This application is the U.S. National Phase of International Application No. PCT/ES2008/070207 filed 18 Nov. 2008 which designated the U.S., the entire contents of which is hereby incorporated herein by reference.
Toy motorcycle for tracks with guiding groove of the type comprising an electric motor, a motorcycle chassis, a guide, arranged inside the guiding groove of a track, joined to a structure, located at the bottom of the motorcycle, with at least two support wheels and a magnet, which comprises a frame connected to the chassis, a rear traction wheel, upon which the electric motor acts, integral with the frame, and a tilting system for tilting the frame along the track curve, with respect to the structure, moving a rear wheel, with said wheel defining a curve trajectory different to the curve trajectory of the guide.
Spanish Patent No. 9300204 (ES2067384) “Motorcycle for electric tracks” from 1993 in the name of Mr. Carlos Jesús DE PABLOS BAEZA is known in the prior art, which relates to a motorcycle for electric tracks, having the particular feature of the link between its chassis and the carriage-guide on which it moves around the track, being made by tilting on both sides, due to the existence of one or two tie-rods hinged at one or two parts, producing a pendulum effect in the transverse direction, with the singularity that both the front and rear wheel can, optionally, be provided with suspension, in the first case by means of a yoke dampened by an elastic strip with its course limited by a screw, and in the second case, due to the fact that the trapezium moves along a rod fixed to the chassis, which is pressed underneath by a spring, there being no suspensions in the event that a tie-rod is used.
Also Spanish Utility Model No. 9400257 (ES1026976) from 1994, is known, in the name of Mr. Juan Manuel GÓMEZ SALCEDO, which relates to a motor vehicle support with an incorporated motorcycle provided with all types of movement, applicable to electric tracks, characterised in that it is shaped from a base plate, made from an appropriate material, which adopts a noticeably elongated shape, provided with side wings in the middle rear area, where wheels are coupled to stabilise the unit, in which base plate on the inner face thereof a strip of appropriate length is hinged, which is flat and has a rotation axis at is rear end, which coincides with the middle rear area of the base plate, said strip having hinged at its front end, a guide piece that fits between the rails of the electric track in question, while the middle rear area has a vertical axis that crosses the base plate through an arched groove, which has an axis at its top end with a yoke in which there fits an integral bolt of a connecting rod arranged parallel to said axis and hinged with the ability to rotate at its lower end on the top plate superimposed on the base plate, which converts the tilting movement of the connecting rod to the side on which the curve is produced followed by the previous guide.
The closest document found is Spanish Patent No. 200800276 (ES2303494) “Slot Motorcycle” from 2008, in the name of the Spanish company BYCMO RC MODELS, S.L., relating to a slot motorcycle that has a guide carriage provided with stabilising side extensions, provided at the ends thereof with support means. It has a servomotor integral with the chassis and the wheels, with a horizontal rotation axis, essentially longitudinal to the direction of movement of the motorcycle, its output shaft comprising at the front end thereof a first rack that moves along a vertical guide that is integral with the carriage-guide. This way the motorcycle can tilt towards the inside of a traced curve, thanks to the fact that, from the motorcycle's vertical position, rotating the servomotor produces a downward movement of the first rack and tilts the top part of the chassis-wheel unit.
This invention is an improvement in the sector of motorcycles for slot tracks.
As can be verified by the background to the invention, the inventions try to solve the problem of how to simulate the effect of the motorcycle tilting in very different ways.
There are inventions (U9400257) (ES1026976) based on the tilting of the motorcycle, with the wheels being on the actual guiding groove, in other words, the wheels do not move. This type of invention suffers from the drawback that it is not very realistic, because in fact, the motorcycle does not really follow that trajectory.
Others (P9300204) (ES2067384) consider using strips to allow the pilot to tilt and recover his position. Even though the movement is more realistic, visually it does look very real.
Lastly, a third group (P200800276) (ES2303494) consider that it is the user/player who decides when to make the pilot hang from the motorcycle.
The inventor, with the idea of making it as realistic as possible, has developed a mechanism which, when the motorcycle reaches a curve, allows it to tilt gradually as the curve becomes more pronounced, and as the curve opens up, it recovers its vertical position.
So, the inventor avails of the centrifugal force produced as the motorcycle rotates in the curve, which sends said motorcycle outwards, so that the wheels come out of the trajectory of the guiding groove, skidding, in turn tilting the motorcycle via the action of the force of gravity that compensates the centrifugal force.
Continuing the trajectory and facing the next straight section, the centrifugal force on the motorcycle reduces and the motorcycle recovers its initial position owing to the compensation of forces between the centrifugal force and gravitational force.
An object of this invention is a toy motorcycle for tracks with a guiding groove of the type comprising an electric motor, a motorcycle chassis, a guide, arranged inside a guiding groove of a track, joint to a structure, located in the bottom part of the motorcycle, with at least two support wheels and a magnet, characterised in that it has a frame associated with the chassis, a rear traction wheel, on which the electric motor acts, which is integral with the frame, and a tilting system for tilting the frame along the track curve, with respect to the structure, moving a rear wheel, with said wheel defining a curve trajectory that is different to the curve trajectory of the guide.
In order to facilitate the explanation four sheets of drawings are attached to this invention, which represent a practical embodiment, which is provided as a non-limiting example of the scope of this invention:
So
Lastly,
This way, in a particular embodiment, motorcycle 3 is arranged on track 1 (
In
Essentially, the toy motorcycle for tracks with a guiding groove comprises electric motor 12, chassis 10 of motorcycle 3, guide 4, arranged inside a guiding groove 2 of track 1, joined to a structure 16, located at the bottom of motorcycle 3, with at least two support wheels 7 and a magnet 23.
It also comprises frame 15 associated to chassis 10, rear traction wheel 6, on which electric motor 12 acts, integral with frame 15, and a tilting system for tilting frame 15 along the curve of track 1, with respect to structure 16, moving rear wheel 6, with said rear wheel 6 defining a curve trajectory that is different to the curve trajectory of guide 4 (see
In this embodiment it has been chosen that the tilting system be a system of racks, although others could be considered, such as for example, a cam-based system.
Upon reaching the curve (see
This way, owing to the action of said centrifugal force chassis 10 tilts, as gravity balances said centrifugal force and positions the wheels outside the trajectory of guiding groove 2, imitating the action of competition motorcycles in speed races.
This tilting movement is achieved via a first rack 8, integral to guide 4. When the curve begins second rack 9 is moved and moves toothed wheel 13 which moves on first rack 8, whereby chassis 3, which is integral to frame 15 that is joined to second rack 9 also tilts and simulates the same tilting effect of top competition motorcycles. Even so, it is important to take into account the function of strips 11, as will be detailed below, which will show that the movement is produced by the rotation of second rack 9 on toothed wheel 13, which respectively rotates first rack 8.
To maintain adherence, support wheels 7 that are integral to structure 16 maintain the same trajectory as guide 4 and always remain adhered to track 1. This is also determined by the existence of magnet 23, located at the bottom of structure 16, which increases the adherence of structure 16 to track 1.
Once motorcycle 3 recovers its straight trajectory, the centrifugal force tends to disappear and so motorcycle 3 recovers its vertical position via the action of gravity which in compensating the centrifugal force returns motorcycle 3 to its more stable position.
In other words, toothed wheel 13 would rotate in the opposite direction on first 8 and second 9 racks, leaving said racks 8, 9 and toothed wheel 13 perpendiculars to track 1.
Strips 11 have a double function. On the one hand they support said racks 8, 9 and toothed wheel 13, and on the other hand, they allow the above-mentioned tilting action of motorcycle 3.
Said tilting movement is maintained when the first rotation axis 18 allows strips 11 to rotate from a fixed point, such as the first rack 8, producing the tilting movement, and at the same time second rack 9 can rotation according to the tilting angle of strips 11, and therewith toothed wheel 13, When second rack 9 rotates in turn frame 15 tilts which does the same to the motorcycle chassis 10.
To increase the motorcycle's adherence to track 1 and facilitate recovery, if steering rotor 21 is extended imaginarily towards track 1, the point of intersection between both is the point at which front wheel 5 comes into contact with track 1, and not as would be logical, the extension of yoke 22. In other words, the extension axis of steering rotor 21 is different from that of yoke 22.
Thanks to the rotation geometry of yoke 22 since the extension axis of rotor 21 and of yoke 22 are offset it is possible to improve the fact that when the motorcycle 3 is in a vertical position front wheel 5 tends to separate the trajectory of the motorcycle towards either side.
When the centrifugal force acts, front wheel 5 helps the motorcycle unit to move outside of the trajectory of guide 4.
Once motorcycle 3 is tilted, the function of front wheel 5 changes completely, since when tilted the point of support of front wheel 5 on track 1 varies with respect to the rotation axis of the steering yoke 22. So, front wheel 5 tends to help centre motorcycle 3 towards said guiding groove 2.
So when there is no more centrifugal force, motorcycle 3 returns to its vertical position more quickly.
The result is that we have a motorcycle 3 that is permanently unstable. So with this rotation geometry, when the centrifugal force acts, it quickly moves towards the outside of the curve and vice versa.
As can be seen, structure 16 can, for manufacturing reasons, be made in one or several parts, and in this embodiment it is in two parts 16a and 16b, which are joined to form a whole.
As can be seen in
To summarise, with this tilting system based on tilting frame 15, the motorcycle is not free, instead it follows the path defined by guide 4 without any problems.
This patent of invention describes a new toy motorcycle for tracks with a guiding groove. The examples mentioned herein have a non-limiting effect on this invention, and therefore this invention can have different applications and/or adaptation, all within the scope of the following claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/ES2008/070207 | 11/18/2008 | WO | 00 | 5/16/2011 |
Publishing Document | Publishing Date | Country | Kind |
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WO2010/058040 | 5/27/2010 | WO | A |
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20110151747 | Berenguer et al. | Jun 2011 | A1 |
Number | Date | Country |
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1026976 | Jun 1994 | ES |
2067384 | Mar 1995 | ES |
2303494 | Aug 2008 | ES |
2486809 | Jan 1982 | FR |
2008011997 | Jan 2008 | JP |
Entry |
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International Search Report for PCT/ES2008/070207 dated Apr. 9, 2009. |
Number | Date | Country | |
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20110230118 A1 | Sep 2011 | US |