| 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 | Pole vault training device | US285226 | 1999-04-01 | US06162148A | 2000-12-19 | Robert H. Lockwood; Park A. Lockwood; Bob A. Lockwood |
| An apparatus used to train pole vaulters to practice the swing and stretch of the vault from the pole plant and bend phase to the inversion phase which includes an upside down "U" shaped tube member with two short extensions protruding from a top surface of the upside down "U" shaped tube with steel straps extending from each extension with handles attached to the end of steel straps, the "U" shaped tube, extension and straps and grips are positioned so that the handles hang parallel, level but offset from each other about eight inches. The "U" shaped tube is swingingly attached to the horizontal bar by the use of velcro straps while a cloth mat is provided between the "U" shaped and the horizontal bar allowing the "U" shaped tube to swing freely around the horizontal bar. Safety wrist straps are attached to the hand grips assuring the athlete's safe grip during the training. The device provides a training tool for the swing phase of the pole vault without unnecessary delay or danger created by many repetitions of the run, pole plant, leg drive, and swing. | ||||||
| 22 | Helmet system including at least three accelerometers and mass memory and method for recording in real-time orthogonal acceleration data of a head | US872675 | 1997-06-11 | US5978972A | 1999-11-09 | Walter Stewart; Nicholas Jones; Wolfger Schneider |
| A system designed to measure and record in real time data relating to translational and angular acceleration of an individual's head during normal sporting activity. One embodiment of the device includes at least three orthogonal accelerometers mounted within a sports helmet together with means for recording, in real-time, the data output from the accelerometers. The data is either recorded on a memory card or other mass memory means installed in the helmet, or is transmitted to a nearby receiver for reception and storage on a computer's hard drive or other conventional mass storage device. The device provides real-time storage of translational and angular acceleration data over a length of time such that cumulative exposure effects and thus limits can be established for the individual's further or future participation in the sport. The data also allows detection of the precise motions of the head which precede the occurrence of a severe head injury. | ||||||
| 23 | Deceleration apparatus for safety nets | US245345 | 1981-01-15 | US4351413A | 1982-09-28 | Wayne E. Simon |
| A landing net assembly (10) provides a controlled deceleration landing device for pole vaulters, high jumpers and the like in such a way that the impact of a free-falling body and the rate of displacement of the landing net is dampened in a controlled manner. Each of a plurality of damping devices includes a supporting post (12, 14) which contains a fluid (72) and float (76) submerged in the fluid (72), the float (76) being connected by tendons or cords (82) to the landing net (18) so that when the (18) net is displaced the float (76) is displaced within the fluid (72). In this manner, the viscous drag force of each float as it moves through the fluid and the buoyant force of the float in the fluid dissipate the initial impact of the free-falling body and damp the rate of displacement of the net. | ||||||
| 24 | Matelas réductible | EP14167615.5 | 2014-05-09 | EP2942084A1 | 2015-11-11 | Duborgel, Nicolas |
Matelas (2) ayant une première surface de réception (3a) et une deuxième surface de réception (3b) configurées pour recevoir un objet et pour être placées sur une surface de support. Le matelas comprend un corps compressible (4) et un mécanisme de réduction (8) de longueur dans une direction de réduction-extension (R-E). Le corps compressible comprend au moins une première couche souple (18) et une deuxième couche souple (18) superposées et parallèles aux surfaces de réception, chaque couche souple comprenant au moins deux bandes amortissantes (10) s'étendant dans une direction longitudinale (A) entre deux côtés latéraux opposés (7a, 7b) du matelas. Les bandes amortissantes dans une couche souple sont alignées entre elles et séparées par une distance (Em) non nulle dans la direction de réduction-extension (R-E) lorsque le matelas est dans une configuration déployée, les bandes amortissantes d'au moins l'une des couches souples étant non-rectilignes et formant des points de croisement avec des bandes amortissantes d'une autre des couches souples adjacente. Le mécanisme de réduction (8) peut comprendre au moins un cordon de réduction (16) entourant les bandes amortissantes et configuré pour pouvoir être serré autour des bandes compressible pour rapprocher les bandes amortissantes dans la direction de réduction-extension (R-E) de sorte que les bandes amortissantes d'au moins l'une des couches s'emboitent pour réduire la longueur du matelas dans la direction de réduction-extension (R-E).
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| 25 | Method and measuring device for motional performance | EP07122351.5 | 2007-12-05 | EP1930841B1 | 2011-04-13 | Karikko, Seppo; Piirainen, Toni; Niskanen, Matti |
| 26 | Method and measuring device for motional performance | EP07122351.5 | 2007-12-05 | EP1930841A1 | 2008-06-11 | Karikko, Seppo; Piirainen, Toni; Niskanen, Matti |
A measuring device comprises cameras for imaging a person performing a movement from at least two different directions so as to provide image data. An image-processing unit measures the image data for values of predetermined parameters representing motion so as to provide measurement data. The image-processing unit presents the performance in relation to other performances.
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| 27 | APPARATUS AND METHOD FOR TRAINING WITH BIOFEEDBACK | EP95942893.0 | 1995-11-27 | EP0794818A1 | 1997-09-17 | NASHNER, Lewis, M.; GOLDSTEIN, Daniel, F. |
| Devices and methods for the assessment and biofeedback training of coordination skills of a subject critical to maximizing the power and accuracy of athletic ball-strike activities. In preferred embodiments, the invention provides for assessment and biofeedback training of weight bearing and center of gravity control under conditions requiring the athlete to strike a ball such that the distance and direction of flight trajectory of the ball are accurate relative to a performance goal. One embodiment of the invention includes a body movement sensor (11), a ball strike sensor (12), a display (14), and a computer (13). The body movement sensor (11) provides an output indicative of the motion of the subject's body (15) over a period of time including the moment of ball strike. The computer (13) causes the display (14) to show both a trajectory of the motion of the subject's body (15) and the moment of ball strike in relation to a region of the trajectory. | ||||||
