The present disclosure relates to a skateboard comprising a suspension assembly and a steering assembly for steering and connecting two parallel wheels to the board with independent suspension and steering.
Building a skateboard suspension that works independently from the steering system is especially difficult on skateboards as the skateboard turns when the user rotates it by the longitudinal or roll axis. This detail makes it impossible to use a conventional suspension as used on cars as it would result on a steering system that was affected by the suspension system. To be more specific, a system like the one used on cars would cause the wheel to rotate on the wrong axis whenever the pilot would try to steer.
Currently there are some types of solutions that try to solve this problem.
A first type of solution are skateboards that comprise an independent suspension from the turning system, having each wheel its own independent suspension with wheel travel from 30 mm to 50 mm. However this skateboards are heavy, being 3 to 4 times heavier than other skateboards as they require an independent structure that is always parallel to the ground and another that rotates as a normal skateboard does. In the cases where two structures are not built, they could not isolate the turning from the camber of the wheel.
Another disadvantage with this solution is the size, due to that the user has to use large wheels or else, with normal longboard wheels, the whole system would scratch on the ground.
An example of this suspension solution is the Bajaboard™.
Another type of solution is one that is light but has a very small wheel travel and affects the steering system. These systems are substantially cheaper but interfere with the steering, creating a much more unstable and less responsive system.
Another solution uses springs but has the spring in series with the steering system which basically is the same thing as having a stronger bushing in the traditional kingpin system. These systems will make the skate turn if just one wheel passes over a bump.
The patent document EP0933103 discloses a wheel suspension for a skateboard, fitted with four wheels or runners, having a steering linkage arm in a rotary mounting at each wheel or runner, along the line of the skateboard as a longitudinal steering member. The longitudinal steering members are linked to the superstructure by two auxiliary steering linkages for a cardanic movement action.
The patent document US2018/0185738 discloses a bifurcated truck in a laterally-sliding board wheel assembly, in which the board can easy travel forward, backwards, sideways or in any other directional combination. The wheel assembly employs a bifurcated truck system having two independent suspension arms, both operating independently from one another and from the board's castering wheels.
Prior art disclosures also have the problem of requiring further structures for example, kept always parallel to the ground which results in a much heavier skate as it requires an additional large and rigid structure.
Prior art disclosures also have the problem of the rotation of the main body (chassis) affects the camber of the wheels. Furthermore, the vertical movement of the wheel is dependent on the steering system.
Another prior art problem is that the steering system is controlled by an external device, normally a servo motor.
These facts are disclosed in order to illustrate the technical problem addressed by the present disclosure.
The present disclosure relates to a skateboard comprising a suspension that works independently from the steering system. In the system, multiple points are shared with the centre axis of the skateboard, resulting on a considerably different system.
The present disclosure relates to a skateboard comprising a board comprising a suspension assembly and a steering assembly for steering and connecting two parallel wheels to the board with independent suspension and steering; wherein the suspension assembly comprises a support frame rotatably coupled to an underside of the board; the steering assembly comprises a steering crank fixed to and extending from an underside of the board;
In an embodiment, the suspension assembly is a double-wishbone suspension.
In an embodiment, the upper and lower suspension arms are ‘A’-shaped arms.
In an embodiment, the spindle is rigidly mounted on the knuckle.
In an embodiment, the spring is coupled between the lower suspension arm and the board, for resiliently holding the knuckle.
In an embodiment, the spring is coupled by fastening means, particularly bolts.
In an embodiment, the knuckle comprises a knuckle shaft arranged between the pivotable coupling to the upper suspension arm and the pivotable coupling to the lower suspension arm.
In an embodiment, the knuckle shaft is pivotably coupled to the upper suspension arm and to the lower suspension arm by a resilient pivotable coupling.
In an embodiment, the resilient pivotable coupling comprises a resilient ring arranged around the knuckle shaft and within the respective suspension arm.
In an embodiment, the tie rod of each wheel is an adjustable length rod.
In an embodiment, the tie rod of each wheel comprises an inner tie rod and an outer tie rod arranged telescopically.
In an embodiment, the upper suspension arm and the lower suspension arm are arranged to remain parallel as the arms pivot.
In an embodiment, the skateboard further comprises a resilient body attached between the board and the support frame for resiliently providing resistance to the turning of the board in respect of the support frame.
In an embodiment, the body is made of an elastic polymer, in particular the elastic polymer is polyurethane.
In an embodiment, the steering assembly and the suspension assembly are made of carbon fibre or steel or aluminium.
In an embodiment, the board comprises a front part and a back part, wherein the suspension assembly and a steering assembly are located at the front part or the back part.
In an embodiment, each said front and back part comprises a suspension assembly and a steering assembly as previously described.
In an embodiment, the assemblies of the front part and assemblies of the back part are independent. Thus, being only joined by the board.
The following figures provide preferred embodiments for illustrating the disclosure and should not be seen as limiting the scope of invention.
The present disclosure relates to a skateboard comprising a board 2 comprising a suspension assembly and a steering assembly for steering and connecting two parallel wheels 3 to the board with independent suspension and steering; wherein the suspension assembly comprises a support frame 8 rotatably coupled to an underside of the board; the steering assembly comprises a steering crank 12 fixed to and extending from an underside of the board;
In an embodiment, the board comprises a front side and a backside where in the front side of the board, the suspension assembly for each of the two parallel wheels 3 comprises one spring and in the backside, the suspension assembly for each of the two parallel wheels 3 also comprises one spring.
In an embodiment the spring 5 are coupled to the board 2.
In an embodiment, the suspension assembly and the steering assembly are independent. These embodiments show that the suspension assembly does not influence the steering assembly since they are completely independent of each other.
In an embodiment, the centre of rotation of the whole assembly is concentrated on the centre of the board. Surprisingly, this way it is possible to pass over bumps without affecting the steering assembly and the camber and it is possible to turn without affecting the camber or the suspension assembly.
In an embodiment, the bolt joint may comprise an elastic polymer. The polymer is polyurethane.
In an embodiment, the support frame 8 is rotatably coupled and is always perpendicular to the wheel, even when the wheel is moving upwards and the board is tilted.
In an embodiment, the second ball joint 10 and tie rod socket 11 moves upwards and downwards.
In an embodiment, the springs of the suspension assembly of each wheel cancel each other when turning/pivoting the board, not offering resistance while turning. This happens because both of them have preload and while turning, one of the springs gets compressed and the other extends, so one helps the other. Although the spring getting extended has less energy stored and the spring being compressed is increasing the stored energy, the resulting force is balanced due to the change in the angle of the springs during the movement. The change in the angle changes the ratio wheel/spring travel that is why it balances the force. This way the springs of two lateral wheels only offer resistance for the suspension assembly and cancel each other for the turning/steering assembly.
In an embodiment, the steering assembly and the suspension assembly are smaller, lighter and allows the use of normal skateboards wheels. While comparing to the other kind of simpler systems it has basically the same weight of a normal longboard truck while giving a full suspension system with a real wheel travel of 46 mm.
The term “comprising” whenever used in this document is intended to indicate the presence of stated features, integers, steps, components, but not to preclude the presence or addition of one or more other features, integers, steps, components or groups thereof.
The disclosure should not be seen in any way restricted to the embodiments described and a person with ordinary skill in the art will foresee many possibilities to modifications thereof. The above described embodiments are combinable.
The following claims further set out particular embodiments of the disclosure.
Number | Date | Country | Kind |
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116615 | Jul 2020 | PT | national |
This application is a U.S. National Stage Application under 35 U.S.C. § 371 of International Patent Application No. PCT/IB2021/056929, filed Jul. 29, 2021, which claims priority to Portugal Patent Application No. 116615, filed Jul. 30, 2020, the contents of which are each hereby incorporated by reference in their respective entireties.
Filing Document | Filing Date | Country | Kind |
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PCT/IB2021/056929 | 7/29/2021 | WO |