The present disclosure relates generally to toy vehicles and playsets, and more particularly to wheeled toy vehicles which include groove-defining structure on a bottom surface of the vehicle chassis, such that the vehicles may roll across a surface or slide along a pair of raised rails, bars, or similar structure, and to playsets that incorporate track sections configured to engage either the wheels of a toy vehicle, the groove-defining structure of a toy vehicle, or both. The disclosure is also directed to wheeled toy vehicles as described that also include a magnetic portion on the bottom surface, and playsets for use therewith, which include one or more magnetic components configured to attract or repel the magnetic portion of a toy vehicle.
Examples of wheeled toy vehicles can be found in U.S. Pat. No. 67,256,523, U.S. Pat. No. 6,676,476, U.S. Pat. No. 6,315,630, U.S. Pat. No. 6,074,271, U.S. Pat. No. 4,836,819, U.S. Pat. No. D487,486, and U.S. Patent Application Publication No. US20050112988. Examples of play sets incorporating magnets can be found in U.S. Pat. No. 6,322,415, U.S. Pat. No. 6,193,581, U.S. Pat. No. 6,056,619, U.S. Pat. No. 5,931,714, U.S. Pat. No. 3,653,662, and U.S. Pat. No. 647,327. Examples of play sets incorporating rolling surfaces or sliding surfaces can be found in U.S. Pat. No. U.S. Pat. No. 5,800,240, U.S. Pat. No. 5,542,668, U.S. Pat. No. 4,171,090, U.S. Pat. No. 4,094,089, U.S. Pat. No. 3,721,036, U.S. Pat. No. 3,683,514, U.S. Pat. No. 3,108,810, U.S. Pat. No. 2,999,689, U.S. Pat. No. 1,695,310, U.S. Pat. No. 758,047, and U.S. Pat. No. 719,200. The disclosures of all of the patents, patent applications, and publications recited are incorporated herein by reference.
For example, in embodiments consistent with a skateboarder theme, wheeled toy vehicles may include differently configured toy figures, such as skateboarder figures in different poses and/or having different physical characteristics. For example, skateboarder figures may include features simulating clothing and/or equipment such as helmets, elbow pads, knee pages, loose pants, jackets, or any other desired feature.
Other embodiments of wheeled toy vehicles according to the present disclosure, such as those based on a skateboarder theme, different themes, or no theme, may include multiple figures mounted to the chassis, or no figure, or structure that does not necessarily resemble a humanoid figure. Moreover, the chassis (with or without one or more figures mounted to the top surface) may be adapted to have any suitable appearance, such as to resemble any manner of wheeled (or non-wheeled) vehicle. As such, the appearance of the wheeled vehicle may be configured as desired, for example to leverage different product lines by assuming the overall appearance of a recognizable figure, or type of figure, riding in and/or on a vehicle.
In the illustrated examples, toy figures 20 and 20′ are securely mounted to the chassis and is configured to maintain a predetermined pose. However, in other examples, such figures may be poseable or otherwise adjustable, for example to allow a user to manipulate a figure to assume a desired configuration and/or to change the center of gravity or weight distribution of the wheeled vehicle, which may in turn result in different movement behavior of the vehicle as it moves over a surface or through the air, as explained in greater detail below. Optionally, in such examples, a figure may be selectively removable from the chassis, for example to allow a user to mount a desired figure to a chassis or exchange a figure with another one, to change the center of gravity and/or weight distribution as explained above, and so forth.
The particular poses and other configurational variants of the various toy figure embodiments may optionally impact the aerodynamics of the toy vehicle as it moves over a surface or through the air. The different aerodynamic nature of each embodiment of the toy vehicle may cause the different toy vehicle embodiments to perform different tricks.
Returning to
In the illustrated embodiments, wheels 18 are freely rotatable, and thus the vehicle may be rolled along a surface in response to a force imparted to the vehicle, such as being pushed by a user, rolled down an inclined surface, launched from a mechanical launcher, and so forth.
Launcher 50 includes a top surface 60, a portion of which is shaped as a curved piece of corrugated metal such that the launcher somewhat resembles an overturned trash can. The launcher may be configured to have any desired decorative features, but the corrugated portion may function to allow the launcher to be more easily used by a user pressing down on the energizer portion, as explained below. As seen in
In use, the launcher may be placed with the bumper adjacent to a wheeled figure such as wheeled toy vehicle 10, and energized to direct energy imparted to the launcher to be transferred to the toy vehicle. More specifically, the energizer portion may be pressed sharply downward, which causes the launcher to deform longitudinally, moving the slide portion outward and extending the bumper, imparting a lateral force to the adjacent toy vehicle. The bracing portions may limit the amount of deformation of the energizer portion by abutting the ground and/or otherwise stabilizing the launcher against damage or breakage from receiving a sudden, downward force. For additional stability, a user may press downward on the support end to steady the launcher while striking downward on the energizer portion to launch a toy vehicle. The resilient nature of the launcher material allows the launcher to return to its original configuration after use.
Of course, any suitable launcher or launching mechanism may be used with the toy vehicles, including a gravity feed and/or magnetic forces, in addition to or instead of mechanical devices, such as launcher 50.
Optionally, one or more wheels of a wheeled toy vehicle may be driven, such as by a motor. One or more of the wheels (including one or more driven wheels) may be steerable, such as to allow a user to select a direction of travel for the vehicle other than the rolling direction determined by the arrangement of wheels 18.
In other embodiments of the wheeled toy vehicles according to the present disclosure, the wheels may be arranged on the chassis to provide the wheeled vehicle with a desired degree of stability, for example to facilitate different play patterns, such as play patterns which a user attempts to keep a wheeled figure upright as it travels along a surface, traverses a shaped section of pathway, engages a surface after being propelled through the air, and so forth. As such, the wheels of each pair may be placed closer together or further apart, and the distance between the pairs of wheels may similarly be adjusted, relative to the configuration illustrated in the figures. Optionally, a chassis may be provided with more or fewer than four wheels.
Returning to
However, any suitable mounting method may be used; two non-limiting variants are shown in
The magnetic portion 30 (and 30′) may be configured to have a desired magnetic force or strength, for example to allow the wheeled vehicle to attract, or be attracted to, a metallic surface or other suitable material. In the illustrated examples, the magnetic portion of toy vehicle 10 is adapted to adhere or “stick” to such a material, and repel (and be repelled away from) another magnet or any other suitable material. As a result, the wheeled vehicles may interact with a play set that includes magnets and magnetic surfaces to perform certain stunts, such as sticking, sliding or riding in a vertical or an upside down position, and sliding along or sticking to a pipe, ramp, rail, and so forth. Some examples of play sets are discussed in more detail below.
Returning to
As shown in
Other configurations of groove-defining structure are possible and within the scope of the disclosure. Again,
In other examples consistent with and according to the present disclosure, the groove-defining structure 40 (and grooves defined thereby) may be arranged on the bottom surface to provide the wheeled vehicle with a desired degree of stability, for example, when the vehicle is placed for slidable movement on a pair of parallel rails or similar structure. For example, although the illustrated toy vehicles are shown to include a pair of grooves disposed between the front and rear pair of wheels, with each groove positioned adjacent to a pair of wheels, different configurations of the grooves, which may facilitate different play patterns, such as with different configurations of the wheels, are within the scope of this disclosure.
Also, although the grooves of the illustrated toy vehicles are shown to extend in a direction generally at right angles to the rolling direction of the vehicle, other embodiments according to this disclosure may include one or more pairs of parallel grooves extending in any desired direction, including directions different from, or the same as, the rolling direction. Such variations are considered to be within the scope of this disclosure.
As mentioned above, the magnetic portion, the wheels, and the grooves of the wheeled figures, may interact with play sets that include various features such as corresponding magnetic portions, surfaces adapted to engage the plurality of wheels for rolling movement of the toy vehicle thereon, structure adapted to engage the grooves on the bottom surface of the toy vehicle for slidable movement of the toy vehicle thereon, and so forth. The following paragraphs disclose several example playsets incorporating various combinations of such features.
First track section 106 is adapted to engage the grooves on the bottom surface of the toy vehicle for slidable movement of the toy vehicle thereon, and is shown in
Launch portion 130 may be raised by pressing first actuator 132, which raises the launch portion via a lever mechanism 134.
Second track section 108 is adapted to engage the plurality of wheels of the toy vehicle for rolling movement of the toy vehicle thereon, and is shown in
Connecting portion 110 is shown in dashed lines
In playset 100, first track portion couples with second track portion at a right angle, but other configurations may include coupling track portions in any manner suitable for the second track portion to receive a toy vehicle from the first track portion. Playset 100 also includes a directing portion 160 disposed near the junction at which first track portion couples with second track portion, the directing portion being adapted to direct the toy vehicle from the first track portion to the second track portion while maintaining the toy vehicle in an upright position. As can be seen in
Ramp portion 114 is shown disposed near second end 148 of the lower track section, and configured to be selectively actuable to launch a toy vehicle from the lower track section toward target 112. As shown in the illustrated embodiment, second actuator 170 is configured to raise ramp portion into an upwardly-inclined position (shown in dashed lines in
Target 112 is shown to be mounted to a support portion 104 and positioned so that a toy vehicle launched from the ramp portion may strike the target, for example if a user presses the second actuator 170 at an appropriate time. Moreover, target 112 of playset 100 is magnetically attractive, such that a toy vehicle correctly launched toward the target may strike and stick to the target. In some embodiments, target 112 may be provided with a switch or other mechanical or electrical components so that striking the target may prompt the playset to emit an output, such as incrementing a score, producing a visual and/or audio display, and so forth.
In use, a wheeled toy figure, such as toy
First track section 106 is shown to be configured so that a toy vehicle moving along the track section will gain momentum as it moves to the lower end. The toy vehicle will be moving on the first track portion “sideways” with respect to the rolling direction of the wheeled vehicle while engaging the parallel bars of the track section, and when it exits the lower end of the first track section and moves on to the upper end of the second track portion, at which point it will engage directing portion 160. The vertically disposed surface 162 prevents the figure from tipping over or falling off the track, and maintains the toy figure in an upright position and in a suitable orientation to roll down the second track portion toward the base.
An example play pattern for use with the playset, after a toy vehicle slides along the the first track section and rolls down the second track section, may include a user attempting to stick the toy vehicle to target 112 by correctly gauging the velocity and timing of the toy vehicle as it travels over the ramp portion 114, and by depressing second actuator 170 to launch the toy vehicle at the target. If the user misses the target, or fails to strike the target with the toy vehicle in such a manner as to allow the magnetic bottom surface of the vehicle to adhere to the magnetically attractive target, the user may place another toy vehicle on the launch portion 130. However, many other play patterns are possible.
Also, the illustrated configuration is only an example of a playset suitable for use with a wheeled toy vehicle such as toy vehicle 10. Accordingly, it can be seen that other configurations, for example those including multiple track portions and/or in which the track portions are arranged differently, may include differently configured components, such as a directing portion that includes any structure suitably positioned and otherwise configured to maintain a toy vehicle upright as it moves from one track portion to another. In any embodiment, the coupling portion(s) and the directing portion(s) may be incorporated into one or more of the various track portions, or may be separate structure. The track portions themselves may be of unitary construction, or may include several separable components which may be assembled into one or more track portions, and may be fabricated of any suitable material (or materials), for example so that the track sections may have a desired degree of flexibility or rigidity.
Other playsets incorporating the components and concepts above may include any manner and/or combination of track sections configured to engage the grooves and/or the wheels of a toy vehicle for movement of the toy vehicle thereon. Optionally, other playsets may include different configurations of one or more magnetic components. For example, although playset 100 is indicated to include a magnetically attractive target, other embodiments may include magnetic components configured to repel, rather than attract, the magnetic portion of a wheeled toy vehicle. Still other embodiments may include combinations of magnetically attractive and repulsive components. All of such variants are considered to be within the scope of this disclosure.
An example of a playset that includes a magnet adapted to repel the magnetic portion of a wheeled toy vehicle such as toy vehicle 10 is shown in
As can be seen in
Launch ramp 224 of playset 200 is tiltably mounted to base 202, by means of a support framework 228 that extends from a lower surface 230 of the launch ramp. As shown, the launch ramp of playset 200 defines a substantially vertical plane, and the launch ramp is tiltable with respect to the base within the vertical plane. In other words, the incline of the launch ramp with respect to the base may be adjusted by pivoting the launch ramp back and forth, as indicated by directional arrows B. Other embodiments, however, may include structure to allow the launch ramp to be movable in other dimensions, and/or for portions of the launch ramp to be twisted or bent in a configuration other than that shown in
The adjustable arm 210 is shown to pivotably extend from the support framework and configured to be selectively positionably with respect to the jump lip, as indicated by directional arrow C. The configuration and/or position of the magnetic element 208 may alter the flight path of a toy vehicle launched from the jump lip after rolling down the launch ramp, due to the magnetic repulsion or attraction of the magnetic element to the magnetic portion of the toy vehicle. Thus, adjusting the position of the arm may allow a user to determine the extent to which the magnetic element interacts with a toy vehicle at or near the jump lip. For example, a user may position the magnetic element substantially adjacent to the jump lip (shown in dashed lines in
In the embodiment illustrated in
As shown, the adjustable arm is moveable within a range of positions within the vertical plane defined by the launch ramp. More specifically, the magnetic element may be moved from immediately beneath the jump lip to further beneath the jump lip (to a position in which the magnetic field generated by the magnetic element does not substantially overlap the jump lip). However, other embodiments may include one or more magnetic elements moveable in several ranges relative to the jump lip, which may in turn allow a user to manipulate the various magnetic fields generated thereby to cause a toy vehicle launched from the jump lip to perform an array of aerial stunts, including simultaneous flipping and turning of the toy vehicle.
Playset 200 is shown to include landing ramp 212, having a downwardly-inclined surface 240 configured to receive a toy vehicle launched from the launch ramp. Landing ramp 212 is shown to be coupled to base 202 via a guide track 242, with which the bottom portion 244 of a column 246 is slidably engaged. A top portion 248 of the column supports the landing ramp relative to the guide track. Although other configurations are possible, this configuration allows the landing ramp to be selectively positionable relative to the jump lip, as indicated by directional arrow D, for example to allow a user to move the landing ramp into a position in which a toy vehicle launched from the jump lip will engage the downwardly-inclined surface 240.
In the illustrated example playset 200, the surface is non-magnetic, allowing a toy vehicle engaging the surface to freely roll (or tumble, slide, or otherwise move) down the surface. However, in other examples, at least a portion of the surface may be configured to be magnetically attractive. Such a surface portion is indicated in
Also, in the illustrated embodiment, guide track 242 is coupled for pivotable movement in a lateral direction relative to base 202, for example to allow a user to move the landing ramp such that a toy vehicle launched from the jump lip will not engage the landing ramp. In embodiments in which portions of the launch ramp and/or the jump lip may allow a toy vehicle to be launched to either side of the launch ramp, lateral positioning of the landing ramp may enable a user to position the landing ramp to effect a landing.
As suggested above, play patterns suitable for use with playset 200 may include a user first adjusting various components of the playset, for example placing the landing ramp in a desired position, moving the magnetic element to a desired proximity relative to the jump lip, and tilting the launch ramp to have a desired incline with respect to the base, and so forth. The user may then place a toy vehicle, such as wheeled toy vehicle 10, at the upper end of the launch ramp to roll downward under the force of gravity. Depending on the position of the magnetic element, magnetic forces may or may not affect the aerial behavior of the toy vehicle when launched from the jump lip, and the toy vehicle may strike or otherwise engage the landing ramp.
A third example playset 300 suitable for use with toy vehicles such as wheeled toy vehicle 10 is shown in
Although other configurations are possible,
The inner surface of half-pipe structure 304 is shown to be continuous and smooth, and thus configured to allow a wheeled toy vehicle, such as toy vehicle 10, to roll on the inner surface, as shown in
In the illustrated example playset 300, the grind rail 322 includes a magnetic strip 340 along the front surface of the rail and a metallic lip 342 along the top surface of the rail. Both the magnetic strip and the metallic lip may be selectively removed from the grind rail. Also, the adjustable target includes a flat magnetic front surface 344 that extends from a brace 346, which slidably engages vertical post 348. As such, the various components mounted on deck portion 320 may function as targets for a user to attempt to strike, or “stick,” by flipping a toy vehicle from the half-pipe structure.
Other playsets, including variants of playset 300, may include targets in different configurations and/or targets disposed at other positions relative to the half-pipe structure. Optionally, targets may be motorized or otherwise configured to be moveable. For example, the vertical post to which target 324 is mounted may be hinged or otherwise configured to move responsive to the movement of the half-pipe. Such a hinge device may be incorporated, for example, at 350. Also, as discussed above, one or more targets may be adapted to prompt the playset to emit an output responsive to the target being struck or a figure being stuck to the target.
An example of a playset with multiple moveable targets is shown in
In playset 400, deck portion 406 functions as a housing for circuitry and related electronic components, designated generally as electronic system 416. Several targets 410 are configured, when struck with sufficient force, to register a “hit” as input to the electronic system, which in turn emits a sound output or “payoff” corresponding to the target, such as via one or more speakers (not shown).
Any suitable means of registering a hit to the electronic system may be used. For example, targets 410 may each include a pair of spaced electrical contacts that may be urged together by a force such as that imparted by a toy vehicle striking the target, in turn prompting the electronic system to emit a corresponding output. Electronic system 412 may also configured to count the number of times each target is struck during a predetermined time interval, and output a sound indicative of the total number. Further, several of targets 410 may be assigned a different point value, which may relate to the relative difficulty of striking the target, such that electronic system 416 increments a total score corresponding to the point values of the targets struck during the predetermined time interval.
The various targets are configured to have the appearance of objects that may be found in a skate park or other outdoor setting used for skateboarding, such as traffic signs, a basketball hoop, a dumpster, and so forth. Several of the targets are magnetically attractive, such that a user may attempt to “stick” a toy vehicle, such as wheeled toy vehicle 10, to a target. The targets may be stationary, such as the dumpster-shaped target secured to rear wall 414, or moveable. Movement of moveable targets of playset 400 may therefore be responsive to imparted forces, such as from a wheeled figure striking the target or other portions of the playset. In other configurations of such a playset, movement of targets may be controlled, such as by one or more motors, which may in turn be coupled to the electronic system of the playset. Any desired configuration of targets may be used, as well as any desired configuration of electronic system.
During play, one or more users may propel a toy vehicle toward ramp 402, such as by use of launcher 50 or by any other method, with sufficient force to launch the toy vehicle from the top edge of the ramp toward one or more targets 410. If the toy vehicle contacts or sticks to a target, the target may prompt a sound payoff. If the toy vehicle misses, it may fall into the dumpster-shaped target, which may prompt a negative sound payoff.
Although the various embodiments and configurations of the present disclosure have been shown and described with reference to the foregoing operational principles and description, it will be apparent to those skilled in the art that various changes in form, detail, and combinations of various elements may be made without departing from the spirit and scope of the disclosure.
It is believed that the disclosure set forth above encompasses multiple distinct inventions with independent utility. While each of these inventions has been disclosed in its preferred form, the specific embodiments thereof as disclosed and illustrated herein are not to be considered in a limiting sense as numerous variations are possible. The subject matter of the inventions includes all novel and non-obvious combinations and subcombinations of the various elements, features, functions and/or properties disclosed herein. Similarly, where the claims recite “a” or “a first” element or the equivalent thereof, such claims should be understood to include incorporation of one or more such elements, neither requiring nor excluding two or more such elements.
It is believed that the following claims particularly point out certain combinations and subcombinations that are directed to one of the disclosed inventions and are novel and non-obvious. Inventions embodied in other combinations and subcombinations of features, functions, elements and/or properties may be claimed through amendment of the present claims or presentation of new claims in this or a related application. Such amended or new claims, whether they are directed to a different invention or directed to the same invention, whether different, broader, narrower, or equal in scope to the original claims, are also regarded as included within the subject matter of the inventions of the present disclosure.
This application claims priority under 35 U.S.C. § 119(e) to U.S. Provisional Applications Ser. No. 60/798,006 filed on May 4, 2006, and Ser. No. 60/812,311 filed on Jun. 9, 2006, the disclosures of which are incorporated herein by reference for all purposes.
Number | Date | Country | |
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60798006 | May 2006 | US | |
60812311 | Jun 2006 | US |