| 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 | Health unit comprising the inertial rotating portion | JP2003001503 | 2003-03-24 | JP3097197U | 2004-01-15 | 余惠南 |
| 【課題】組立て、分解が容易で収納に便利であり、面白みを感じさせて容易に飽きのこない、慣性式回動部を具える健康器を提供する。
【解決手段】半球状で一対の半球体と、及び該半球体を収納する収納部が形成きれるとともに、外周に沿って鍔部が形成され、該鍔部に重心ボールを嵌着する一対のハウジングとによって本体を構成して、該本体に軸桿を挿通させ、該一対のハウジングによって形成される部分を回動カバーとし、該回動カバーを半球体に対して摺動自在に設け、別途十字状の管体の一端を挿入部として該軸桿を嵌着し、該挿入部に相対する他端には当接板を設け、該挿入部から該当接板に至る軸線に直交する管体の両端にハンドル桿を着脱自在に嵌着して支持フレームを構成する。 【選択図】図1 |
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| 42 | Gyroscope devices | JP50443592 | 1992-01-03 | JP3086253B2 | 2000-09-11 | ミシュラー・フレデリック・エイチ |
| 43 | JPS527514B1 - | JP3614872 | 1972-04-12 | JPS527514B1 | 1977-03-02 | |
| 44 | ARM TRAINER STRUCTURE | EP15166167.5 | 2015-05-04 | EP2957325B1 | 2018-07-11 | Huang, Chia-Yu |
| An arm trainer structure comprises a main body, two wheels, two bearing sets, two resilient blocks, a rear holding plate, a front holding plate and an adjustment knob. The main body has two outer rings. The two wheels are coaxially rotatably disposed in the two outer rings. The two bearing sets are disposed between the two wheels and the two outer rings. The two resilient blocks have resilient deformation abilities and are combined with the main body. The rear holding plate is disposed on rear sides of the two resilient blocks and has a middle frontwardly projecting to form a screwed fitting rod. An end surface of the screwed fitting rod has a screw hole. Each of the two lateral sides of the two rear holding plates has a rear damping sheet pressing against the two wheels to generate a resisting force. The front holding plate is disposed on front sides of the two resilient blocks, and has a middle having a through hole. Each of two lateral sides of the front holding plate has a front damping sheet pressing against the two wheels to generate a resisting force. The adjustment knob has a bolt penetrating through the through hole screwed into the screw hole of the screwed fitting rod. The adjustment knob is tightened to force the front and rear holding plates to tightly press against the two resilient blocks to cause resilient deformation to increase rotational resistance forces of the front and rear damping sheets. The adjustment knob is loosened to move the front and rear holding plates outward by the resilient forces of the two resilient blocks to reduce rotational resistance forces of the front and rear damping sheets. The structure can train the arm muscle groups and hand joints, and can adjust the resisting forces to achieve different degrees of training effects. | ||||||
| 45 | SYSTEMS, METHODS, AND DEVICES FOR THE OPERATION OF ELECTRICALLY MOTORIZED VEHICLES | EP15774057 | 2015-04-03 | EP3126184A4 | 2018-07-04 | BIDERMAN ASSAF; STEVENS JON; HEINZMANN JOHN DAVID; SIMARD JAMES; CAGNIE RUBEN; CHAN TAI |
| A system, method and device for the operation of electrically motorized vehicles that can utilize an electrically motorized wheel to convert a non-motorized wheeled vehicle to an electrically motorized wheeled vehicle. The electrically motorized wheel can include a modular systems package with a motor, power supply, sensor system and control system that is operable to communicate locally and globally via various mobile devices. The control system for a device of an electrically motorized wheel includes an application module operable to execute a control algorithm that manages operation of the device. | ||||||
| 46 | SYSTEMS, METHODS, AND DEVICES FOR THE OPERATION OF ELECTRICALLY MOTORIZED VEHICLES | EP15774057.2 | 2015-04-03 | EP3126184A1 | 2017-02-08 | BIDERMAN, Assaf; STEVENS, Jon; HEINZMANN, John David; SIMARD, James; CAGNIE, Ruben; CHAN, Tai |
| A system, method and device for the operation of electrically motorized vehicles that can utilize an electrically motorized wheel to convert a non-motorized wheeled vehicle to an electrically motorized wheeled vehicle. The electrically motorized wheel can include a modular systems package with a motor, power supply, sensor system and control system that is operable to communicate locally and globally via various mobile devices. The control system for a device of an electrically motorized wheel includes an application module operable to execute a control algorithm that manages operation of the device. | ||||||
| 47 | BICYCLE TRAINER | EP15162213.1 | 2015-04-01 | EP3009171A1 | 2016-04-20 | Hsu, Hsaio-Wen |
A bicycle trainer is adapted to be arranged with a bicycle to simulate riding a bicycle on an outdoor road. The bicycle includes a stand, a roller and a resistance source. The stand is adapted to support the bicycle. The roller is pivoted to the stand and adapted to contact a bicycle wheel of the bicycle. The resistance source is coupled to the roller and provides resistance to the bicycle wheel via the roller. The resistance source varies the magnitude of the provided resistance according to the rotation speed of the roller. |
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| 48 | Gyroscopic exercise ball | EP10787489.3 | 2010-12-10 | EP2509689B1 | 2014-04-02 | KELLIHER, Timothy |
| 49 | EXERCISE DEVICE | EP11771055.8 | 2011-09-28 | EP2621591A1 | 2013-08-07 | MCLOUGHNEY, Rory |
| An exercise device comprises a rigid endless tubular ring having an internal bore, a handle element extending radially across a main aperture bounded by the ring, and a weighted freely movable element received in said ring for movement therearound. The handle element is attached to the tubular ring via first and second attachment portions which extend around the tubular ring for improved stability. By gyrating the exercise device to cause the ball to roll within the ring, a user is able to generate inertial resistance within the device and improve the strength in his or her wrist and other body parts. The exercise device is designed to be used in a one-handed or two-handed mode of operation. The attachment portions extending around the tubular ring stabilize the junction between the ring and handle, allowing greater ball weights and larger diameter rings to be used. | ||||||
| 50 | Kinetic dumbbell | EP11168195.3 | 2011-05-31 | EP2420295A2 | 2012-02-22 | CHEN, Larry |
A kinetic dumbbell (1) of the present invention includes a handle (10) and two weight devices (20a, 20b) connected to opposite ends of the handle (10). Each of the weight devices (20a, 20b) has an annular channel (S1) and at least a ball (30) received in the annular channel (S1). The balls (30) are running in the endless annular channels (S1) to provide an extra vibration effect while training with the kinetic dumbbell (1) of the present invention.
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| 51 | Trainingsgerät | EP00113490.7 | 2000-06-26 | EP1075857A1 | 2001-02-14 | Miehlich, Dieter |
Der Sitz (10) eines Trainingsgerät ist über Parallelogrammarme (6a,6b) mit einem Grundrahmen (2) verbunden, so daß er kreissegmentförmige Bewegungen gegenüber dem Grundrahmen (2) ausführen kann. An einem Parallelogrammarm ist ein Trainingskraft-Übertragungsrahmen (26) angelenkt, welcher mit einem Ende an einem Kurbeltrieb (22) gelagert ist, der auf eine Riemenscheibe (24) arbeitet, die über einen Riemen (34) mit einem Schwungrad (38) verbunden ist. An diesem greift eine Bremse (40) an, gegen welche der Trainierende arbeitet. Vom Übertragungsrahmen (26) ragt vor dem Sitz (10) ein Griffhalter (30) mit Handgriffen (32) nach oben, am Grundrahmen (2) sind ferner Fußstützen (18) vorgesehen. Die Relativbewegungen zwischen Sitz (10), Übertragungsrahmen (26), der eine kombinierte Längs- und Schwenkbewegung ausführt, und Grundrahmen (2) erlauben eine Kraftausübung vom Sitz (10) über die Handgriffe (32) auf den Übertragungsrahmen (26), wobei Arme und Oberkörper trainiert werden. Eine Bewegung des Übertragungsrahmens (26) durch Beinbewegungen unter Zuhilfenahme der Fußstützen (18) erlaubt das Trainieren der Bein- und Bauchmuskulatur. Eine Lehne (12) mit einer Wirbelsäulenstütze (14) hält den Trainierenden in einer orthopädisch günstigen Position. |
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| 52 | GYROSCOPIC DEVICE | EP92903630.9 | 1992-01-03 | EP0570412B1 | 1998-04-22 | MISHLER, Frederick, H. |
| 53 | GYROSCOPIC DEVICE. | EP92903630 | 1992-01-03 | EP0570412A4 | 1995-04-19 | MISHLER FREDERICK H |
| 54 | GYROSCOPIC DEVICE | EP92903630.0 | 1992-01-03 | EP0570412A1 | 1993-11-24 | MISHLER, Frederick, H. |
| Un rotor gyroscopique (12) dans un logement (10) comporte un arbre (14) ayant un axe de révolution et capable de tourner autour d'un second axe perpendiculaire. Le rotor (12) est supporté dans une voie circulaire positionnée à proximité des extrémités de l'arbre (14) sur ses faces opposées ce qui permet un contact de roulement par les parties terminales de l'arbre (14) lorsqu'une torsion est appliquée au logement (10) autour d'un troisième axe à angle droit à la fois par rapport à l'axe de révolution et au second axe. La voie comprend une gorge circonférentielle (22) présentant des surfaces opposées en contact de frottement avec l'extrémité de l'arbre (14), assurant un mouvement de précession de roulement de l'arbre du rotor. Un anneau (24) comporte des encoches (26) destinées à établir une connexion d'entraînement entre l'arbre et la bague de guidage. Cette bague de guidage a un mouvement coulissant libre contre les surfaces opposées de la gorge. Le dispositif comprend des parties (42) génératrices d'électricité alimentant en puissance des dispositifs visuels et/ou audio (46) se trouvant dans le logement. | ||||||
| 55 | EXCERCISE MACHINE WITH MULTIPLE EXERCISING MODES | EP16168504.5 | 2016-05-05 | EP3097957A1 | 2016-11-30 | DALEBOUT, William, T.; ERCANBRACK, Gaylen, W. |
An exercise machine includes a frame, a seat selectively movable with respect to the frame, and a resistance mechanism connected to the frame. The seat is adjustably positioned between an upright position that orients a user in an upright orientation with respect to the pedal assembly when the exercise machine is in an upright exercise mode and a recumbent position that orients the user in a recumbent orientation with respect to the pedal assembly when the exercise machine is in a recumbent cycling exercise mode.
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| 56 | GYRO POWER STARTER | EP07755471.5 | 2007-04-16 | EP2018516B1 | 2016-05-18 | DWORZAN, Bill |
| 57 | ARM TRAINER STRUCTURE | EP15166167.5 | 2015-05-04 | EP2957325A1 | 2015-12-23 | Huang, Chia-Yu |
An arm trainer structure comprises a main body, two wheels, two bearing sets, two resilient blocks, a rear holding plate, a front holding plate and an adjustment knob. The main body has two outer rings. The two wheels are coaxially rotatably disposed in the two outer rings. The two bearing sets are disposed between the two wheels and the two outer rings. The two resilient blocks have resilient deformation abilities and are combined with the main body. The rear holding plate is disposed on rear sides of the two resilient blocks and has a middle frontwardly projecting to form a screwed fitting rod. An end surface of the screwed fitting rod has a screw hole. Each of the two lateral sides of the two rear holding plates has a rear damping sheet pressing against the two wheels to generate a resisting force. The front holding plate is disposed on front sides of the two resilient blocks, and has a middle having a through hole. Each of two lateral sides of the front holding plate has a front damping sheet pressing against the two wheels to generate a resisting force. The adjustment knob has a bolt penetrating through the through hole screwed into the screw hole of the screwed fitting rod. The adjustment knob is tightened to force the front and rear holding plates to tightly press against the two resilient blocks to cause resilient deformation to increase rotational resistance forces of the front and rear damping sheets. The adjustment knob is loosened to move the front and rear holding plates outward by the resilient forces of the two resilient blocks to reduce rotational resistance forces of the front and rear damping sheets. The structure can train the arm muscle groups and hand joints, and can adjust the resisting forces to achieve different degrees of training effects.
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| 58 | A MOTION MECHANISM IN A WEIGHT DEVICE | EP11835737 | 2011-10-27 | EP2632557A4 | 2015-08-26 | GREENBERG ILAN; SHALEV PINCHAS |
| 59 | Exercise apparatus with coupled motion mechanism | EP08019168.7 | 2008-11-03 | EP2095850B1 | 2015-04-29 | Stevenson, Mark, D.; Immordino, Joseph; Roimicher, Marcos, D. |
| 60 | HYBRID RESISTANCE SYSTEM | EP13733174.0 | 2013-06-14 | EP2861308A1 | 2015-04-22 | Habing, Douglas, John |
| A resistance system, which can be suitable for incorporation in exercise equipment, is a “hybrid” resistance assembly having at least a first and a second resistance unit. The first resistance unit can be of a first type and the second resistance unit can be of a second type. The first resistance unit can be an inertial resistance unit, which incorporates an inertial load that creates resistance influenced by the inertia of a movable mass, such as a rotatable flywheel. The second resistance unit can be a static or non-inertial resistance unit, such as a displacement resistance unit, which incorporates a load that creates resistance influenced by displacement (e.g., linear or rotational displacement) of an input to the displacement resistance unit. | ||||||
