AU653995B2 - Method of providing a self-propelled physical skateboard/rider-system, and skateboard for realizing the method - Google Patents

Abstract

A footboard of a skateboard is with respect to a respective reference plane which at riding straight (= x plane) is parallel to the riding path (= the ground), and at turning (= x'' plane) is with respect to the direction of riding slanted to one or the other side, is rhythmically swung around a longitudinal axis (O) of swinging lying in suspensions (4, 5) of the skateboard. The amplitude (A) and the frequency of swinging are mutually coordinated in a manner that swinging does not result in such meandering of the skateboard, which was felt inconvenient. To a socket shaft housing (8) of a suspension (4, 5) of the skateboard, said housing encasing a roller shaft (11), there is to each end thereof attached a gearing (9, 10), the gearings designed mirror-symmetrically. The gearing (9, 10) is composed of an essentially three-part housing assembly, which comprises a mounting casing (13), an upright intermediate wall (16) and a mounting cover (17), as well as of a train-type gearing composed of a toothed rack (19) as a driving constituent and a gear (25) bound to the roller shaft (11), as a driven constituent. In addition to the roller shaft (11) which passes through, two further, inner shafts (14, 15) constitute said gearing, the lastmentioned shafts each supporting two gears (20, 21; 23, 24), the first one (20) thereof mating the toothed rack (19) and the last one (24) mating the gear (25) driven. The second one (21) of the gears is indirectly connected to the respective shaft (14) by means of an overrunning clutch (22), and shaft (14) is by means of a suitably pre-stressed helical torsion-spring (28), which encompasses the shaft (14), rotationally-elastically bound to the stationary mounting casing (13) of the gearing.

Description

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AUSTRALIA

Patents Act 1990

ORIGINAL

COMPLETE SPECIFICATION STANDARD PATENT Invention Title: METHOD OF PROVIDING A SELF-PROPELLED PHYSICAL SKATEBOARD/RIDER-SYSTEM, AND SKATEBOARD FOR REALIZING THE METHOD

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St V The following statement is a full description of this invention, including the best method of performing it known to me:

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GH&CO REF: 22227-A:DAA:RK Boris SOBO(CAN, Sc.D.

Method of providing a self-propelled physical skateboard/rider-system, and skateboard for realizing the method The present invention belongs to the field of sports/games/recreation, and in the scope thereof it relates to skateboards, particularly the ones which provide special, integrated measures for physically driving the skateboard. (Int. CL 4 A 63 C 17/12, B 62 M 1/08) In a primary configuration of a skateboard the latter comprises an elongated, suitably designed footboard to which two pairs of rollers are suspended from below. (Optionally, a skateboard can further comprise supplementary equipment, e.g. a brake, a flywheel, a lamp, a marker, a buffer, etc.). Normally, in the course of skateboarding, curving is i made possible at the footboard of skateboard parallel to the skateboarding path at riding straight, the footboard slanted to either side with respect to its longitudinal axis.

This action can be realized by means of specific suspension of the rollers, and at per- S forming a curve the inclination of the footboard results in that a front and a rear roller, the "inner" rollers with respect to the curve, are mutually approached, whereas the other two rollers, the "outer" ones with respect to the curve, are mutually drawn apart.

It is obvious that here proper propelling of the skateboard is performed by the rider's pushing off the ground (and/or by riding downhill) so that a skateboard/rider-system as a physical phenomenon, i.e. at skateboard and rider functionally united into a cornbined, independent unit, can be discussed merely within the period of the consumption S of mass forces previously accumulated (or in the case of riding downhill: by using the gravity force).

*Known are attempts to assign to a skateboard/rider-system the character of a physical I Sphenomenon without using gravity force or a special source of energy, respectively, i.e.

solely on the basis of physical engagement of the rider.

~-LC-i CIIICIII~ t- 2 From US patent specification 4,915,403 to Wild et al. a "skateboard with mechanical drive" is known, whose footboard is in the area of the middle of the longitudinal extension of the footboard transversely divided to a front, fixed section, and a rear, pedal section. Said footboard sections ar, interconnected by a skateboard f,me. Hereby, the pedal section is by means of linkages comprising a push rod, a crankshaft and a toothed segment, as well as by means of a gear train bound to said toothed segment and comprising four pairs of toothed wheels and a termination toothed wheel, which is bound to a roller shaft of the rear skateboard rollers, motion-transferably interconnected with respective skateboard rollers, each of the latter being connected to the shaft by means of an overrunning clutch.

According to the above reference, the skateboard essentially provides the same height as the skateboards without propelling gearings, and there are aimed to be retained diverse operational possibilities, such as ease in negotiating curves and maneuverability.

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eb V However, at the antecedent solution, the height of the skateboard can only be a matter of discussion in connection with the front, i.e. fixed, footboard section of the skateboard, not in connection with the rear, i.e. pedal section, except at a position when its pedal function is arrested which, however, is not in conformity with the primary aim or object of the solution. Analogously, regarding the "diverse possibilities" there has to be noted the following: The curves can 'easily be negotiated and the skateboard easily handled under the condition only that the pedal function is arrested, i.e. both footboard sections straightened coplanar). In the state when the skateboard is physically pushed, merely the rider's foot resting on the front footboard section of the skateboard is left to accomplish normal riding ("normal" possibilities offered by the skateboards without propelling gears). Thus, the maneuverability is obviously and considerably affected. So, the possibility of making jumps, when the pedal section is lifted, is totally excluded.

At the antecedent solution the length of the footboard of the skateboard is limited down to a size of at least not less than) two feet. Besides, there is imminent the danger of toppling on one or the other side with respect to the direction of riding as well as backwards over the rear rollers (as a consequence of the circumstance that propelling as such tends to jerk the skateboard from under the rider's feet).

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*r 0 0* 066 3 From the functional point of view the known solution shows a further disadvantage, which cannot be neglected, namely the driving torsional moment is enforced intermittently: a driving phave is followed by an idle one, the latter is followed by a driving phase, etc.

It is an aim of the present invention to ameliorate at least some of the disadvantages of the prior art.

It is an advantage that the present invention embodies a skateboard which can physically be driven by means of movements a rider can use on skateboards without driving gears.

Considering the circumstance that for negotiating curves, a footboard of a skateboard is tiltable within limits, whose extreme values are defined by constructional measures, and that reasonably rapid swinging of the footboard, limited to a correspondingly small angle, with respect to a given plane which is horizontal at straight riding and is at negotiating a curve titled to the direction of the geometrical center of the curve, practically generates no perceivable meandering of the 'skateboard, the invention is based on the problem how to convert said swinging of the footboard to propelling of the rollers of a skateboard.

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In an aspect of the present invention there is provided a S.skateboard comprising; a deck having a longitudinal axis; two roller mounts which are spaced apart from each o* other, aligned on the longitudinal axis and connected to :t an underside surface of the deck, each of the roller mounts having a roller shaft extending transversely to *the longitudinal axis; and drive means which are arranged opposite sides of at least one of the roller mounts and which are connected to V the respective said roller shaft, each said drive means including a drive member which is moveable between a Sr2.

E S:22227-A 21.7.94 -4first position and a second position; wherein the deck is able to be pivoted transversely to the longitudinal axis and about both of the roller mounts and wherein each said drive member causes the respective said roller shaft to be rotated when the drive member is forced from the first position to the second position by the deck when the deck is pivoted transversely to the longitudinal axis of the deck and about both of the roller mounts.

Accordingly, the invention contemplates a self-propelled physical skateboard/rider-system, based on a skateboard which comprises a gearing for transforming an action force of the rider to a moment of rotation for driving the skateboard and further based on a rider, who is correspondingly, at least basically, experienced. In use a footboard of a skateboard embodied by the invention is with respect to a respective reference plane, which at riding straight is parallel to the path the ground), and is at curving, with respect to the direction of riding, slanted to one or the other side, rhythmically swung around a longitudinal axis of swinging which iextends through the roller mounts (or suspensions) of the skateboard. Hereby, the amplitude of swinging which, preferably, is as small as possible, and the frequency of swinging which, preferably, is as high as possible, are mutually coordinated so that swinging does not result in a noticeable inconvenient meandering of the skateboard.

S°'In an embodiment of the invention, the skateboard has a train-type interconnection between the footboard of the skateboard and a roller shaft of the skateboard, whereby each roller of the skateboard is with a respective roller shaft connected indirectly by means of an overrunning clutch, is in a basic design characterized in that to a socket housing of each roller mount (or suspension), said housing encasing said roller shaft, there is to each end

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4 thereof attached a gearing.

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~S:22227-A 21.7,94 7 The invention further embodies a skateboard of the same type in that to a socket shaft housing of either suspensions, said housing encasing said roller shaft, there is to each end thereof attached a gearing.

Regardless the fact whether a basic or a preferable embodiment of the skateboard is in question, the gearings belonging to the front and/or rear roller shaft are designed mirror-symmetrically with respect to the longitudinal upright plane placed through the suspensions. In an embodiment of the invention each gearing is composed of: a mounting casing attached to said shaft housing and closed in the direction towards the respective roller of the skateboard by an upright wall to which a mounting cover oriented to the mounting casing is connected, with bearings foreseen both in the mounting casing and the mounting cover for journalling the roller shaft and gearing shafts, a vertical toothed rack guided by a guide, the latter being a constituent of the intermediary wall, the rack extending through a recess of the ceiling wall of the mounting cover up to the footboard, a pinion mating the toothed rack, as well as pairs of gears which constitute a train-kind interconnection of the toothed rack and the roller shaft, with the last gear mentioned being arranged on the roller shaft, and

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a suitably pre-stressed retracting helical torsionspring which interconnects the shaft of the pinion and said mounting casing so that at lowering the toothed rack the spring is tightened, whereby the gear next to the I spring is by means of an appropriate overrunning clutch indirectly connected to the shaft common to the spring /7 and the gear.

0S22227-A 21.7.94 The preferred exemplary embodiment of the invention will hereinafter be described in conjunction with the appending drawing, wherein like designations denote like elements, and: Fig.l is a schematic, pictorial representation of a skateboard provided in accordance to the invention, with the footboard of the skateboard prevailingly broken to expose the substructure of the skateboard, Fig.2 is a side-view of a skateboard of Fig. 1, with the left end section of the skateboard the front end section of the skateboard) represented as a vertical sectional elevation of a gearing, Fig. 3 is the view of a skateboard of Fig. 2 from the left the front view), with the section relating to the front right roller represented as a vertical sectional elevation which corresponds to line III-III of Fig. 2, and shows a corresponding toothed rack not covered by said J sectional plane (one of axles and accompanying Fi. two gears omitted to improve the clearness of the drawing), Fig. 4 is a sectional elevation corresponding to line IV-IV of Fig. 3, l ee Fig. 5 is a schematic, pictorial representation of a 1e couple of gearings (without respective toothed racks) belonging to an axle (front or rear) of the skateboard, Fig. 6 is a schematic, pictorial representation of the gearing, the right one with respect to the riding direction, partly taken apart, S:22227-A 21,7,94 5b Fig. 7 is a schematic front view (or rear view -it makes no difference) of the skateboard, whose footboard is at negotiating a curve extremely tilted, there being shown the geometry of swinging, and Fig. 8 is a view analogous to Fig. 7, yet showing the contrary tilting of the footboard.

The skateboard comprises a footboard 1 on whose lower side a front substructure assembly 2 and a rear substructure assembly 3 are suspended at the front and the rear end sections, respectively. The connection of the footboard 1 and the substructure assemblies 2,3 is a direct one, similar to that at the skateboards without incorporated driving gearings.

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i I t g oe too• JIt o<i S:22227-A 21.7.94 6 The substructure assembly 2, 3 is designed by a two-column suspension 4 (front); suspension 5 (rear) which, as such, belongs to the prior art. The two suspensions 4, constructionally equal each other, yet are arranged in known manner mirrorsymmetrically with respect to a vertical central plane positioned transversely to the direction of the movement of the skateboard. When observing the representation of Fig. 1, the constructional feature just mentioned appears such that of the two-colun suspension 4 of the front substructure assembly 2 a rigid, internally rotatable and breakable column 6, and of the two-column suspension 5 of the rear substructure assembly 3, respectively, an elastically flexible column 7 is visible.

The columns 6, 7 of either suspension 4, 5 are arranged in a V-relation in the central longitudinal vertical plane of the skateboard, which feature in the combination with other features of the suspensions 4, 5 makes it possible that at tilting of the footboard 1 to the left or to the right, respectively, with regard to the direction of riding the skateboard, the front substructure assembly 2 and the rear substructure assembly 3 are definitely swung in opposite directions each assembly around its own vertical axis, which coincides with the axis of the rigid column 6, which shiftings in functional meaning result in turning of the skateboard.

Except in view of the mentioned feature that the suspensions 4, 5 are arranged mirrorsymmetrically, the front substiucture assembly 2 and the rear substructure assembly 3 constructionally equal each other. In order to simplify the description of the skateboard, merely the front substructure assembly 2 and the front suspension 4 will hereinafter be referred to, but including the rear substructure assembly 3 and the rear suspension According to the invention there is to each side end) of a shaft housing 8, the latter arranged crosswisely to the columns 6, 7 at the root section of the V-arrangement of said columns of the suspension 4, attached a gearing 9, 10, said gearings being preferably designed so as to create mutual mirror-symmetry with respect to the intermediate vertical longitudinal plane of the skateboard.

A roller shaft 11, bearing at its free end sections skateboard rollers 12, is inserted through the shaft housing 8 and the gearings 9, i7 7 For the solution of the problem of the invention it is really indispensable to foresee a couple of gearings 9, 10 for each shaft 11. In principle, the installation of gearings at both shafts, i.e. at the front and at the rear roller shaft, is optional, but the tests performed as well as diverse practical aspects (which will be discussed in more detail later) lead to the conclusion that it is convenient to foresee two couples of gearings as represented in Fig. 1. Possible initial doubts to the effect that the gearings in the arrangement mentioned might result in an aimless constructional jamming of the skateboard, disappear at becoming aware of the circumstance that according to the invention the suspensions which, as generally known, are "critical" (and therefore expensive) components of skateboards, need not be divided to front/rear and left/right ones, respectively, as this is the case in the prior art analyzed.

The gearing 9 according to the invention is composed of a box-shaped mounting casing 13 which is attached to the free end of the shaft housing 8 and in which, beside the roller shaft 11, a shaft 14 for carrying gears, conveniently disposed above the roller shaft 11, S'I, and an intermediate shaft 15 also for carrying gears, disposed by height between the shafts 11 and 14, but shifted rearwards with respect to the direction of riding the skateboard, are mounted. On the side oriented to the roller 12 of the skateboard, the mounting casing 13 is closed by a vertical adapted wall 16 (please also cf. Fig. Finally S attached to the latter is a mounting cover 17, which provides another series of bearings for pivoting the shafts 11, 14, 15. In the ceiling part of the wall of the mounting cover 17 there is directly at the wall 16 foreseen a recess 18 for conveying a toothed rack 19 as explained below.

i* The shaft 14 supports a pinion 20 which is directly bound to the former and is foreseen to co-operate with the toothed rack 19, as well as a further gear 21, which is by means of an overrunning clutch 22 a grip roller and expanding friction clutch) connected to the shaft 14. Hereby, the pinion 20 resides inside the mounting cover 17 and projects into an appropriate circular recess 26 of the wall 16, whereas the gear 21 accompanied with its overrunning clutch 22 resides inside the mounting casing 13 and is arranged at .:an axial distance from the journal of the shaft 14.

9 I i The intermediate shaft 15 supports a gear 23 designed to mate the gear 21, whose diameter is greater than that of the former one, and on the side oriented to the vertical wall part of the mounting casing 13, supports a further, larger gear 24. The two gears 23, 24 are directly connected to the intermediate shaft The roller shaft 11 supports a gear 25, driven and designed to mate the gear 24, whose diameter is larger than that of the former one. The interconnection of the gear 25 and the shaft 11 is a direct one as well.

Naturally, there are analogously to the recess 26, in the wall 16 also foreseen adapted recesses to convey shafts 11, 15. Besides, the wall 16 provides an upright trough-shaped guide 27 (Fig. 6) for the accommodation and guiding of the upright toothed rack 19, the inner cross-section of the guide 27 coinciding with the recess 18.

On the shaft 14 there is in the axial interspace between the gear 21 and its overrunning clutch 22, respectively, and the bearing of the shaft 14 arranged a suitably pre-stressed helical torsion-spring 28, whose one end is formed like a hinge and is by means of tangential approaching to the surface mantle of the shaft 14 connected to the latter, and whose other end is designed like a special hook and thereby connected to the mounting casing 13. Hereby, the windings of the spring 28 pass in a manner that they are tightened when the toothed rack 19 is moved down, i.e. they accumulate potential SI energy necessary for returning (lifting) the toothed rack 19. It is clearly evident from Fig. 5 that in the case of existence of two gearings 9, 10 bound to a respective roller shaft 11, one of the two springs 28 is coiled right-hand and the other one is coiled lefthand. An enibodiment of a left-hand coiled helical torsion spring 28 is pictorially represented in Fig. 6.

•The gearing is designed on the principle that one stroke of the toothed rack 19 results in one revolution of the shaft 14, Naturally, at a complete revolution of the shaft 14 the windings of the spring 14 do not thoroughly clamp the mantle surface of the latter, and S the ability of springness-accumulation of the spring is thereby not thoroughly exhausted.

The interconnection of the shaft 11 and the roller 12 is taken from prior art and designed by providing a roller bearing 29 (Fig. 3) and an overrunning clutch In a preferred embodiment of the invention there is with respect to the overrunning clutch 30 belonging to the roller 12, as well as with respect to the overrunning clutch 22 1 9 which belongs to the gear 21, among known overrunning clutches chosen .the one designed on two mutually movable rings inserted one into another and each of them carrying an appropriate series of roller needles, whereby the inclination sections are foreseen in the outer ring (a patent to TORRINGTON company). The two overrunning clutches 22 of rollers 12 bound to a common shaft 11 thus work in the same direction of rotation.

Figs. 1 through 6 of the drawing represent a state of a skateboard which is neutral with respect to the footboard 1 and is balanced with respect to the spring 28. The four toothed racks 19 are forced upwards to the footboard 1 under the influence of the returning forces of the springs 28.

Contrary to the above mentioned state, Fig. 7 schematically represents a state of a skateboard, which corresponds to a footboard 1 tilted to one of two limiting positions by force, Fig. 8 representing a state corresponding to tilting thereof into another limiting position. The two springs 28 referring to the toothed racks 19, which are pushed down by the footboard 1, are then iightened (stressed), the other ones are then slack (loose).

i Evidently, at riding, the states of Figs. 7-8 mean negotiation of curves by the skateboard I to one or the other direction.

*4i I I Fig. 7 comprises three plane, coordinate systems bound to the swinging axis 0 of the footboard 1. The x-y system denotes the position of the footboard 1 at riding straight, the system denoting the position thereof at extreme turning to one direction (an analogous position as to extreme turning to the other direction being represented in Fig.

and the system denoting an optional intermediary position of turning the S. skateboard, i.e. slight turning. Arched arrows A added to the ordinate planes y, y" in Fig. 7 indicate the possibility of performing the swinging of the footboard with respect to the respective ordinate planes in the course of riding on a skateboard, with the amplitude of swinging each reasonably measured off. In principle or advantageously, respectively, there is foreseen that in the case of all arrows A, essentially the same angle of swinging is in question although the choice of the extent of swinging as such is within the individual discretion or the user's mastering of the rolling technique, and said extent both depends on the embodiment and riding features, respectively, and is constructionally limited io one or the other side merely by the extremely possible tilting position here indicated by the system.

The swinging of the footboard 1 as explained above is in accordance with the fundamental conception of the invention, as defined in the introduction, exploited in the range of angles indicated by the arcuate arrows A for generating the propelling of skateboard.

Namely, the experiments have shown that swinging generated by a reasonably high frequency and reasonably small amplitude with respect to an optionally chosen plane y, naturally without exceeding the limit plane does not result in a risky uneven riding of the skateboard (in fact, swinging essentially means creating miniature curves, i.e.

meandering), it, however, can be exploited as an appropriate basis for generating an appropriate propelling moment of rotation. The circumstance that the gearing 9 is unavoidably embodied as a "light" one, is actually an obvious accompanying feature of the, concept as set forth above. Having provided both roller shafts 11 with gearings 9, which means that the driving load is every time divided to two gearings 9, the skateboard as a whole meets the requirements regarding solidity, typical for articles of this type.

By the skateboard according to the invention possibilities are given to start riding either by pushing off the ground (similarly to skateboards without a driving mechanism) or by treading on the footboard and starting swinging of the footboard of the skateboard.

When 'pushing the toothed rack 19 of the gearing 9 downwards, the shaft 14 obtains levorotation; the overrunning clutch 22 is thrown in gear and hence the gear 21 rotates as well. The rotation of the shaft 14 is followed by tightening of the spring 28. From the gear 21 the rotational moment is conveyed to the gear 23, by means of the latter it is conveyed to the gear 15 and hence to the gear 24, which gears are thus turned dextrorotatorily. From the gear 24 the rotational moment is conveyed to the gear i now driven, and by means of the latter conveyed to the roller shaft 11. Evidently, the gear 25 and the shaft 11 obtain levorotation; the overrunning clutch 30 of the roller 12 is put into gear. It is a result of the transmission disclosed that a stroke of the toothed rack 19 is converted into propelling rotation of the roller 12.

At realizing the above disclosed working stroke of the toothed rack 19 of the gearing 9, the toothed rack of the gearing 10 belonging to the same roller shaft 11 follows the lifting of the footboard of the skateboard under-the influence of the force of unwinding the respective spring. Hereby, the connection of the shaft 14 and the gear 21 of the gearing 10 is broken by means of the overrunning clutch.

At turning, particularly at sharp turning, the difference between the number of revolutions of the outer rollers and the inner rollers 12 cannot be neglected, in principle.

There is not excluded the possibility that in the case of realizing the above disclosed swinging, also in the course of turning of the skateboard the drive actively influences merely the inner roller 12, which rotates slower, i.e. the number of revolutions of the outer roller might exceed the one really attained by the gearing. In this case the overrunning clutch 30 of the outer roller enables free rotation of the latter.

Naturally, the overrunning clutches 30 are also necessary for riding a skateboard backwards, in that case without putting the driving gearings into gear.

From tile above elucidations it follows that with respect to the lower side of the footboard 1 the tip portion of each toothed rack 19 performs a motion (Fig. 8) composed of a straight, radial component R created by tilting the footboard 1 as such, i.e. swinging the footboard 1 around the longitudinal axis 0, and also composed of a circular component C created at swinging the substructure assembly 2, 3 to perform turning, i.e. at I. swinging around the vertical main axis of the suspension 4, 5. In order to avoid the risk of possible non-reversibility of the footboard 1 and the toothed rack 19, there is at the top of each toothed rack 19 foreseen a ball bearing 31, known per se, not represented in the drawing.

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Claims (17)

1. A skateboard comprising; a deck having a longitudinal axis; two roller mounts which are spaced apart from each other, aligned on the longitudinal axis and connected to an underside surface of the deck, each of the roller mounts having a roller shaft extending transversely to the longitudinal axis; and drive means which are arranged opposite sides of at least one of the roller mounts and which are connected to the respective said roller shaft, each of said drive means including a drive member which is moveable between a first position and a second position; wherein the deck is able to be pivoted transversely to the longitudinal axis and about both of the roller mounts and wherein each said drive member causes the respective said roller shaft to be rotated when the drive member is forced from the first position to the second position by the deck when the deck is pivoted transversely to the longitudinal axis of the deck and about both of the roller mounts.

2. A skateboard according to claim 1 wherein both of the roller shafts are connected to a pair of said drive means respectively.

3. A skateboard according to claim 1 or 2 wherein a swing axis extends through both of the roller mounts and the deck is pivoted about the swing axis.

4. A skateboard according to any one of claims 1 to 3 wherein each said drive means further comprises; a casing; and a gear mechanism arranged within the casing; and wherein the respective said drive member is connected to the respective said roller shaft through the gear mechanism.

II I 0 I Seq S:22227-A 9,8,94 13 A skateboard according to claim 4 wherein the drive member is a toothed rack and the gear mechanism comprises; a first and a second rotatably supported shaft; a pinion gear supported on the first shaft and engaged with the toothed rack; a first gear arranged on the first shaft; a second and third gear arranged on the second shaft, the second gear being engaged with the first gear; and a fourth gear which is arranged on the respective said roller shaft and engaged with the third gear.

6. A skateboard according to claim 5 wherein the first gear is connected to the first shaft through a clutch mechanism.

7. A skateboard according to any one of claims 1 to wherein each said drive means further comprises a clutch mechanism and wherein the respective said drive member is connected to the respective said roller shaft through the clutch mechanism. S, iI

8. A skateboard according to claim 6 or 7 wherein each :'roller shaft carries a pair of rollers and wherein the rotation of each said roller shaft caused by the movement of the respective said drive member is transmitted to the respective said pair of rollers through further clutch mechanisms.

9. A skateboard according to claim 8 wherein there are *e two said further clutch mechanisms and wherein one said further clutch mechanism is associated with each said roller so as to transmit the rotation of the roller shaft to the respective said roller.

A skateboard a,.cording to any one of claims 6 to 9 U' wherein each said clutch mechanism is an overrunning CO clutch. :22227-A 9.8.94 TE S:22227-A 9.8.94 14

11. A skateboard according to any one of claims 1 to 7 wherein each said roller shaft carries a pair of rollers and wherein the rotation of each said roller shaft caused by the movement of the respective drive member is transmitted to the respective said pair of rollers through clutch means.

12. A skateboard according to claim 11 wherein said clutch means comprises two clutches and wherein one said clutch is associated with each said roller so as to transmit the rotation of the roller shaft to the respective said roller.

13. A skateboard according to any one of claims 1 to 12 wherein each said drive means includes means for returning the respective said drive member to the first position from the second position.

14. A skateboard according to claim 13 wherein the means for returning the drive member to the first position is a spring.

A skateboard according to claim 5 or 6 wherein each said drive means includes a spring having one end connected to the first shaft and an opposite end inconnected to the casing so as to cause the respective said drive member to be returned to the first position from the second position.

*16. A skateboard according to any one of claims 1 to wherein each said roller mount is comprised of first and too* i' second column portions which are arranged in a V- relationship with regard to one another. S:22227.A 9.8.94

17. A skateboard substantially as hereinbefore described with reference to any one of figures 1 to 8 of the accompanying drawings Dated this 9th day of August 1994 BORIS SOBOCAN By his Patent Attorneys GRIFFITH HACK CO I I 1 IS IS I S @9s( S:22227-A 9.8.94 I r- ABSTRACT Method of providing a self-propelled physical skateboard/rider-system and skateboard for realizing the method A footboard of a. skateboard is with respect to a respective reference plane which at riding straight x plane) is parallel to the riding path the ground), and at turning x" plane) is with respect to the direction of riding slanted to one or the other side, is rhythmically swung around a longitudinal axis of swinging lying in suspensions of the skateboard. The amplitude and the frequency of swinging are mutually coor- dinated in a manner that swinging does not result in such meandering of the skateboard, which was felt inconvenient. To a socket shaft housing of a suspension 5) of the skateboard, said housing en- casing a roller shaft there is to each end thereof attached a gearing 10), the gearings designed mirror-symmetrically. The gearing 10) is composed of an essen- tially three-part housing assembly, which comprises a mounting casing an upright intermediate wall (16) and a mounting cover as well as of a train-type gearing com- posed of a toothed rack (19) as a driving constituent and a gear (25) bound to the roller shaft as a driven constituent. In addition to the roller shaft (11) which passes through, two further, inner shafts (14, 15) constitute said gearing, the lastmentioned shafts each supporting two gears (20, 21; 23, 24), the first one (20) thereof mating the toothed rack (19) and the last one (24) mating the gear (25) driven. The second one (21) of the gears is indirectly connected to the respective shaft (14) by means of an over- running clutch and shaft (14) is by means of a suitably pre-stressed helical torsion-spring which encompasses the shaft rotationally-elastically bound to the stationary mounting casing (13) of the gearing. -3