1 | 2017-04-27 | Dong-Her Wu |
| A waist twisting apparatus may include a base, a supporting portion, and a seat. A platform is formed at a top portion of the base, and a central portion of the platform has a first axle hole. The supporting portion vertically formed on the base comprises a main body, and a first edge and a second edge thereof are respectively formed at an inner edge and an outer edge of the main body. The main body is further connected to a first axle rod and a second axle rod respectively, and the first axle rod comprises a first connecting portion while the second axle rod has a second connecting portion. The wheel is pivotally installed at a bottom portion of the main body. The seat has a bottom shell, and a second axle hole is formed at a center bottom portion of the bottom shell. | ||||||
| 130 | Touch Pad with Force Sensors and Actuator Feedback | US15358800 | 2016-11-22 | US20170075424A1 | 2017-03-16 | Jeffrey Traer Bernstein; Avi Cieplinski; Brett W. Degner; Duncan Kerr; Patrick Kessler; Paul Puskarich; Marcelo H. Coelho; Aleksandar Pance |
| Electronic devices may use touch pads that have touch sensor arrays, force sensors, and actuators for providing tactile feedback. A touch pad may be mounted in a computer housing. The touch pad may have a rectangular planar touch pad member that has a glass layer covered with ink and contains a capacitive touch sensor array. Force sensors may be mounted under each of the four corners of the rectangular planar touch pad member. The force sensors may be used to measure how much force is applied to the surface of the planar touch pad member by a user. Processed force sensor signals may indicate the presence of button activity such as press and release events. In response to detected button activity or other activity in the device, actuator drive signals may be generated for controlling the actuator. The user may supply settings to adjust signal processing and tactile feedback parameters. | ||||||
| 131 | Rehabilitation and Mobility Improvement Apparatus and Method of Use | US15345931 | 2016-11-08 | US20170050082A1 | 2017-02-23 | Korey K. Whitaker |
| The present invention is a rehabilitation and mobility improvement apparatus (RMIA) and method of use for use in providing increased mobility in persons having reduced strength and mobility due to for instance injury or illness. The apparatus is adapted so as to allow a person who could not readily slide or move their arm or other mobility reduced appendage (MRA) to slide or move their MRA, such as across a flat surface such as a table top or a floor, so as to provide exercise for such MRA, and so as to increase strength and mobility in such MRA. | ||||||
| 132 | EXERCISE DEVICES AND METHODS WITH RETRACTABLE CORDS | US15230290 | 2016-08-05 | US20170036063A1 | 2017-02-09 | Mark R. Goldston; Sharon Kripke; Shari Konikoff; John P. Goodworth |
| An exercise apparatus includes a first cord, a second cord, and an adjustment mechanism. The first cord is pullable from and retractable around a first pulley. The second cord is pullable from and retractable around a second pulley. The adjustment mechanism allows for adjusting a pull-out tension provided by the first cord independently of a retraction tension provided by the first cord. The pull-out tension provided by the first cord is a tension provided by the first cord when the first cord is pulled from the first pulley. The retraction tension provided by the first cord is a tension provided by the first cord when the first cord is retracted around the first pulley. | ||||||
| 133 | EXERCISE APPARATUS | US15115818 | 2015-01-30 | US20170007878A1 | 2017-01-12 | THOMAS COX |
| An exercise apparatus includes a pair of handle elements and a pair of housing elements. Each handle element includes a manually grippable bar and a base portion having a substantially spherical contact surface. Each housing element is substantially hemispherical and has a substantially central window. Each handle element is releasably locatable within a housing element to form a substantially hemispherical handle body in which the contact surface of the handle element is located within the window of the housing element and provides a contact point about which the housing body is rotatable when located on a support surface. | ||||||
| 134 | Touch pad with force sensors and actuator feedback | US15063195 | 2016-03-07 | US09535557B2 | 2017-01-03 | Jeffrey Traer Bernstein; Avi Cieplinski; Brett W. Degner; Duncan Kerr; Patrick Kessler; Paul Puskarich; Marcelo H. Coelho; Aleksandar Pance |
| Electronic devices may use touch pads that have touch sensor arrays, force sensors, and actuators for providing tactile feedback. A touch pad may be mounted in a computer housing. The touch pad may have a rectangular planar touch pad member that has a glass layer covered with ink and contains a capacitive touch sensor array. Force sensors may be mounted under each of the four corners of the rectangular planar touch pad member. The force sensors may be used to measure how much force is applied to the surface of the planar touch pad member by a user. Processed force sensor signals may indicate the presence of button activity such as press and release events. In response to detected button activity or other activity in the device, actuator drive signals may be generated for controlling the actuator. The user may supply settings to adjust signal processing and tactile feedback parameters. | ||||||
| 135 | EXERCISE APPARATUS | US15228048 | 2016-08-04 | US20160375301A1 | 2016-12-29 | Raymond Giannelli; Mark Buontempo |
| An exercise apparatus comprising: a foot support, a user interface that includes a visual display, the foot support being movable by the user on the frame back and forth through any one of a plurality of complete, reproducible and different arc segments of a master arcuate path, the foot support being interconnected to a selection device that enables the user to select any one of the plurality of arc segments, one or more detectors adapted to detect one or more of force, energy or power exerted by the user over time on the foot support or distance or velocity of travel of the foot support or resistance assembly during the course of the user's performance of all or a portion of an exercise cycle, the visual display displaying a visually recognizable format of one or more of the force, energy, power, distance, time or velocity. | ||||||
| 136 | ROBOTIC SPORTS PERFORMANCE ENHANCEMENT AND REHABILITATION APPARATUS | US14689759 | 2015-04-17 | US20160302989A1 | 2016-10-20 | Salvatore Loduca |
| A robotic sports apparatus includes a plurality of robotic arms and a plurality of fastening members operably coupled to a respective robotic arm of the plurality of robotic arms. Each fastening member is configured for receiving a limb of a patient. Each robotic arm is configured to move each respective fastening member in at least one of a different direction or a different speed relative to one another for opening neural pathways in the patient. | ||||||
| 137 | EXERCISE SYSTEM | US15093466 | 2016-04-07 | US20160296801A1 | 2016-10-13 | ALDO DE LA GARZA; Zachary F. Rhodes |
| Various systems, processes, and techniques may be used to provide an exercise system. In certain implementations, an exercise system may include a base, a number of lights, and a controller. The base may be a padded material adapted to receive the lights and have a top surface adapted to allow illumination from the lights to propagate therethrough. The base may have an agility ladder applied thereto, the ladder having a number of spaces in which users may place their feet, and the lights may be located inside and outside the spaces of the ladder. The controller may be coupled to the lights and programmed to illuminate them in a plurality of different sequences, each sequence corresponding to different footwork exercise. | ||||||
| 138 | FITNESS SYSTEM AND METHOD | US15088724 | 2016-04-01 | US20160287936A1 | 2016-10-06 | David B. Wheeler |
| A training device or apparatus for improving performance speed. In one embodiment, the training device includes first and second surfaces disposed in an opposing manner and defining a space therebetween. The space can allow at least one body part of an athlete to cyclically travel between the first and second surfaces in a plane that intersects both of the first and second surfaces. The athlete can be supported such that the body part is substantially free from external resistance along a direction of travel within the plane. In this way, repeated movement of a body part can occur between the first and second surfaces without fatiguing muscles due to external resistance, thereby lengthening the duration of the training session. The at least one body part can include the feet of the athlete. | ||||||
| 139 | Exercise device | US14692190 | 2015-04-21 | US09415254B2 | 2016-08-16 | Rebecca R. Dyer |
| An exercise apparatus comprises a wearable article and a plurality of straps. The wearable article may comprise pants, footwear, headwear, jackets, gloves, socks, shorts, shirts, vests, sleeves, unitards, and/or leotards. The straps may be positioned at various locations about the wearable article. The straps include a plurality of tabs exposed through corresponding openings in the wearable article. Each tab includes an attachment member that is capable of being selectively coupled with one or more exercise accessories. The tabs may be positioned equidistantly about each strap. The exercise accessories may comprise straps, static or flexible bands, rods, levels, poles, chains, resistance bands, weights, sandbags, weighted sleds, training parachutes, medical rehabilitation tools (such as stretch bands), or the like. The wearable article or straps may further include a plurality of snaps such that the tabs are selectively securable to the snaps. | ||||||
| 140 | Touch pad with force sensors and actuator feedback | US14623744 | 2015-02-17 | US09400582B2 | 2016-07-26 | Jeffrey Traer Bernstein; Avi Cieplinski; Brett W. Degner; Duncan Kerr; Patrick Kessler; Paul Puskarich; Marcelo H. Coelho; Aleksandar Pance |
| Electronic devices may use touch pads that have touch sensor arrays, force sensors, and actuators for providing tactile feedback. A touch pad may be mounted in a computer housing. The touch pad may have a rectangular planar touch pad member that has a glass layer covered with ink and contains a capacitive touch sensor array. Force sensors may be mounted under each of the four corners of the rectangular planar touch pad member. The force sensors may be used to measure how much force is applied to the surface of the planar touch pad member by a user. Processed force sensor signals may indicate the presence of button activity such as press and release events. In response to detected button activity or other activity in the device, actuator drive signals may be generated for controlling the actuator. The user may supply settings to adjust signal processing and tactile feedback parameters. | ||||||
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