Toy vehicle track sets have been popular for many years and generally include one or more track sections arranged to form a path around which one or more toy vehicles can travel. Toy vehicles which may be used on such track sets may be either self-powered vehicles or may receive power from an external source.
A toy vehicle track set may provide a single vehicle pathway such that the vehicle runs the track encountering the same track features lap after lap. Additional vehicles may be placed on the track, but the additional vehicles generally follow the same vehicle pathway. The repetitive nature of vehicle travel may result in loss of interest in the track set over a short period of time.
The inventors herein have recognized that additional interactive features, such as features which allow play with more than one vehicle simultaneously on different vehicle paths may increase the play value of the track set.
In one embodiment, a track set for toy vehicles is provided, the track set having: a platform defining a receiving area; a first track member being pivotally secured to the platform for movement about at a first axis, and a second track member being pivotally secured to the platform for movement about the first axis, the first and second track members each having a launcher for launching a toy vehicle towards the receiving area, the first track member defining a first movable path towards the receiving area and the second track member defining a second movable path towards to the receiving area; and an actuator configured to simultaneously activate the launcher of each of the first and second track members to propel at least one toy vehicle along at least one of the first and second movable paths toward the receiving area.
In another embodiment, a method for colliding toy vehicles on a track set is provided, the method including the steps of: pivotally securing an end of a first track member to a pivot axis of a platform having a receiving area; pivotally securing an end of a second track member to the pivot axis of the platform; moving each of the first track member and the second track member with respect to the receiving area; propelling a first toy vehicle along the first track member; and propelling a second toy vehicle along the second track member.
In still another embodiment, a track set for toy vehicles is provided, the track set having: a platform defining a receiving area; a first track member pivotally secured to a post of the platform such that a distal end of the first track member can be relocated with respect to the receiving area as the first track member rotates about a pivot axis of the post; a second track member also pivotally secured to the post of the platform such that a distal end of the second track member can be relocated with respect to the receiving area as the second track member rotates about the pivot axis of the post; a first vehicle launcher for launching a toy vehicle along the first track member and towards the receiving area; a second vehicle launcher for launching another toy vehicle along the second track member and towards the receiving area; and an actuator configured to simultaneously activate the first vehicle launcher and the second vehicle launcher
A track set having at least two track members selectively positionable to define corresponding vehicle pathways is provided. An example embodiment includes a single actuator that may be configured to simultaneously release vehicles disposed in launch positions in the track members. Release of the vehicles may result in the vehicles traveling along their respective vehicle pathways to a collision platform.
Referring now to
Track members 104, 106 may be selectively positioned such that a user may provide different configurations for the track set. The track members 104, 106 have extension portions 147, 148, respectively, that are rotatably coupled to a post 149 extending from a bottom portion of the collision platform 102. Accordingly, the track members 104, 106 can be rotated about a longitudinal axis of the post 149 relative to one another to provide different track member configurations. Track members 104, 106 define vehicle paths 108, 110 respectfully. In the illustrated embodiments, the track members are positioned such that the vehicle paths intersect at collision platform 102. Vehicles launched from track members 104, 106 are configured to collide or crash in collision platform 102. Further, although track members 104, 106 are shown as defining straight line vehicle paths 108, 110, track members may be of any suitable configuration and may optionally include additional track features, including curves, stunts, jumps, loops, etc. Further, although track members 104, 106 are shown as being similarly sized in regards to the length of the track and the vehicle path, it should be appreciated that the track members may be of different sizes, such that one track member may be longer or shorter and define a longer or shorter path compared to another track member.
Collision platform or stage 102 has a collision area 103 where two or more toy vehicles are configured to collide or impact. In some embodiments, collision platform 102 may further include additional impact features into which the toy vehicles may be configured to collide. For example, the collision platform may include impact features or obstacles, such as garbage, flags, cones, simulated barriers or walls, etc. into which the vehicles may collide. Further additional toy vehicles may be positioned in the collision platform such that the vehicles traveling from track members 104, 106 further collide with the vehicles pre-positioned in the collision platform. Although described in regards to a collision platform, the collision platform may be any zone into which the track members direct the vehicles.
Collision platform 102 may be a raised platform, although other configurations are possible, including collision platforms which may be disposed directly on a ground surface. In the illustrated embodiment, collision platform 102 may have drop off edges 112 such that the vehicles may tumble or fall from the collision platform, such as to the ground surface. The impact from the vehicle collision may be such that one or more vehicles may spin off and fall from the collision platform, increasing excitement regarding the crash and enhancing the playability with the track set.
Further, it is noted that collision platform 102 may be a substantially circular platform. The shape of the collision platform may enable vehicles to spin off in any direction and fall off of the collision platform. Although shown as a substantially circular platform, it should be appreciated that the collision platform may be any other shape, including, but not limited to, squares, ovals, triangular, trapezoidal, hexagonal, etc.
An actuator 114 may be provided for track set 100. Actuator or trigger 114 may be operatively linked to track members 104, 106 such that the actuator may be used to release a vehicle disposed in the launch position on track members 104, 106. In the illustrated embodiment, actuator 114 is shown disposed on an extended portion 116 of collision platform 102, however, actuator 114 may be otherwise positioned. For example, actuator 114 may be a separate device or a removable/detachable device such that it may be handheld or operated without touching of the collision platform. Further, although actuator 114 is shown simulating a vehicle throttle or gear shift, actuator may be of any desired configuration.
Actuator 114 may be configured to simultaneously release vehicles disposed in vehicle launchers 118 and 120. Although shown in regards to automatically releasing vehicles from two vehicle launchers, it should be appreciated that the actuator may be configured to release vehicles from any number of launchers. Assuming vehicles 122 and 124 are disposed in vehicle launchers 120 and 118 respectfully, actuation of actuator 114 results in vehicles 122 and 124 being released and launched along vehicle paths 108 and 110. The vehicles 122, 124 travel along the respective vehicle path into collision platform 102. The vehicles may impact. One or both of the vehicles, upon impact, may spin out, flip over, fly, roll, etc. in collision platform 102 and/or fall off of collision platform 102. Additional vehicles, such as vehicles 126, 128 which are also in collision platform 102 may also be impacted as a result of the release of vehicles 122 and 124 creating additional impact chaos. Although a single actuator is shown, in some embodiments, multiple actuators may be provided. Moreover, although described in regards to a single actuator configured to simultaneously release multiple launchers, in some embodiments, the actuator may be configured to release multiple launchers at different times, such as through a delay switch, or the actuator may enable selection of one or more launchers such that a user can choose which launchers are activated through use of the actuator.
It is noted that in some embodiments, such as the embodiment illustrated in
In the illustrated embodiment, actuator 114 may include a hand release 134 which may be operatively linked through a linkage rod 136 to one or more launchers. Details regarding an example actuator and launcher are described in more detail in regards to
Users may find increased play value with the disclosed track set. For example, users may compete to keep their vehicles in the collision platform. One objective in such play may be to knock or push a competitor's vehicle (or obstacle or other vehicle) out of the collision platform. A single user may further find enhanced play value by attempting to have certain vehicles remain in the collision platform while knocking other vehicles or obstacles out of the collision platform. The player or vehicle which remains in the collision platform may be considered the winning vehicle. Further, in other embodiments, users may position the track members such that the vehicles travel side-by-side upon release from their respective launchers. Racing games and speed games may be played in such a configuration.
As a further example and as described above, collision platform 102 may include impact features or obstacles, such as garbage obstacle 129. Players may position obstacles in the collision platform and position the track members such that the vehicles are aimed at the obstacles. Users may find increased play value in releasing the vehicles from the launcher into the collision platform to knock obstacles from the collision platform. Obstacle 129 is provided as an example of a successful obstacle collision where the obstacle has popped off of the collision platform. Similarly, increased play value may be provided by colliding with the other toy vehicles positioned in the collision platform such that they too are flipped or knocked out of the collision platform, similar to obstacle 129.
Further, as described above, an actuator 114 (not shown in
Further,
In the second exemplary configuration, a user may position, vehicles 124 and 122 in launchers 118 and 120 respectively. The launch members may be in a loaded position, such that release of the launch member propels a vehicle to the collision platform. For example, a user may load, only one launcher, such as launcher 118 in
The above described actuator, launcher, launch members and linkage systems are provided as non-limiting examples. It is to be understood that any actuator, launcher, launch members and linkage systems that can be used to activate one or more launchers for propelling a collision vehicle into a collision platform can be used without departing from the scope of this disclosure.
While the present invention has been described in terms of specific embodiments, it should be appreciated that the spirit and scope of the invention is not limited to those embodiments. The features, functions, elements and/or properties, and/or combination and combinations of features, functions, elements and/or properties of the track set may be claimed in this or a related application. All subject matter which comes within the meaning and range of equivalency of the claims is to be embraced within the scope of such claims.
This application is a continuation of U.S. patent application Ser. No. 12/111,169 filed Apr. 28, 2008, which claims the benefit of U.S. Provisional application Ser. No. 60/926,543, filed Apr. 27, 2007, the contents each of which are incorporated herein by reference thereto.
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5234216 | Ostendorff | Aug 1993 | A |
5254030 | Ostendorff et al. | Oct 1993 | A |
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Number | Date | Country | |
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20110269370 A1 | Nov 2011 | US |
Number | Date | Country | |
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60926543 | Apr 2007 | US |
Number | Date | Country | |
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Parent | 12111169 | Apr 2008 | US |
Child | 13100064 | US |