WHEELIE TOY VEHICLE
A toy vehicle having front and rear road wheels is provided with a mechanism to elevate the toy vehicle from an initial orientation supported on all of the road wheels into a wheelie orientation supported on the rear road wheels and to return the vehicle to the initial orientation supported on all of the road wheels. The mechanism includes: a crank; a spring loaded wheelie bar; and a slide plate driven by the crank so as to release the wheelie bar beneath the vehicle to elevate the vehicle from the initial orientation into the wheelie orientation and to thereafter extend a tongue member from a rear end of the vehicle to return the vehicle back to the initial orientation.
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This application is continuation of International Patent Application No. PCT/US2011/067697, filed Dec. 29, 2011, designating the United States and published in English on Nov. 1, 2012 under International Publication No. WO 2012/148486 and which claims the benefit of Chinese Patent Application 210010110505.X filed Apr. 29, 2011.
BACKGROUND OF THE INVENTIONA number of mechanisms have been disclosed for elevating a toy vehicle from an initial or normal configuration supported on all of its road wheels to a wheelie configuration supported on only its rear road wheels.
For example, U.S. Pat. Nos. 3,772,824 and 4,438,589 describe toy vehicles having weights which can be manually repositioned to selectively maintain a toy vehicle in an elevated wheelie orientation or on all of its road wheels. U.S. Pat. No. 1,682,764 describes a toy vehicle with an internal, motor shifted weight to do the same thing automatically.
Several US Patents describe motor driven toy vehicles with extendable fifth wheels or wheelie bars. U.S. Pat. No. 2,587,052 describes one with a motor driven rotary arm that regularly raises one side of the vehicle to cause the vehicle to turn at regular intervals. U.S. Pat. No. 3,574,267 describes one with a motor driven rotary crank that regularly raises and lowers a fifth wheel located beneath the bottom center of the vehicle slightly forward of the center of the four road wheels to raise and lower the front end of the vehicle at regular intervals. U.S. Pat. No. 4,363,187 describes one with an eccentric on a motor driven wheel that through a linkage extends and retracts a centrally located wheelie bar. U.S. Pat. No. 4,850,931 describes one having a worm on an undriven wheel axle that drives a gear mechanism, the gear mechanism permitting selective adjustment of the distance moved by the vehicle before a brake member is activated by the mechanism. U.S. Pat. No. 5,019,009 describes one having a side pivoting lift lever that is regularly deployed by an eccentric on a gear driven by the motor which cams the lever during each rotation of the gear. Finally, U.S. Pat. No. 4,894,042 describes one having a spring loaded and latched flip arm that is released by a sector worm gear driven by a worm on an undriven wheel axle of the vehicle and that is designed to flip the toy vehicle entirely over. The latching arm needs to be manually reset.
BRIEF SUMMARY OF THE INVENTIONIn a toy vehicle having a plurality of front and rear road wheels, a mechanism (30) is provided to elevate the toy vehicle from an initial orientation supported on all of the plurality of road wheels into a wheelie orientation supported on only the rear road wheels of the plurality of road wheels and to return the vehicle to the initial orientation supported on all of the road wheels, the mechanism comprising: a crank; a spring loaded wheelie bar; and a slide plate driven by the crank so as to release the wheelie bar beneath the vehicle to elevate the vehicle from the initial orientation into the wheelie orientation and to thereafter extend a tongue member from a rear end of the vehicle to return the vehicle back to the initial orientation.
The foregoing summary, as well as the following detailed description of the invention, will be better understood when read in conjunction with the appended drawings. For the purpose of illustrating the invention, there are shown in the drawings embodiments which are presently preferred. It should be understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown. In the drawings:
The various figures depict a toy vehicle 10 of the present invention. The vehicle 10 is preferably unpowered and is operated by being pushed but the invention could be used on a motor propelled vehicle. The vehicle 10 includes a front end 10a and an opposing rear end 10b. The vehicle 10 includes a decorative body 14 on a chassis 12. The chassis 12 is preferably divided into right and left halves 12a, 12b. The vehicle 10 preferably includes four identical road wheels 20. A front pair of the road wheels 20a is mounted on a front axle 22 that is itself supported for free rotation in mirror image journal openings 23 in the chassis halves 12a, 12b. A rear pair of the road wheels 20b is mounted on a rear axle 24 that is also supported for free rotation in mirror image journal openings 25 in the chassis halves 12a, 12b. Fixed to the rear axle 24 to rotate with the rear axle and pair of rear road wheel 20b is a worm 26.
Supported between the chassis halves 12a,12b is a wheelie mechanism indicated generally at 30. Wheelie mechanism 30 is preferably a subassembly of the toy vehicle 10. Wheelie mechanism 30 includes a main beam 32 which is fixedly positioned in the chassis 12 between the chassis halves 12a, 12b and a linear sliding carriage or “slide plate” 50. The main beam 32 supports the slide plate 50 on its upper side for longitudinal sliding movement and further supports for rotation beneath the slide plate 50, a worm gear 34 for engagement with the worm 26. A cam 36, preferably arcuate in shape, extends up from the top surface of the worm gear 34 and rotates with the worm gear 34. The combination of the worm gear 34 with the cam 36 forms a crank indicated at 37. A projection 40 from a bottom side of the main beam 32 supports a wheelie bar 42 on an axle 46. The wheelie bar 42 includes an arm 43 pivotally supported by the main beam 32 from projection 40 and the axle 46, The wheelie bar 42 further includes a pair of wheels 44 rotatably supported at a distal end of the arm 43. A spring 48 (see
The slide plate 50 supports near its front end 50a a hook shaped latch member 52 that extend down from the chassis 12 through an opening 33 in the main beam 32 (see
The cam 36 extends up through the elongated opening 54 in the slide plate 50. The opening 54 is preferably of an elongated race track shape with a narrow slot 54a extending forward from a front left end of the opening 54. The slide plate 50 is moved, preferably pushed, forward from its rearward, actuated position indicated in the various
A relatively heavy, metal weight 16 (silver cylinder) is fixedly positioned in the vehicle 10, preferably received in cylindrical wells 16a, 16b in the chassis halves 12a, 12b, so as to be fixedly positioned above and slightly to the rear of the rear axle 24 to move the center of gravity of the vehicle 10 to a position above and sufficiently close to the rear axle 24 in a longitudinal direction to more easily raise and lower the vehicle 10 as will be described. A roller 18 is preferably provided in the rear center of the chassis 12 and forms a third point of contact with the pair of rear wheels 20b to support the vehicle 10 on the support surface S in the elevated wheelie orientation (
Referring to
The invention includes a reset mechanism indicated generally at 60 that permits the crank 37 to be reset to an initial position when the vehicle 10 is raised and the wheelie bar 42 manually reset to the forward, latched position (
When the vehicle 10 is raised from the support surface S and the wheelie bar 42 is manually returned to its forward, latched position, the cam 45a on gudgeon 45 of the wheelie bar arm 43 strikes lever 64 and pushes lever 64 and pivot arm 62 downward, thereby disengaging the worm 26 from the worm gear 34. That permits return spring 38 to return the worm gear 34 and cam 36 to their initial or starting position. Preferably, lever 64 has side to side and up-down tapers. Lever 64 is thinnest at a sloping bottom edge 64a and thickens as it extends upward to top edge which forms a cam following surface 64c. As a result, a sloping surface 64b is provided between the bottom edge 64a and cam following surface 64c. Cam 43a also tapers up in thickness from a leading edge (rear facing edge in
It will be appreciated that the strength of the slide plate biasing spring 58, the wheelie bar torsion spring 46, lengths of the wheelie bar 42 and tongue member 56 protruding from the chassis 12 as well as the amount and location of the weight 16 all have to be adjusted to permit the elevation of the vehicle 10 from and the return of the vehicle to its four wheel normal operating position.
It will further be appreciated that there are slight differences in appearance between some of the components shown in
It will also be appreciated that although the invention is described with respect to a four wheel vehicle, the vehicle could be provided with three road wheels, a front and a pair of rear wheels. While the four road wheels are identical the road wheels may differ in size front and rear. A pair of body receiving members 82 are provided supported between the chassis halves 12a,12b to assist in the assembly of the toy vehicle 10 but other means may be used to join the body 14 with the chassis 12. It further will be appreciated by those skilled in the art that still other changes could be made to the embodiments described above without departing from the broad inventive concept thereof. This invention is not limited to the particular embodiments disclosed.
Claims
1. In a toy vehicle having a plurality of front and rear road wheels, a mechanism is provided to elevate the toy vehicle from an initial orientation supported on all of the plurality of road wheels into a wheelie orientation supported on only the rear road wheels of the plurality of road wheels and to return the vehicle to the initial orientation supported on all of the road wheels, the mechanism comprising:
- a crank;
- a spring loaded wheelie bar; and
- a slide plate driven by the crank so as to release the wheelie bar beneath the vehicle to elevate the vehicle from the initial orientation into the wheelie orientation and to thereafter extend a tongue member from a rear end of the vehicle to return the vehicle back to the initial orientation.
2. The mechanism of claim 1 wherein the slide plate includes a latch member configured to releasably hold the wheelie bar and wherein a rear end of the slide plate forms the tongue member.
3. The mechanism of claim 2 further comprising a main beam fixedly positioned in a chassis of the toy vehicle, the main beam having an upper side supporting the slide plate for longitudinal sliding movement in the vehicle and further rotatably supporting the crank in engagement with the slide plate.
4. The mechanism of claim 3 wherein the crank includes a cam and the slide plate includes a cam follower surface and wherein the mechanism further comprises a spring positioned to bias the slide plate to the rear end of the vehicle and the cam follower surface of the slide plate into contact with the cam of the crank.
5. The mechanism of claim 4 wherein the cam follower surface is formed by an opening in the slide plate, the opening including a transverse forward edge contacted by the cam to push the slide plate forward thereby releasing the latch member from the wheelie bar while retracting the tongue member into the chassis.
6. The mechanism of claim 5 wherein the cam follower surface formed by the opening is further formed by a longitudinal slot extending forward in the slide plate from a lateral end of the transverse forward edge of the cam following surface at a forward end of the opening, the longitudinal slot being configured to receive at least a trailing edge of the cam of the crank to permit the slide plate to be moved rearward by the spring and extend the tongue member from the rear end of the toy vehicle.
7. The mechanism of claim 4 wherein the toy vehicle includes a chassis, a rear axle mounting a rear pair of the plurality of road wheels, the rear axle being supported for free rotation in openings in the chassis, the mechanism further including a worm fixed to the rear axle so as to rotate with the rear wheels and the rear axle.
8. The mechanism of claim 7 further comprising a pivot arm supporting the rear axle with the worm for up and down movement in the openings in the chassis.
9. The mechanism of claim 8 further comprising another spring located to bias the pivot arm so as to engage the worm with a worm gear forming the crank with the cam.
10. The mechanism of claim 9 wherein the wheelie bar is also supported for pivotal movement from a bottom side of the main beam.
11. The mechanism of claim 10 wherein the wheelie bar includes an arm pivotally supported from the main beam and wherein the pivot arm supporting the rear axle and worm includes a lever extending into contact with the wheelie bar arm, the wheelie bar arm including another cam positioned to strike the lever and pivot the lever and the pivot arm so as to disengage the worm from the worm gear to permit reinitialization of the crank.
12. The mechanism of claim 1 further comprising a weight located above the rear axle so as to shift a center of gravity of the vehicle from in front of the rear axle in an initial orientation with all of the plurality of road wheels on a support surface to a location over or slightly behind the rear axle to maintain the vehicle elevated in the wheelie orientation on only the rear road wheels of the plurality of road wheels.
Type: Application
Filed: Oct 28, 2013
Publication Date: Feb 20, 2014
Applicant: MATTEL, INC. (El Segundo, CA)
Inventors: Stacy O'CONNOR (Long Beach, CA), Brendon VETUSKEY (Long Beach, CA), Jebraeil SAMO (Rowland Heights, CA), Huang SHIXIONG (Zhanjiang City)
Application Number: 14/064,814
International Classification: A63H 17/00 (20060101);