| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 游戏装置 | CN200780031440.1 | 2007-08-21 | CN101528312B | 2010-11-10 | 越智泰 |
| 本发明涉及一种能够使游戏者进行更加富于变化的游戏的游戏装置。该游戏装置(1)包括:将长边方向横向配置,使游戏者(Y)在站立状态下能够沿着长边方向在外周面上移动的梁(11);隔以间隔沿梁(11)的长边方向配设且分别支承该梁(11)的两端部的第一支承机构以及第二支承机构,上述第一支承机构以及第二支承机构按照梁(11)的一端部或两端部沿着与长边方向交叉的方向自由位移的方式进行支承;和驱动机构,其驱动梁(11),使梁(11)的一端部或两端部沿着上述交叉方向位移。 | ||||||
| 2 | 运动平台配置 | CN201480021671.4 | 2014-03-12 | CN105378818A | 2016-03-02 | S·A·斯瓦克 |
| 一种改进的运动平台配置,所述运动平台配置具有组件的特殊的对齐配置,所述组件包括多个有源器件,例如线性致动器,和多个传感器,例如无源传感器。所述组件的特殊的对齐配置简化了基于来自传感器的输出信号的计算,因此为高速运动平台应用提供了更好的支持。 | ||||||
| 3 | 用于振动动力学平台的电子显示器 | CN201280059412.1 | 2012-03-23 | CN103957750A | 2014-07-30 | 西尔万·特罗蒂尔; 让-弗朗索瓦·梅纳德; 皮埃尔·塞内卡尔; 马丁·西蒙尼奥 |
| 本文件描述了一种振动动力学座位套件,该振动动力学座位套件用于在包括其它就座位置的多座位环境中在就座位置处将座位提供给用户并且用于给予所述用户振动动力学效果。振动动力学座位套件包括电子显示器与振动动力学平台,该振动动力学平台包括:座位部分,与就座位置相关,并且用于将座位提供给用户;以及致动系统,机械地连接到座位部分以便给予用户振动动力学效果。与振动动力学平台相关联的电子显示器用于接收显示数据并且用于电子地示出所述显示数据的可视信息,所述可视信息包括在所述多座位环境中所述就座位置相对于其它就座位置的识别标签。 | ||||||
| 4 | 驾驶模拟器 | CN200880001048.7 | 2008-05-09 | CN101558435B | 2012-07-25 | 野崎博路; 清水将之; 时山智; 作野诚 |
| 本发明涉及一种驾驶模拟器,在现有的驾驶模拟器中,存在旋转角自然有限且不能再现车辆滑移横置时的状态这类问题。本发明提供一种驾驶模拟器,其具备:固定台、在固定台上沿左右方向可移动地载置的横向平移台、在固定台(1)上可旋转地载置的偏转台、在偏转台上可翻滚地轴支承其前后的翻滚台。由此,可以最大限度地控制车身的旋转角度,可以再现车身回转时的现象。 | ||||||
| 5 | 驾驶模拟器 | CN200880001048.7 | 2008-05-09 | CN101558435A | 2009-10-14 | 野崎博路; 清水将之; 时山智; 作野诚 |
| 本发明涉及一种驾驶模拟器,在现有的驾驶模拟器中,存在旋转角自然有限且不能再现车辆滑移横置时的状态这类问题。本发明提供一种驾驶模拟器,其具备:固定台、在固定台上沿左右方向可移动地载置的横向平移台、在固定台(1)上可旋转地载置的偏转台、在偏转台上可翻滚地轴支承其前后的翻滚台。由此,可以最大限度地控制车身的旋转角度,可以再现车身回转时的现象。 | ||||||
| 6 | 游戏装置 | CN200780031440.1 | 2007-08-21 | CN101528312A | 2009-09-09 | 越智泰 |
| 本发明涉及一种能够使游戏者进行更加富于变化的游戏的游戏装置。该游戏装置(1)包括:将长边方向横向配置,使游戏者(Y)在站立状态下能够沿着长边方向在外周面上移动的梁(11);隔以间隔沿梁(11)的长边方向配设且分别支承该梁(11)的两端部的第一支承机构以及第二支承机构,上述第一支承机构以及第二支承机构按照梁(11)的一端部或两端部沿着与长边方向交叉的方向自由位移的方式进行支承;和驱动机构,其驱动梁(11),使梁(11)的一端部或两端部沿着上述交叉方向位移。 | ||||||
| 7 | 遊戯施設 | JP2017520049 | 2015-05-27 | JPWO2016189572A1 | 2018-03-08 | 山田 勇作 |
| 搭乗者に対して一層臨場感のある仮想体験を与える遊戯施設を提案する。遊戯施設は、レール部(1)と、レール部(1)に沿って移動自在な基台(2)と、基台(2)に支持される搭乗部(3)と、基台(2)をレール部(1)に沿って移動させる駆動装置(4)と、基台(2)に対して搭乗部(3)を揺動させる揺動装置(5)と、搭乗者(9)の頭部(91)に装着されるヘッドマウントディスプレイ装置(6)と、制御部(7)とを具備する。制御部(7)は、基台(2)を移動させ、搭乗部(3)を揺動させるとともに、ヘッドマウントディスプレイ装置(6)に映像を表示させる。 | ||||||
| 8 | 振動−運動プラットフォーム用電子表示装置 | JP2014533740 | 2012-03-23 | JP2014531278A | 2014-11-27 | トロッティエ シルヴァン; メナード ジャン−フランソワ; セネカル ピエール; シモノー マルタン |
| 本明細書は、他の座席位置を備えるマルチ座席環境内の1つの座席位置においてユーザに座席を提供するとともにユーザに振動−運動効果を提供する振動−運動座席キットを開示する。この振動−運動座席キットは、電子表示装置及び振動−運動プラットフォームを備え、前記振動−運動プラットフォームは前記一座席位置と関連するシート部分を備え、該シート部分が前記ユーザに座席を提供し、更に前記ユーザに振動−運動効果を提供するために前記シート部分に機械的に連結された作動システムを備える。前記振動−運動プラットフォームに関連する前記電子表示装置は前記マルチ座席環境内の前記他の座席位置に対する前記1つの座席位置の識別タグを備える表示データを受信し、該表示データを示す視覚情報を電子的に表示する。【選択図】図4 | ||||||
| 9 | Driving Simulator | JP2007160867 | 2007-06-19 | JP5039445B2 | 2012-10-03 | 誠 作野; 智 時山; 將之 清水; 博路 野崎 |
| 10 | Driving simulator | JP2007160867 | 2007-06-19 | JP2009002974A | 2009-01-08 | SHIMIZU MASAYUKI; TOKIYAMA SATOSHI; SAKUNO MAKOTO; NOZAKI HIROMICHI |
| <P>PROBLEM TO BE SOLVED: To solve the following problem: in a conventional driving simulator, the turning angle is limited and such a state in which a vehicle skids to turn sideways cannot be reproduced. <P>SOLUTION: A driving simulator includes: a fixed base 1; a horizontal translation pedestal mounted on the fixed base and movable in the right/left direction; a yaw pedestal 10 rotatably mounted on the fixed base 1; and a rolling pedestal 20 the front and rear of which are axially supported on the yaw pedestal in a rollable manner. Thus, a vehicle body can be so controlled as to have a large turing angle and can reproduce the phenomena when the vehicle body spins. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 11 | VESTIBULAR TESTING | US14775421 | 2014-03-12 | US20160029945A1 | 2016-02-04 | Daniel Michael Merfeld; Yongwoo Yi |
| In one aspect, the disclosure features methods for estimating a vestibular function of a subject. The methods include moving the subject along a first direction parallel to the direction of gravity, receiving a first input set from the subject, the first input set indicating the subject's perception of the first direction, and estimating a first parameter related to a first vestibular function of the subject based on the first input. The methods further includes changing an orientation of the subject with respect to the earth, moving the subject along a second direction after changing the orientation of the subject, and receiving a second input set from the subject, the second input set indicating the subject's perception of the second direction. | ||||||
| 12 | PHYSICAL INTERACTION DEVICE FOR PERSONAL ELECTRONICS AND METHOD FOR USE | US13679653 | 2012-11-16 | US20130073064A1 | 2013-03-21 | Robert C. Houvener; Michele M. Hermsen; Tyler N. Doyle |
| The present disclosure describes, among other things, a device that may include an exterior shell including at least one of an open cell foam, a closed cell foam, a foamed resin, and an inflatable bladder. The device may include a personal electronic device receptacle configured to removably receive a personal electronic device. The device may be configured to substantially enclose and protect the personal electronic device within the personal electronic device receptacle during physical activity including at least one of rolling the device, throwing the device, kicking the device, and striking the device against another object, and enable interaction with the personal electronic device while the personal electronic device is substantially enclosed within the device. | ||||||
| 13 | Playing device | US12438299 | 2007-08-21 | US08313418B2 | 2012-11-20 | Yasushi Ochi |
| The present invention relates to a playing device with which a player can perform more diversified plays. A playing device 1 comprises a beam 11 disposed such that its longitudinal direction is directed laterally and which is configured such that a player Y can move on the outer circumferential surface thereof under a standing state along the longitudinal direction; a first support mechanism and a second support mechanism which are disposed at a distance in the longitudinal direction of the beam 11 for supporting the both end portions of the beam 11, respectively, the first support mechanism and the second support mechanism for supporting the beam 11 such that one or both end portions of the beam 11 can displaces freely in the direction intersecting the longitudinal direction; and a drive mechanism for driving the beam 11 to displace one or both end portions thereof in the intersecting direction. | ||||||
| 14 | PLAYING DEVICE | US12438299 | 2007-08-21 | US20100216369A1 | 2010-08-26 | Yasushi Ochi |
| The present invention relates to a playing device with which a player can perform more diversified plays. A playing device 1 comprises a beam 11 disposed such that its longitudinal direction is directed laterally and which is configured such that a player Y can move on the outer circumferential surface thereof under a standing state along the longitudinal direction; a first support mechanism and a second support mechanism which are disposed at a distance in the longitudinal direction of the beam 11 for supporting the both end portions of the beam 11, respectively, the first support mechanism and the second support mechanism for supporting the beam 11 such that one or both end portions of the beam 11 can displaces freely in the direction intersecting the longitudinal direction; and a drive mechanism for driving the beam 11 to displace one or both end portions thereof in the intersecting direction. | ||||||
| 15 | Amusement device | US31329219 | 1919-07-25 | US1345647A | 1920-07-06 | MCK WATERS ANDREW |
| 16 | HIGH ANGLE TETHERED SLIDE WITH FREEFALL DROP AND VARIABLE RADIUS SWING | EP14908008.7 | 2014-12-11 | EP3229931A1 | 2017-10-18 | HRENIUK-MITCHELL, Darren W. |
| An amusement ride is formed from a self-equalizing dual line affixed to a pulley at its upper end and to pulley and counterweight system at its lower end. An upper platform at the upper dual line end launches a rider who is connected via a line to a pulley riding on the dual line. A slide is carried by the upper platform from which the rider is launched, resulting in the rider swinging in an arcuate motion about the pulley. A belay, carried by the dual line, is movable to confront the pulley as the rider is carried down the dual lines and to enhance the arcuate swinging of the rider. A lower landing permits the rider to demount the amusement ride. | ||||||
| 17 | VESTIBULAR TESTING | US16232676 | 2018-12-26 | US20190209069A1 | 2019-07-11 | Daniel Michael Merfeld; Yongwoo Yi |
| In one aspect, the disclosure features methods for estimating a vestibular function of a subject. The methods include moving the subject along a first direction parallel to the direction of gravity, receiving a first input set from the subject, the first input set indicating the subject's perception of the first direction, and estimating a first parameter related to a first vestibular function of the subject based on the first input. The methods further includes changing an orientation of the subject with respect to the earth, moving the subject along a second direction after changing the orientation of the subject, and receiving a second input set from the subject, the second input set indicating the subject's perception of the second direction. | ||||||
| 18 | SWINGING APPARATUS AND AMUSEMENT RIDE INCLUDING THE SAME | US15737260 | 2017-01-31 | US20180369701A1 | 2018-12-27 | Yusaku Yamada |
| The swinging apparatus includes a base, a support located above the base, a coupler disposed between the base and the support and including a universal joint, and linear actuators disposed between the base and the support. Each of the linear actuators includes a first end and a second end located on an opposing side to the first end. The first end is mechanically connected to one of the base and the support. The second end is configured to freely move touching a surface of the other of the base and the support. | ||||||
| 19 | SEATING DEVICE | US15795059 | 2017-10-26 | US20180111054A1 | 2018-04-26 | Matthias Buck; Martin Gerlich |
| A seating device for connection to a movement mechanism includes at least one seat and a fastening flange. The fastening flange has at least one flange clamping receptacle, and the seat has at least two seat clamping receptacles for connection to the fastening flange. At least one clamping device is provided, which extends in the direction of a clamping axis. The flange clamping receptacle is arranged in the direction of the clamping axis between two of the at least two seat clamping receptacles. The clamping device passes through the two seat clamping receptacles arranged on either side of the flange clamping receptacle and clamps them together in the direction of the clamping axis. | ||||||
| 20 | Electronic display for vibro-kinetic platform | US13251402 | 2011-10-03 | US09078523B2 | 2015-07-14 | Jean-François Ménard; Pierre Sénécal; Martin Simoneau; Sylvain Trottier |
| The present document describes a vibro-kinetic seating kit for providing seating to a user at a seating location in a multi-seating environment comprising other seating locations and for rendering a vibro-kinetic effect to the user. The vibro-kinetic seating kit comprises an electronic display and a vibro-kinetic platform which comprises a seat portion associated with the seating location and for providing the seating to the user; and an actuation system mechanically connected to the seat portion for rendering the vibro-kinetic effect to the user. The electronic display associated to the vibro-kinetic platform is for receiving display data and for electronically showing visual information indicative of the display data which comprises an identification tag for the seating location relative to the other seating locations in the multi-seating environment. | ||||||
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