Patent Grant
8944339
Play sets for toy vehicles are popular toys which are known to provide entertainment and excitement to a user. These play sets typically include some type of track configuration intended to guide a propelled toy vehicle, such as a 1/64 scale die-cast metal toy vehicle, through a course. The track configurations may include closed-loop continuous track arrangements and open-end arrangements. Toy vehicles are placed on these play set tracks and propelled across the configuration by hand or by an external propulsion means. In some applications, one or more users race the toy vehicles against each other and accordingly it is desirable to determine which toy vehicle won the race.
To bring increased entertainment and excitement to play sets, track configurations may include features such as intersecting tracks, loop segments, and other types of track configurations.
Accordingly, it is desirable to provide a play set for toy vehicles that has a unique apparatus and method for determining a winner of the race.
In one embodiment a track set for toy vehicles is provided herein, the track set having: a first track segment coupled to a first curved track segment; a second track segment coupled to a second curved track segment; a third curved track segment having an inlet end and an outlet end, the inlet end being wider than the outlet end, the inlet end being configured to receive the toy vehicles traveling on the first curved track segment and the second curved track segment; and a snare trap mechanism located at the outlet end of the third curved track segment, wherein the snare trap mechanism is configured to capture a first one of the toy vehicles traveling through the outlet end of the third curved track segment.
In another exemplary embodiment a track set for toy vehicles is provided, the track set having: a first track section comprising a first track segment and a second track segment arranged such that side-by-side racing of toy vehicles thereon may occur; a loop section configured to receive toy vehicles from the first track section, the loop section comprising a first curved track segment and a second curved track segment each having a distal end spaced from an inlet end of a third curved track segment, the inlet end being wider than an outlet end of the third curved track segment; and a snare trap mechanism located at the outlet end of the third curved track segment, wherein the snare trap mechanism is configured to capture a first one of the toy vehicles traveling through the outlet end of the third curved track segment.
In still yet another exemplary embodiment a track set for toy vehicles is provided, the track set having: a first track section comprising a first track segment and a second track segment arranged such that side-by-side racing of toy vehicles thereon may occur; a loop section configured to receive toy vehicles from the first track section, the loop section comprising a first curved track segment and a second curved track segment each having a distal end spaced from an inlet end of a third curved track segment, the inlet end being wider than an outlet end of the third curved track segment; and a snare trap mechanism located at the outlet end of the third curved track segment, wherein the snare trap mechanism is configured to capture a second one of the toy vehicles traveling through the outlet end of the third curved track segment.
In yet another embodiment, a track set for toy vehicles is provided. The track set having: a first track section arranged such that side-by-side racing of toy vehicles thereon may occur; a ramp section movably mounted to the track set for movement between a first position and a second position, wherein the ramp section is configured to receive toy vehicles from the first track section when the ramp section is in the second position and wherein the ramp section is located above the first track section when it is in the first position such that toy vehicles traveling on the first track section will not be received on the ramp section, and wherein the ramp section is configured to launch the toy vehicles traveling on the ramp section upwardly and away from the ramp section; and a snare trap mechanism located above the ramp section, wherein the snare trap mechanism is configured to capture a first one of the toy vehicles traveling upwardly and away from the ramp section.
These and/or other features, aspects, and advantages of the present invention will become better understood when the following detailed description is read with reference to the accompanying drawings in which like characters represent like parts throughout the drawings, wherein:
In accordance with an exemplary embodiment of the present a side-by-side racing track set is provided. The track set has a pair of manually controlled vehicle launchers for each racing lane of the track set. In addition, the track incorporates a fair start gate that lifts to commence the race. If a vehicle is released before the fair start gate lifts, that vehicle is launched off the track.
In addition, the track set further comprises a snare situated at the end of the track where the two independent lanes combine into one, for capturing the lead vehicle and announcing a winner of the race. Additional alternative features include: a) a bear trap situated beyond the track to capture the losing vehicle; and b) a checkered flag adapted to rise when a winning vehicle is “snared”.
At an opposite end of the track segments 14 and 16 a loop section 22 is provided. Loop section 22 has a pair of curved track segments 24 and 26. Each of the curved segments 24 and 26 are coupled to a respective one of the track segments 14 and 16 at one end and each of the pair of curved track segments 24 and 26 terminate at a distal end such that a gap 28 is formed between the distal ends of the curved track segments 24 and 26 with a single curved track segment 30 configured to receive the toy vehicles therein after they have traversed gap 28 between curved track segments 24 and 26 and the single curved track segment 30.
As illustrated, the single curved track segment 30 has a wide inlet 32 and a narrow outlet end 34 such that the curved track segment 30 converges from a wide width to a narrow width thus funneling the toy vehicles into the narrow outlet end 34.
In accordance with one exemplary embodiment of the present invention, the first toy vehicle to traverse gap 28 and arrive at the narrow outlet end 34 is deemed the winner of the race. Since the toy vehicles 12 may arrive at the finish line (e.g., narrow outlet end) at substantially the same time it is desirable to have a means or apparatus to determine which toy vehicle has crossed the finish line first.
In an exemplary embodiment, a vehicle snare apparatus 36 is provided. In one embodiment, the vehicle snare apparatus 36 has a snare trap 38. Snare trap 38 has a pair of grasping members 40 and 42 each of which are pivotally secured to each other at a hinge end 44. A mouth portion 46 is provided at an opposite end of the snare trap. In one embodiment, the pair of grasping members 40 and 42 are spring biased into the closed position illustrated in
Snare trap 38 is secured to the loop section 22 via an elastic member 48 that is secured to the snare trap 38 at one end and an arm member 50 at the other. Arm member 50 is pivotally secured to a fixed structure member 52 that is secured to loop section 22. Accordingly, and through the use of the pivotally mounted arm member 50 and elastic member 48 and upward biasing force in the direction of arrow 54 is provided such that once the toy vehicle 12 is captured in the trap 38 and the same is released from the narrow outlet end 34 it is pulled upwardly in the direction of arrow 54 due to the biasing force of elastic member 48. This movement is illustrated in at least
Since the snare trap 38 is positioned at the narrow outlet end 34 of the curved track segment 30, the first vehicle to reach the narrow outlet end 34 will be captured by this snare trap 38 and pulled upwardly and in the direction of arrow 54. This capture and movement of the vehicle upwardly in the air will signify the winner of the race. Thereafter and since the trap 38 is now removed from outlet end 34, the next vehicle 12 to arrive at the same will fly off the track segment 30.
In one alternative embodiment and referring to at least
Accordingly, and as toy vehicles 12 are launched down their respective track segments of the track set they will enter a respective curved track segment which will invert and direct the toy vehicles towards loop segment 30, which in one embodiment converges into narrow outlet end 34 and thus provides a finish line with a mechanism (snare trap 38) located thereon to determine which one of the racing vehicles reaches the finish line first. As described above, the winning vehicle is captured by the snare trap pulled upward into the air while the losing vehicle careens off of the narrow outlet end into the undesirable trap 56.
Alternatively, the play set or track set may be configured within an alternative arrangement instead of trap 56 such as a bucket or receptacle that the losing vehicle lands in.
In addition and in still yet another alternative embodiment and since the distal ends of curved track segments 24 and 26 are spaced from a distal end of curved track segment 30, and the curved track segments 24 and 26 and curved track segment 30 are formed from a flexible materials such as plastic or of equivalents thereof, an adjustable gap 28 is provided. This adjustable gap 28 can be enlarged or reduced by using an adjustable member which is secured to each of the distal ends of the curved track segments and in one embodiment may form a portion of the structure 52 pivotally supporting arm member 50.
In still yet another alternative embodiment, operation of the snare trap 38 can be reversed such that the first vehicle to travel through narrow outlet end 34 is not captured by the snare trap 38 and only the losing or second vehicle to reach the narrow outlet end is captured by the snare trap 38. This could be achieved by having an opening in the snare trap that allows the first vehicle to travel therethrough and a release mechanism is positioned within or proximate to the snare trap 38 such that the second arriving vehicle will actuate this mechanism and cause the snare trap 38 to capture the second or losing vehicle. In other words, the first or winning vehicle 12 will prime or load the snare trap 38 such that the second vehicle to arrive at the snare trap 38 will be captured.
Referring back now to
Alternatively and if the pair of track sections are in the non-blocking position, the toy vehicle will travel underneath one of the pair of track sections and proceed onward to the loop section 22.
Accordingly, the fair start mechanism provides a means for causing a user to not be too overzealous and launch their toy vehicle from the launcher too soon as they will be ejected off of the track section should they launch their vehicle before the appropriate time dictated by the fair start mechanism. Furthermore and in an effort to provide even more play enhancement, the fair start mechanism 70 is configured to have a slow release mechanism that will hold the fair start mechanism 70 in the blocking position for a few seconds before it is released to move back into the non-blocking position.
This is achieved by providing a spring biasing force to the pair of track sections 72 and 74 such that they are urged into the non-blocking position illustrated in the attached figures. Accordingly and when a user applies a force to the pair of track sections 72 and 74 to urge them into the blocking position the pair of track sections 72 and 74 are held in this position for a limited amount of time and then they are released and the spring biasing force urges them back into the non-blocking position. One non-limiting way to achieve this is to provide a resilient member 81 (e.g., shape memory foam, elastic biasing member, spring etc.) that is compressed when a lever coupled to the pair of track sections 72 and 74 is rotated into the blocking position. Once this occurs a catch 85 will hold the pair of track sections or a portion of lever 83 in this position until the compressed resilient member returns back to its uncompressed configuration which causes the pair of track sections 72 and 74 to rotate back towards the non-blocking position and also cause the catch to no longer retard the biasing force which urges the pair of track sections 72 and 74 back into the non-blocking position. Alternatively, a spring 75 can be located in the fair start mechanism to provide the spring biasing force, of course, numerous other means for providing the spring biasing force are contemplated to be within the scope of exemplary embodiments of the present invention.
In addition and in an alternative embodiment, the arm member 50 can be configured with a flag 80 such that once the snare trap 38 is released and moved upwardly in the air flag 80 can be deployed further signifying the winner of the race.
Referring now to
Similar to the previous embodiments, the cage 138 will have a sensitive trigger (over center or otherwise) that is able to quickly close and reliably trap the winning car/cars when they hit it. For example and in one non-limiting embodiment, the cage 138 will comprise a central body 139 having a pair of sidewalls 141 each pivotally mounted to an upper portion 143 for movement in the direction of arrows 145.
As illustrated, the cage 138 is secured to a tower member 151 such that an opening 147 is positioned above a ramp member of the fair start mechanism 170.
In this embodiment, the fair start mechanism comprises a curved section of track 171 that is movably or slidably secured to a post 173 such that it can be located between a first start position (illustrated by the dashed lines in
In order to allow for this movement, the curved section of track 171 has a central opening 175 configured to slidably receive post 173 therein. In one embodiment, central opening 175 has at least one protrusion 177 (e.g., a spring-loaded pin or any other equivalent member or device) that is configured to engage a grooved portion 179 of post 173. In this embodiment, the grooved portion 179 traverses from the top portion of the post 173 to the bottom portion of the post 173 in a zigzag manner such that the curved section of track 171 traverses from the first position to the second position in an oscillating manner by moving back and forth in the direction of arrows 181.
Accordingly and in order to provide a means for a fair start of two vehicles being launched by the launchers 118 and 120, the user simply moves the curved track section to the first position and releases the same such that gravity forces will pull the curved track section 171 downward in a direction opposite to arrow 111. At the same time, protrusion 177 will engage the grooved portion 179 and thus the curved track section 171 will oscillate back and forth in the directions of arrows 181 until it reaches the second position. At that time, vehicles launched from the launchers 118 and 120 will travel down track segment 114 and 116 and the launched by the curved track section 171. Accordingly, the fair start mechanism 170 provides a means that allows the users to time the launching of their vehicles from the launchers 118 and 120 such that they are launched from the ramp defined by the curved track section 171.
Alternatively, the curved track section 171 may simply be dropped from the first position to the second position in a non-oscillating manner. In this embodiment, a means for slowing the movement of the curved track section from the first position to the second position may be employed such that users are once again, able to time the launching of the vehicles from the launchers 118 and 120.
The embodiment of
The fair start mechanism 170, provides a fair start feature for the race in that a curved portion of track 171 (e.g., a quarter loop) is capable of being disengaged from track segment 114 and 116 and moved upwardly on a pole or post 173 into a first or raised position such that the launching of the toy vehicles from the launchers 118 and 120 will result in a crash since a portion of the path or roadway leading to the jump into cage 138 is missing. In order to start the race, a user manually lifts the curved portion of track 171 (e.g., ramp section) up the pole or post 173 to the first position. Once this track 171 is released, the protrusion 177 will engage the zigzag cam groove 179 cut in, thus the whole ramp section oscillates back and forth as it slowly descends. This timing interval lasts several seconds and requires both users to wait until the ramp section finally falls into place, completing the roadway and enabling the drag race to start, wherein toy vehicles launched from the launchers 118 and 120 will be propelled towards the cage 138.
In the preceding detailed description, numerous specific details are set forth in order to provide a thorough understanding of various embodiments of the present invention. However, those skilled in the art will understand that embodiments of the present invention may be practiced without these specific details, that the present invention is not limited to the depicted embodiments, and that the present invention may be practiced in a variety of alternative embodiments. Moreover, repeated usage of the phrase “in an embodiment” does not necessarily refer to the same embodiment, although it may. Lastly, the terms “comprising,” “including,” “having,” and the like, as used in the present application, are intended to be synonymous unless otherwise indicated. This written description uses examples to disclose the invention, including the best mode, and to enable any person skilled in the art to practice the invention, including making and using any devices or systems. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 61/528,496 filed Aug. 29, 2011, the contents of which are incorporated herein by reference thereto.
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