| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 241 | 모션 베이스를 구비한 놀이 기구 트랙 | KR1020087007669 | 2006-09-28 | KR101319051B1 | 2013-10-17 | 블럼스티븐씨; 키두마이클알; 트로우브릿지스콧알 |
| 놀이 기구는, 주 트랙으로부터 결합해제될 수 있고 독립적인 자유도 1 내지 6을 갖는 3축 상에 또는 상기 3축 주위에서 연속적으로 이동 가능한 트랙의 일부를 갖는 탑승 기구 차량 경로를 형성하는 트랙을 갖는다. | ||||||
| 242 | 선형 모터로 구동되는 놀이기구 및 이의 슬라이딩 면 | KR1020127027756 | 2007-03-02 | KR1020120135426A | 2012-12-13 | 헌터,리차드,디.; 탠저,안드레아스 |
| 본 발명은 선형 유도 모터를 일 부분으로 구비하여 활주 위를 슬라이딩하는 차량(탈것)의 움직임에 효율적이고 효과적으로 영향을 미치는 수상 슬라이드(waterslide) 놀이기구에 관한 것이다. 상기 선형 유도 모터는 슬라이딩 면 아래에 설치된 선형 유도 모터 유닛과 상기 차량 바닥에 설치된 반작용 플레이트를 포함한다. 상기 선형 유도 모터 유닛과 상기 반작용 플레이트의 배치(configuration)에 따라 상기 선형 유도 모터 구동은 상기 차량을 가속 또는 감속하거나 오르막 섹션 위로 올라가는 속도를 유지하거나 회전하는데 사용될 수 있다.
|
||||||
| 243 | 승용 가능한 놀이기구용 대형 2족 보행 로봇과 그를 이용한 놀이공원 시스템 | KR1020090078086 | 2009-08-24 | KR1020100024363A | 2010-03-05 | 김인상 |
| PURPOSE: A giant biped robot for riding and an amusement park system using the same are provided to offer a new play culture by combining a biped robot with a ride or a roller coaster. CONSTITUTION: A giant biped robot(1) for riding comprises a seat space, a safety cable(502), a safety rail moving wheel, a safety rail, connection arms(210,220), a roller coaster trolley, tunnel, a large speaker, and a headlight. The safety cable prevents a robot from falling down. The safety rail moving wheel and the safety rail moves a safety cable along the robot. The connection arm connects the robot to the roller coaster(200). The roller coaster trolley pulls the robot. A tunnel offers special effects the theme experience of the amusement park. The large speaker outputs the sound to a user. | ||||||
| 244 | 개인화된 오디오 시스템 및 개인화된 오디오 제공 방법 | KR1020087012850 | 2006-11-27 | KR1020080071153A | 2008-08-01 | 트로우브리지스콧알; 블럼스티븐씨; 맥퀼리안브라이언; 슈와츠저스틴엠 |
| A personalized audio system for an amusement ride includes an audio selection system, a guest identification system and a ride vehicle enabled to reproduce audio selections made using the selection system in a specific seat of the ride vehicle corresponding to the seat occupied by the guest who selected the audio during that guest's ride on the amusement ride. | ||||||
| 245 | 놀이기구 차량 | KR1020077006897 | 2005-05-17 | KR1020070057204A | 2007-06-04 | 카세이조셉에프; 에머릭신디엘; 러브레이스레지날드비; 웨이간드프랭크케이; 화이트콤브윌리엄; 새이짐엘; 하텅글렌에이 |
| An amusement ride vehicle includes a first vehicle section (12), a second vehicle section (14), and an articulation joint (30) connecting, and providing rotational movement between, the first and second vehicle sections. The articulation joint comprises a first shaft (32) for bearing loads during normal operation of the joint, and a second shaft (34) within the first shaft for bearing loads when the first shaft is inoperable. A test element (70), such as a lever, is attached to the second shaft. The second shaft is rotatable via the test element during normal operation of the joint. When the first shaft is inoperable, the second shaft handles loads acting on the articulation joint, and is not rotatable via the test element, thus indicating a failure of the first shaft. | ||||||
| 246 | 수송 시스템 | KR1020057004476 | 2003-09-12 | KR100719032B1 | 2007-05-16 | 야마다사부로 |
| 경량 소형 차량이 이용될 수 있는 수송 시스템이 제공된다. 상기 수송 시스템은, 스테이션 사이에서 연장되는 레일, 상기 레일 상에서 주행할 수 있고 구동 수단을 구비하는 차량, 상기 스테이션 중 한 스테이션으로부터 다른 스테이션으로 향해 소정의 거리에 설치된 추진력 공급 수단으로부터 공급된 추진력에 의해 정지된 상태로부터 요구되는 속도로 상기 차량을 가속하는 제1 존, 및 상기 추진력 공급 수단을 구비하지 않는 제2 존을 포함하고, 상기 제2 존에서, 상기 제1 존에서 가속된 상기 차량이 상기 구동 수단으로부터 공급되는 추진력에 의해 상기 레일 상에서 주행한다. 트랙, 레일, 스테이션, 차량, 수송 시스템, 추진력 공급 수단, 가속 존, 자동 주행 존, 고정 자석, 가동 자석, 선형 가속기, 구동 수단, 리프터, 모터, 휠, 보조 레일. | ||||||
| 247 | A SYSTEM FOR PROVIDING A VIRTUAL REALITY EXPERIENCE | PCT/GB2016052935 | 2016-09-21 | WO2017051169A3 | 2017-06-15 | REVELEY SIMON |
| A system for providing a virtual reality experience, the system including a vehicle controlled to follow a pre-determined path; a virtual reality controller; one or more headsets each including a virtual reality generator and at least one screen, wherein the virtual reality generator is controlled by the virtual reality controller; and a synchronisation sensor, wherein the controller includes a memory adapted to store data relating to the path, the synchronisation sensor is connected to the controller and includes at least one accelerometer adapted to sense movement of the vehicle, the controller includes a processor adapted to compare data from the synchronisation sensor to the data stored in the memory of the controller to calculate the location of the vehicle on the path, and the controller is adapted to synchronise the virtual reality generator with the location of the vehicle on the path. | ||||||
| 248 | OPERATING SHOW OR RIDE ELEMENTS IN RESPONSE TO VISUAL OBJECT RECOGNITION AND TRACKING | PCT/US2009041250 | 2009-04-21 | WO2009151797A2 | 2009-12-17 | CRAWFORD DAVID W |
| A ride or show control apparatus (100) using visual recognition to provide a more interactive experience to guests or participants. The apparatus (100) is adapted for operating a ride or show element (170), such as a robotic character (174). The apparatus (100) includes a mechanized or robotic element (174) with movable components positioned near a guest traffic area (150). The apparatus (100) includes an imaging assembly (140) capturing images (146) of the traffic area (150) and outputting digital image data. A controller (110) is provided that includes a processor (112) using an object recognition module (120) to process the image data (146) to determine whether an object (156) is in the traffic area (150). In response to the object recognition, the control system (110) operates movable components of the mechanized element (174) such as to cause it to speak or move in the direction of the recognized object (156) such as a visitor's face or a badge, hat, or other item worn or carried by a guest or participant. | ||||||
| 249 | VIRTUAL OMNIMOVER | PCT/US2008066722 | 2008-06-12 | WO2009032382A3 | 2009-07-30 | KING STEVEN MORRIS; LONG HENRY WILLIAM |
| A ride control system for controlling a plurality of vehicles (12) on a path (20) includes a path processor (110) and a bi-directional voting circuit (56) in circuit with the path processor. Each vehicle of the plurality of vehicles may include a vehicle processor supported by the at least one vehicle and shunt relays in circuit with the at least one vehicle processor. Each vehicle processor may be configured to close a respective shunt relay upon a predetermined condition of the vehicle whereby the bi-directional voting circuit is activated to notify all other vehicles. | ||||||
| 250 | AUTOMATED ATTRACTION AND RIDE MAINTENANCE VERIFICATION SYSTEM | PCT/US2005028782 | 2005-08-11 | WO2006020890A3 | 2006-11-09 | SCHWEIZER KENNETH WILLIAM; BAILEY VINCENT JOSEPH; DIAZ IVAN RENE; HUTTER RACHEL STRELECKY; LAKE CRAIG FORREST; ORTA GEORGE JOSEPH; SCHAEFFER MARK; THOMAS JOHNIE LARRY; WINKELBAUER MARK THOMAS |
| A system for preventative maintenance of a ride (10) or an attraction component (13) at a venue (12). A validator establishes the identity of the ride (10) or attraction component (13) and a controller (16) monitors the use of the ride (10) or attraction component(13). The controller (16) also manages the ride (10) or attraction components (13) availability for patron (11) usage and transmits this information to a system control panel (27). A blocking device controlled by the panel prevents patron (11) usage of a ride (10) or attraction component (13) that is in non-compliance with pre-established operating standards | ||||||
| 251 | AMUSEMENT RIDE | PCT/US2005047063 | 2005-12-28 | WO2006073937A2 | 2006-07-13 | CASEY THOMAS P |
| A gimbaled wheel amusement ride is disclosed. | ||||||
| 252 | A LOAD MONITORING AND INVENTORY MANAGEMENT SYSTEM FOR USE WITH A LOAD CONVEYOR | PCT/GB0200660 | 2002-02-13 | WO02068310A2 | 2002-09-06 | CHRISTMAS MICHAEL CHARLES |
| A load monitoring system for use with a load conveyor (1) such as a lifting assembly of a forklift truck or other mobile load handler. The conveyor has a load support (3) for supporting a load to be conveyed and a load-bearing chain or cable (6). A load transducer (5) is attached to the load conveyor and generates an output signal representative of the load applied to the chain at any particular point in time. From the output signal the time during which the element has been used in a particular load range is determined as well as the remaining service life of the element. The load data may be collected and processed locally or may be transmitted to a remote computer (21) or hand-held device (22) for analysis. The mobile load handler may also have a data reader (26) so that that it may be used in inventory management in which a plurality of loads each labelled with load identification data (40) are moved between a plurality of storage zones (42) each labelled with location identification data by the handler. A data storage device (30) stores and processes the data so as to provide a log of the movement of a given load by the mobile load handler. | ||||||
| 253 | アミューズメントパーク要素追跡システム | JP2018144809 | 2018-08-01 | JP2018185338A | 2018-11-22 | ステンツラー ポーラ |
| 【課題】改良された追跡システムが様々な状況での使用に対して望まれている。 【解決手段】システムは、乗り物システム内に位置決めされた1又は2以上の逆反射マーカと、1又は2以上の逆反射マーカを検出して乗客の位置を追跡することができる追跡システムとを含む。追跡システムは、1又は2以上の逆反射マーカに向けて光を放出することができるエミッタと、1又は2以上の逆反射マーカからの反射光を検出することができる検出器と、反射光の検出に基づいて1又は2以上の逆反射マーカに対する乗客の位置を決定することができ、かつ乗客の位置の表示を与えることができるコントローラとを含む。 【選択図】図3 |
||||||
| 254 | バーチャルアトラクションコントローラ | JP2016568944 | 2015-05-18 | JP6423008B2 | 2018-11-14 | メイコック マーク; ヴァンス エリック |
| 255 | 特にジェットコースタ等のインタラクティブなアミューズメント乗り物 | JP2018517363 | 2016-06-07 | JP2018531085A | 2018-10-25 | シュラーデ ステファン |
| 【課題】 乗客のチーム行動を促進する。 【解決手段】 インタラクティブな乗り物、特にジェットコースタの車両(10)のために、制御ボタン(13)および表示ユニット(14)を備えた、各乗客に割り当てられた制御パネル(12)が提案される。すべての制御パネル(12)の制御ボタン(13)及び、必要な場合には表示ユニット(14)が送信機(16)を介して無線送信又はケーブルで評価及び制御ユニット(17)に接続され、評価及び制御ユニット(17)は、すべての乗客の反応時間を検出し、これらの平均値である集団的反応時間を算出する。そして集団的反応時間の経過後に、車両(10)のスタートのための信号が生成される。この乗り物では、車両の全乗客の相互作用に依存する。 【選択図】図3 |
||||||
| 256 | 無軌道のダークな乗物用の車両、システム、および方法 | JP2016152748 | 2016-08-03 | JP6393713B2 | 2018-09-19 | フォスター,サミュエル,ティー.; ボシャーズ,マイケル,ウェイン; グラント,アンドリュー; ハス,フランク,ピーター; ジェニングス,クリフォード,アレン; キング,エリック,アーサー; クロスロウイッツ,ケニス,トーマス; マルガン,サハス,サブハシャンドラ; シワック,ステファン,エー. |
| 257 | アミューズメントパーク要素追跡システム | JP2016568833 | 2015-05-21 | JP6382352B2 | 2018-08-29 | ステンツラー ポーラ |
| 258 | 特に、ジェトコースタ、回転木馬等のアミューズメント乗り物のためのメカトロニクス安全システム | JP2017517702 | 2015-10-02 | JP2017536861A | 2017-12-14 | ギュンター ブルガー |
| 【課題】アミューズメント乗り物のための安全システムを提供すること【解決手段】回転木馬、ジェットコースタ等のアミューズメント乗り物の安全性を高め、少なくとも1つのメカトロニクスシステム(20)を有する装置(10)において、メカトロニクスシステム(20)は、前記アミューズメント乗り物の機械的部品に欠陥があった際に欠陥のあった前記機械的部品の機能、特に支持機能を完全に又は少なくとも部分的に引き受け、この機能の引き受けを検知し、故障信号を供給する手段(30、40)を有することを特徴とする装置(10)。【選択図】図5 | ||||||
| 259 | アミューズメントパーク要素追跡システム | JP2016568833 | 2015-05-21 | JP2017523393A | 2017-08-17 | ポーラ ステンツラー |
| システムは、乗り物システム内に位置決めされた1又は2以上の逆反射マーカと、1又は2以上の逆反射マーカを検出して乗客の位置を追跡することができる追跡システムとを含む。追跡システムは、1又は2以上の逆反射マーカに向けて光を放出することができるエミッタと、1又は2以上の逆反射マーカからの反射光を検出することができる検出器と、反射光の検出に基づいて1又は2以上の逆反射マーカに対する乗客の位置を決定することができ、かつ乗客の位置の表示を与えることができるコントローラとを含む。【選択図】図3 | ||||||
| 260 | 車両運搬室システム及び方法 | JP2017503889 | 2015-07-07 | JP2017522967A | 2017-08-17 | キース マイケル マクヴィーン |
| 車両運搬室システム及び方法を開示する。1つの実施形態では、システムが、乗り物経路(22、42)上に配置された乗り物車両(14)を含むことができ、発射室車両(10)が、乗り物経路上の乗り物車両と整合するように構成され、少なくとも部分的な部屋(12)を含むことができる。発射室車両は、乗り物車両を少なくとも部分的な部屋に収容して乗り物車両と共に移動し、その後に乗り物車両との協調を断ち切って乗り物車両を少なくとも部分的な部屋から発射させるように構成することができる。さらに、発射室車両は、少なくとも部分的な部屋が乗り物車両と共に移動する際に、乗り物車両と相互作用していることをシミュレートするように動作するショー要素(106)を含むこともできる。【選択図】図1 | ||||||
QQ群二维码
意见反馈
意见反馈