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    • 13. 发明申请
    • Speed controller for toy vehicles
    • 玩具车速度控制器
    • US20040180605A1
    • 2004-09-16
    • US10477930
    • 2004-03-23
    • Hubertus Maleika
    • A63H030/00
    • A63H18/12A63H18/005
    • The invention relates to a speed controller (10) for toy vehicles on a car racetrack, particularly on a track-guided car racetrack. According to the invention, the speed controller (10) has a manually operable device (12) for varying an electrical driving voltage from an electric power supply (20) for the car racetrack, and the device (12) for varying the electrical driving voltage can be manually displaced over a preset operating path. To this end, the device (12) for varying the electrical driving voltage is designed whereby it varies the driving voltage, which is output by the electric power supply (20), over the operating path from zero to a first preset maximum value below the voltage that is output by the electric power supply (20). An operating device (16) is additionally provided which is designed whereby, in the event of a manual operation, it sets the driving voltage, which is applied to the car racetrack, to a second preset value above the maximum driving voltage that is output by the device (12) provided for varying the electrical driving voltage.
    • 本发明涉及一种用于汽车跑道上的玩具车辆的速度控制器(10),特别是在轨道导引的赛道上。 根据本发明,速度控制器(10)具有用于改变来自用于汽车跑道的电源(20)的电驱动电压的手动操作装置(12)和用于改变电驱动电压的装置(12) 可以在预设的操作路径上手动移位。 为此,用于改变电驱动电压的装置(12)被设计成使得其通过电力供应(20)输出的驱动电压在操作路径上从零改变到低于第一预设最大值的第一预设最大值 由电源(20)输出的电压。 另外提供了一种操作装置(16),其被设计成在手动操作的情况下,将施加到汽车跑道的驱动电压设置为高于由 用于改变电驱动电压的装置(12)。
    • 16. 发明授权
    • Toy slot racing vehicle sets
    • 玩具槽赛车套装
    • US4728104A
    • 1988-03-01
    • US938485
    • 1986-12-05
    • Chi F. Cheng
    • Chi F. Cheng
    • A63H18/12A63H30/02A63F9/14
    • A63H18/12A63H30/02
    • A toy slot racing vehicle set including a track with one or more slots for electrically-driven toy vehicles guided by a downward projection extending into a slot, the vehicle picking up electrical power from a pair of conductors inset into the track and electrical power supply means for those conductors which include at least one hand-held controller having means to vary the electrical power applied across the conductor so as in turn to vary the speed of the toy vehicle, and further comprising switch means on the hand-held controller for providing a short circuit between the two conductors whereby when the switch means are operated and the two conductors short-circuited, the electrical motor in the vehicle will act in a regenerative sense producing an electrical current which is short-circuited and thereby provides braking for the vehicle.
    • 一种玩具槽赛车装置,其包括具有一个或多个用于电动玩具车辆的槽的轨道,该槽由向下突出部延伸到槽中引导,车辆从插入轨道的一对导体拾起电力并将电力供应装置 对于那些包括至少一个手持控制器的导体,其具有改变施加在导体上的电功率的装置,从而改变玩具车的速度,并且还包括在手持式控制器上的开关装置,用于提供 两个导体之间的短路,由此当开关装置被操作并且两个导体短路时,车辆中的电动机将以再生方式起作用,产生短路的电流,从而为车辆提供制动。
    • 17. 发明授权
    • Toy vehicle racing game
    • 玩具车赛车游戏
    • US4386777A
    • 1983-06-07
    • US360527
    • 1982-03-22
    • Barry V. Prehodka
    • Barry V. Prehodka
    • A63H18/02A63H18/10A63H18/12A63H18/16A63F9/14A63H18/04
    • A63H18/12A63H18/028A63H18/10A63H2018/165
    • A toy vehicle for a racing game and a track for performance on vertical and horizontal surfaces. The vehicle carries an electric motor and draws power from a pair of conductive rails embedded in the track surface. Increased magnetic attraction between the car and the conductive rails is provided locally to enable the vehicle to ride on vertically extending track lengths without impairing horizontal performance. Increased magnetic coupling is also effective in enhancing vehicle performance on curves. Greater holding forces between vehicle and track on vertical surfaces is provided by increased width in the electrically conductive rails embedded in the track surface.
    • 用于赛车游戏的玩具车和用于在垂直和水平表面上表现的轨迹。 车辆载有电动马达并从嵌入在轨道表面中的一对导电轨道吸取动力。 局部地提供了轿厢和导电轨道之间增加的磁吸引力,以使得车辆能够在垂直延伸的轨道长度上骑行,而不会影响水平性能。 增加的磁耦合在提高车辆在曲线上的性能也是有效的。 在垂直表面上的车辆和轨道之间的更大的保持力由嵌入在轨道表面中的导电轨道中的增加的宽度提供。
    • 18. 发明授权
    • Two speed toy car and track assembly
    • 双速玩具车和轨道装配
    • US4333261A
    • 1982-06-08
    • US114198
    • 1980-01-22
    • Lawrence T. JonesAnson SimsAshley G. HowdenMark S. KnightonL. C. James KingsburyRichard F. M. Conroy
    • Lawrence T. JonesAnson SimsAshley G. HowdenMark S. KnightonL. C. James KingsburyRichard F. M. Conroy
    • A63H18/12A63H17/36
    • A63H18/12
    • A toy car adapted to travel on a track assembly is disclosed. The toy car includes a motor coupled to a drive train which drives the car forwards regardless of a direction of rotation of an output shaft of the motor. The drive train includes a first set of gears coupled with a first one-way clutch to drive an axle of the car when the output shaft of the motor rotates in a first direction. The drive train also includes a second set of gears coupled with a second one-way clutch to drive the axle when the output shaft rotates in a second direction. The first set of gears represent a higher gear reduction ratio from the output shaft to the axle than the second set of gears whereby a speed of the forward motion of the car may be altered by reversing the direction of rotation of the motor. The motor of the car draws electric power from the track assembly. A suitable switch and an electric circuitry are operatively associated with the track assembly to reverse polarity of direct current supplied to the track whereby the direction of rotation of the motor is reversed.
    • 公开了适于在轨道组件上行进的玩具车。 玩具车包括连接到传动系的马达,无论马达的输出轴的旋转方向如何,驱动车前进。 传动系包括与第一单向离合器联接的第一组齿轮,以在马达的输出轴沿第一方向旋转时驱动轿厢的轴。 当输出轴沿第二方向旋转时,传动系还包括与第二单向离合器联接以驱动轴的第二组齿轮。 第一组齿轮表示从输出轴到轴的齿轮减速比高于第二组齿轮,由此可以通过反转马达的旋转方向来改变汽车向前运动的速度。 汽车的电机从轨道组件中吸取电力。 合适的开关和电路与轨道组件可操作地相关联,以反转提供给轨道的直流电流的极性,从而使电动机的旋转方向相反。
    • 19. 发明授权
    • Wandering drone car
    • 漫游无人机车
    • US4327519A
    • 1982-05-04
    • US214551
    • 1980-12-09
    • Julius CooperBurt W. Ensmann
    • Julius CooperBurt W. Ensmann
    • A63H18/12A63H18/16A63F9/14A63H17/36
    • A63H18/12A63H18/16
    • A toy vehicle and toy vehicle game are disclosed in which a plurality of controllable toy vehicles collect current from conductor strips in a slotless track and switch lanes when current polarity is reversed. A toy drone car is used in the game which collects current from the strips associated with the other cars and it includes an electrical circuit which insures that current of only a predetermined desired polarity is supplied to the motor in the vehicle to propel the vehicle in a forward direction around the track. As a result, the vehicle is driven about the track in a forward direction regardless of the polarity of current applied to the collector strips. In addition, the drone car includes an automatic steering system which causes the drone car to continuously switch lanes in an apparently random alternating manner as it moves along the track.
    • 公开了一种玩具车和玩具车游戏,其中多个可控制的玩具车辆在电流极性相反时从无槽轨道中的导体条和开关通道收集电流。 在游戏中使用玩具无人驾驶车,其从与其他轿厢相关联的条收集电流,并且其包括电路,其确保只有预定期望极性的电流被提供给车辆中的电动机以将车辆推进在 前进方向绕轨道。 结果,无论施加到收集器条的电流的极性如何,车辆都沿着前进方向围绕轨道被驱动。 此外,无人驾驶汽车包括自动转向系统,其使得无人驾驶车辆沿着轨道移动时以显然随机的交替方式连续地切换车道。
    • 20. 发明授权
    • Race set with detour
    • 比赛设置绕行
    • US4322079A
    • 1982-03-30
    • US198025
    • 1980-10-17
    • Julius CooperNeil Tilbor
    • Julius CooperNeil Tilbor
    • A63H18/12A63F9/14
    • A63H18/12
    • A slotless toy vehicle game in which controllable toy vehicles can change lanes in substantially any location along the track includes a drone vehicle operated on the track in a direction of travel opposite that of the controllable vehicles and a detour track section in which a portion of one of the lanes has guide walls on either side thereof for directing a controllable vehicle in that lane away from and then back towards the other lane so that a controllable vehicle steered into the detour lane will avoid collision with a drone vehicle approaching the detour track section in the other lane of the track.
    • 一种无缝玩具车游戏,其中可控玩具车辆可以沿着轨道在基本上任何位置改变车道,包括在与可控车辆相对的行进方向上在轨道上操作的无人驾驶车辆,以及迂回轨道部分,其中一部分 的车道在其两侧具有引导壁,用于将该车道中的可控车辆引导离开然后朝向另一车道,使得转向进入绕道的可控车辆将避免与接近迂回轨道部分的无人驾驶车辆碰撞 轨道的另一条车道。