WO2001032470A2 - Cambering vehicle and mechanism - Google Patents

Cambering vehicle and mechanism Download PDF

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Publication number
WO2001032470A2
WO2001032470A2 PCT/US2000/041844 US0041844W WO0132470A2 WO 2001032470 A2 WO2001032470 A2 WO 2001032470A2 US 0041844 W US0041844 W US 0041844W WO 0132470 A2 WO0132470 A2 WO 0132470A2
Authority
WO
WIPO (PCT)
Prior art keywords
trailing arm
front column
link
attachment point
yoke
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/US2000/041844
Other languages
English (en)
French (fr)
Other versions
WO2001032470A3 (en
Inventor
J. Gildo Beleski, Jr.
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to DE60025538T priority Critical patent/DE60025538T2/de
Priority to AU36413/01A priority patent/AU768971B2/en
Priority to JP2001534645A priority patent/JP3853654B2/ja
Priority to CA002390224A priority patent/CA2390224C/en
Priority to EP00991929A priority patent/EP1235709B1/en
Publication of WO2001032470A2 publication Critical patent/WO2001032470A2/en
Publication of WO2001032470A3 publication Critical patent/WO2001032470A3/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62KCYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
    • B62K3/00Bicycles
    • B62K3/002Bicycles without a seat, i.e. the rider operating the vehicle in a standing position, e.g. non-motorized scooters; non-motorized scooters with skis or runners
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62KCYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
    • B62K15/00Collapsible or foldable cycles
    • B62K15/006Collapsible or foldable cycles the frame being foldable
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62KCYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
    • B62K5/00Cycles with handlebars, equipped with three or more main road wheels
    • B62K5/02Tricycles

Definitions

  • the present invention relates generally to small, three wheeled, operator propelled vehicles, and more specifically to tne class of vehicle known as "cambering vehicles," in which forward motion is provided by the alternating shifting of weight from side to side as the vehicle travels a sinusoidal path, due to tne conservation of angular momentum.
  • cambered vehicle includes a novel yoke linkage between the two trailing arms for the rear wheels, which links the two trailing arms together for alternating motion.
  • the easily removable yoke also provides for ease of folding cf the vehicle for storage .
  • a transverse, rocking link is provided in lieu of the yoke, with the link incorporating elastomeric end bushings to provide for relative movement netween the arms and the ends cf the link.
  • the link is not conveniently removable, but the arms include folding means for compact storage of the vehicle.
  • a type of operator propelled three wheeled vehicle known as a "cambering vehicle” has a single steerable front wheel and a pair of laterally spaced rear wheels on trailing arms which are articulated to the front column from which the front wheel extends .
  • the operator shifts n ⁇ or her weight to the inside of each turning arc, thus shifting the center cf mass to the inside of each arc. This results in a series of accelerations due to the conservation of momentum of the vehicle and operator. In this manner, forward motion is attained.
  • the folding mechanism is relatively complex m comparison to the present vehicle, in that Irwin requires both of the bellcrank connecting links to be removed. Moreover, Irwin does not disclose any form of elastomeric connection between any of the fittings or mechanisms of his cambering vehicle, as provided in one embodiment of the present invention.
  • the valve may aisc be adjusted to allow fluid to flow from one end :: tne other cf the two cylinders, thereby allowing both cylinders tt collapse simultaneously for ftiding the vehicle.
  • Tne present vehicle avoids fluids and hydraulics, utilizing a yoke memoer fcr connecting the two trailing arms, and moreover does not require any form of intermediate links between the trailing arms and the yo ⁇ e .
  • Williams et al . do not disclose any form cf elastomeric fittings or connectors attaching any of the camoermg components together, as provided in an embodiment of the present invention.
  • Winchell titled "Cambering Vehicle With Trailing Arms Interconnected By Spur Gearing, " describes a mechanism in which the two pivot axles cf tne trailing arms are non-concentric with tne another, ana are interconnected by mating gears.
  • a motorized embodiment is also disclosed, similar to that of the '300, '271, and '106 U. S. Patents to the same inventor, discussed above. As in those patents and others with which the present inventor is familiar, no yoke or transverse elastomeric end link mechanism, fcr interconnecting the two trailing arms, is disclosed m the '10 ⁇ U.S. Patent, and while a declutching lever is provided, no cra ⁇ control lever is disclosed.
  • U. 3. Patent No. 4,088,339 issued on May 9, 1978 to Frank J.
  • Winchell et ai . titled "Cambering Vehicle With Cable Stabiiizer And Equalizer,” describes a vehicle utilizing a pulley system fcr linking the two trailing arms, similar to the mechanisms disclosed . . , discussed further above. The same distinctions noted between those devices and the present invention are seen to apply here.
  • the present link includes resilient bushings at each end therecf which fit into passages in the respective left and right trailing arms. These bushings provide resilience tc allow articulation both angularly and torsionally, which the torsion, bar of the Biskup '079 Patent cannot do.
  • J. S. Patent No. 4,133,551 issued on January 9, 1979 to Edward J. Biskup, titled “Cambering Device For Cambering Vehicle,” describes a trailing arm interconnect mechanism comprising a crank arm having oppositely offset cranks which ride in slots m the opposite trailing arms. As one crank arm travels in one direction, the opposite crank arm travels in the opposite direction, thereby causing the two trailing arms to work opposite to one another . Again, no yoke or transverse elastomeric end link mechanisms are provide .
  • Rappaport titled “Dual-Footboard Scooter,” describes a tricycle type vehicle having a rigid frame, with the two rear wheels having fixed axles with no camber, caster, toe-in, or toe-out.
  • the device is operated as a conventional scooter by pushing and coasting.
  • a single brake is provided for the front wheel, whereas the present vehicle includes independent brakes for each rear wheel.
  • German Patent Publication No. 2,413,377 published on October 2, 1975 illustrates a scooter and vertically undulating track, with the operator shifting his/her weight forwardly and rearwardly to shift the center of gravity of the vehicle over the crest of an undulation and thereby coast down the opposite si ⁇ e.
  • the device of the German Patent Publication is constructed m the reverse of the present invention, with two forward wheels and one rearward wheel, and the frame is rigid, thus precluding any cambering action or operation by conservation of angular momentum.
  • the present invention comprises a cambering vehicle, wherem forward motion is achieved by lateral shift of the operator's weight to the inside cf the turn as the vehicle travels a sinusoidal oath. Due to the principle of conservation cf an ⁇ uiar , motion in the direction of travel .
  • the above principle is well known, with numerous cambering vehicles utilizing various mechanisms to link the two trailing arms cf the vehicle together to provide the desired action.
  • the present vehicle utilizes different novel embodiments of components for linking the two trailing arms together, to provide advances in simplicity, durability, and ease of folding fcr storage over the relatively complex linkages and mechanisms of the prior art .
  • a novel yoke mechanism for linking the two trailing arms together is provided.
  • the yoke mechanism of the present cambering vehicle provides several advantages in a single mechanism, by (1) linking the two trailing arms tc articulate equally and oppositely to one another, (2) providing for folding of the vehicle for storage by the removal of a single fastener, and
  • the present cambering vehicle preferably has a separate brake for each rear wheel, with each brake being independently actuated by separate brake controls.
  • a second embodiment utilizes a transverse link secured to the front column and linking the left and right trailing arms.
  • Elastomeric arm connecting means such as elastomeric bushings, are disposed at the left and right ends of the link. This provides the required resilience to allow the arms to rotate torsionally about their connections with the link, and also to allow the required angular movement between the link and tne arms .
  • Figure 1 is an environmental perspective view illustrating the present cambering vehicle in operation, and showing its general features .
  • Figure 2 is a detailed elevation, view cf the rear side of tne front strut cf the present cambering vehicle, showing details cf the yoke mechanism interconnecting the two trailing arms and the operation thereof .
  • mecnanism of Figure 2 snowing further ⁇ etaiis of tne operation thereof .
  • Figure 4 is a detailed exploded perspective view of the yoke mechanism of Figures 2 and 3, illustrating the removal of tne yoke from tne front structure for folding tne vehicle for storage.
  • Figure 5 is a left side elevation view of tne present cambering vehicle, illustrating the folded position of the ven ⁇ c__e in broken lines .
  • Figure 6 is a top plan view m section of the steering column of the present camPermg vehicle, snowing tne attachment of a lateral link thereto for connecting the two trailing arms.
  • Figure 7 is a side elevation view of tne lateral link arm connecting means of Figure 6.
  • Figures 8A through 8D are rear elevation views of various articulations of the lateral link and trailing arm attacnment showing the resilient distortion of tne elastomer bearings.
  • the present invention comprises an operator powered cambering vehicle, m which the vehicle is propelled forwardly by means of the principle of conservation of angular momentum as the center of gravity of the operator and vehicle are repeatedly shifted to the msi ⁇ e of tne turn as tne vehicle travels a sinusoida.
  • path Tne present vehicle utilizes a novel means cf __ ⁇ n ⁇ ng the articuiate ⁇ portions of tne structure together, in or ⁇ er that tne trailing arms of the structure subtend equal but opposite arcs during operation
  • Figure 1 provides an environmental perspective view of tne present camoering vehicle 10 m operation
  • the present vehicle 10 essentially comprises a tricycle frame 12 navmg a front column !-_. and left ana right trailing arms, respectively 16 and 18 Tne trailing arms 16 and 18 are pivotaily attached to the front column 14, immediately above its lower end 20 Details of the attacnment of the trailing arms 16 and 18 to tne front column 14 are snowr more clearly m Figures 2 through 4 cf tne drawings .
  • the forward ends of the two trailing arms 15 and 1 ⁇ have lateral bushings, respectively 28 and 30, thereacross , with a bolt 32 cr other suitable fastener secured through each trailing arm bushing 28 and 30 to secure the trailing arms 16 and 13 pivotally to the fitting 22 cf the lower end 20 of the front column 14.
  • An attachment point 34 for a yoke (shown more clearly m Figure 4 of the drawings) or transverse link (shown m Figures 6 through 8D of the drawings) extends rearwardly from the front column 14 just above the lower end 20 thereof, and is positioned circumferentially about the front column 14 essentially midway between the two laterally disposed trailing arm attachment points 24 and 26.
  • the yoke attachment 34 has a relatively smaller diameter, rearwardly extending, internally threaded shaft 36 extending therefrom, to which the central bushing 38 cf the trailing arm interconnecting yoke 40 is pivotally attached by its pivot passage and removably secured by a single yoke attachment fastener 42 (e. g., threaded bolt, etc.) .
  • This attachment means is similar to that used to secure the two trailing arms 16 and 18 to the trailing arm attachment fitting 22 of the lower portion of the front column 14.
  • the yoke 40 comprises an upper and a lower bar, respectively 44 and 46, with the two bars being parallel to one another ana spaced apart from one another by tne diameter of the central bushing 38 immovably installed (e.
  • the distance between the two yoke bars 44 and 46 is essentially equal to the diameters cf the two trailing arms 16 and 18, with the two bars 44 and 45 capturing the two trailing arms 15 and 15 closely therebetween when tne voke 40 is secured to its attacnment point 34 cf the front column 14.
  • the left ends 441 and 461 cf the two bars 44 and 46 capture the left trailing arm 15 therebetween, with tne right ends 44r and 46r capturing the right trailing arm 13 therebetween.
  • tne central or neutral position of the yoke 40, and tne two trailing arms 16 and 18 captured thereby is snown m solid lines, with tne extreme arcuate upward and/cr downwara positions cf tne trailing arms 15 ana 18 and corresponding positions cf tne yoke arms 44 and .5 being snown m broken lines
  • Figure 2 provides an example in wmcn tne vehicle 10 is lean ⁇ or cambered to the right, with the right side trailing arr 18 displaced arcuately upwardly, as snown m broken lines m Figure 2 and by the upper trailing arm position 18 of Figure 2 Wnen tnis occurs, the right ends 44r and 46r of tne yoke arms 44 and 45 must follovv tne upward movement of tne trailing arm 18 due to their direct contact therewith.
  • tne yoke 40 pivots arcuate1 about its central busnmg link 38 ana its attachment point 34 to tne rear side cf tne front co__.urr.r_ 1 , tnus causing tne opposite left ends 441 and 461 of tne yoke arms 44 and 45 to deflect downwardly.
  • tne direct contact cf tne two left ends 441 and 461 cf tne yoke arms 44 and 46 about tne left trailing arm 16, cause that arm 16 to be deflected arcuately downwardly.
  • each trailing arm 16 and 18 The amount of arcuate deflection or travel of each trailing arm 16 and 18 is identical, due to their equidistant lateral offset from the yoke attacnment point 34. However, due to the pivotal actuation of tne yoke 40, tne two arms 16 and 18 will always travel in arcuate directions opposite to one another
  • tne vo ⁇ e 40 is removably secured to tne front column 14 cf the ven ⁇ c_.e 1 _, py means of a single fastener 42 idoic, etc. . Remova_ of this single fastener 42 permits tne yoke 40 to be removed fro 1 " its attacnment point 34 , tnus removing zi? ⁇ oositive interconnect between the two trailing arms 15 and 15 p.
  • FIGS. 2 and 4 illustrate the trailing arm stop means of the present vehicle 10, comprising a lateral stop 48 which is immovably affixed to the back of the front column 14 immediately below the yoke attachment point 34.
  • the stop 48 preferably includes lateral bracing 50, with the stop 48 and bracing 50 together comprising a generally triangular configuration, as shown.
  • stop means may take on other forms (e. g., a flat plate welded to the back of the column 14, etc.) as desired.
  • the cambering vehicle 10 of the present invention is illustrated throughout the drawings as a wheeled vehicle, although it will be seen that the vehicle 10 may be equipped with virtually any conventional type of either rolling or sliding surface contact means (e. g., in-line or other wheeled skates, ice skates, skis, etc.), as described in U. S. Patent No. 4,087,106 to Winchell et al . , discussed in the Description of the Related Art further above.
  • the conservation of angular momentum principle of operation utilized by the present vehicle 10 is not limited to rolling means (e. g., wheels, roller skates, etc.) , but may be applied to any low friction surface contact means allowing tne vehicle 10 to travel over a surface with minimal frictional losses .
  • the wheeled embodiment of the present vehicle 10 exemplified in the drawings has a steering shaft 52 installed concentrically through the front column 14 (shown most clearly in Figure 4 cf the drawings) , with the steering shaft 52 navmg a lower end 54 extending from the lower end 20 of the front column 14 with a wheel fork 56 (shown ⁇ r_ Figures 1, 2, 3, and 5) extending therefrom fcr carrying a single st ⁇ erable wneei 55 therein.
  • the steering shaft 52 has an opposite upper end 60 which extends beyond the upper end 62 of the front column 14, with the upper end 60 cf the steering shaft 52 including steering means (e.g., handlebars 64, as illustrated m Figures 1 and 5) extending therefrom, for the operator to steer the present vehicle 10 as desired.
  • steering means e.g., handlebars 64, as illustrated m Figures 1 and 5
  • Turning the handlebars 64 turns the steering shaft 52 within the front column 14 and turns the front wheel fork 56 with its front wheel 58 captured therein lor other surface contact means, as noted above) to steer and turn the vehicle 10 as desired.
  • Each trailing arm 16 and 18 has a rearward end, respectively 66 and 68, with surface contact means extending therefrom (e. g., wheels 70 and 72, as shown in Figures 1 and 5, but alternatively other means such as skates, skis, etc., as noted further above; .
  • surface contact means e. g., wheels 70 and 72, as shown in Figures 1 and 5, but alternatively other means such as skates, skis, etc., as noted further above; .
  • the two rear wheels 70 and 72 each include conventional brake means, with the left and right brakes being independent of one another.
  • the left and right brakes of the rear wheels 70 and 72 are actuated by separate and independent actuating or control means, e.
  • the operator 0 cf the present vehicle 10 operates the vehicle by standing atop the left and right foct rests, respectively 80 and 82, located at the rearward ends 65 and 68 cf the two trailing arms 16 and 18 above their respective rear wheels 70 and 72, ana gripping the steering means 64.
  • the operator 0 then pushes off with one foct and simultaneously turns the vehicle 10 to the left or right as desired to establish a given angular momentum for tne vehicle 10 and operator 0.
  • Leaning into the turn moves the center of gravity cf the operator C and vehicle 10 to the inside of tne turn.
  • the shifting cf t e center o grav y to a sma er ra us resu ts m a inear acceleration along the arcuate path of the turn, with the acceleration corresponding to the amount of the shift cf the vehicle and operator center of gravity, less any frictional losses.
  • the cambering of the vehicle 10 to lean to the inside cf the turn is provided by the arcuate travel of the two trailing arms with their arcuate motion being limited to equal and opposite motions by means of the yoke interconnection means of the present invention.
  • Figures 6 through 8D illustrate a second embodiment of the means for interconnecting the two trailing arms of the present cambering vehicle.
  • the basic configuration of the cambering vehicle is essentially the same as that illustrated in Figure 1, with essentially the same frame structure, steering mechanism, etc.
  • the trailing arm interconnecting means is different from the yoke of Figures 1 through 5.
  • Corresponding components are designated by reference numerals of the one hundred series, e. g., front column 14 cf Figures 1 and 2 is designated as front column 114 in Figures 6 and ", yoke 40 of Figures 1 through
  • Figures 6 and 7 respectively illustrate top plan and left side elevation views of the alternate lateral link connecter 140, pivotally secured to the link attachment point 134 extending rearwardly from the front column 11 .
  • This link attachment point 134 may be essentially the same as tne yoke attachment point 34 illustrated m Figure 4, with tne link 140 having a centrally disposed passage or bushing 135 formed therethrough fcr attaching the link 140 to the front column 114.
  • a Nylon or other bushin ⁇ material is provided between the material of the link 14 C and the attachment bolt or pm 142, to reduce friction between, the components .
  • the link 140 may be permanently installed, as by permanently installing its retaining pin 142 to the link attachment boss or point 134.
  • the permanently installed elastomeric end fittings of the link 140 preclude ease of detachment of the link 140 from the two arms 116 and 118, so there is no motivation to provide for removability of the link 140 from its attachment boss 134, as there is in the yoke 40 embodiment.
  • some form of conventional folding means for the two trailing arms 116 and 118 may be provided to allow compact storage of the vehicle, if so desired. Such folding means are preferably conventional and well known in the art, e.
  • telescoping tubular members with an internal tube or rod which is slid across the juncture between the two trailing arm.
  • the forward or attachment ends 124 and 126 of the two trailing arms 116 and 118 include respective bushings 128 and 130, which are in turn secured to a trailing arm attachment fitting 122 which extends across the front of the front column 114.
  • a bolt, pin, etc. 132 passes through the two trailing arm bushings 128 and 130 and the attachment fitting 122, to secure the two trailing arms 116 and 118 pivotally to the front column 114 in the manner used for the vehicle 10 of Figure 1.
  • these two trailing arms 116 and 118 differ from their corresponding components 15 and 15 of one vehicle 10, in that the trailing arms 116 and 118 each nave a link attachment boss and passage, respectively 117 and 119, formed therethrough.
  • These link attachment points 117 and 119 provide fcr the attachment of the link 140 to the two trailing arms 116, 118.
  • the transverse link 140 is formed of a relatively thick, heavy, and strong metal (steel, etc.) , to provide the desired torsional and arcuate rigidity, i. e., resistance to bending.
  • the link 140 has a left and an opposite right end each having an elastomer bushing, respectively 141 and 143, thereon.
  • These bushings 141 and 143 each include an outer and an inner shell or sleeve, respectively 145 and 147, with an elastomer material 149 captured therebetween; the sleeves are indicated in Figure 6 and .
  • bushing are affixed to the elastic material 145 therebetween, witn relative motion of the two sleeves 145 and 147 of each bushing being allowed only due to the resilience of the elastomer 149; no other mechanical or ether motion is provided for by the bushings.
  • the outer sleeves 145 of the bushings 141 and 143 are in turn immovably affixed (pressed in place, etc. within the retaining bosses 117, 119 cf the two trailing arms 116, 118, with the inner sleeves 147 of the elastomer bushings being immovably affixed to the opposite ends of the transverse link 140, e. g., by tightly securing the axial retaining bolts 151 therethrough.
  • Figures 8A through 8D illustrate the action of the link 140 and the flexing of the elastomer insert material 149 within tne bushings 141 and 143.
  • Figure 8A illustrates the configuration cf the transverse link 140 and its attached bushings 141 and 143 and respectively attached trailing arm bosses 117 and 119, when the right trailing arm 118 is deflected downwardly and the left arm 116 is correspondingly and equally deflected upwardly.
  • the rigidity of the link 140 results in its rocking back and forth arcuately about its attachment boss or passage 138, secured to the front column 114 by the link attachment point 134 and bolt or pin 142.
  • the relative motion between the link ends and the trailing arm lugs 117 and 119 is absorbed by the elastomer material 14 _. of the respective two bushings 141 and 145 ; the deflection of tne elastomer material 149 is clearly shown m Figure 8A. While the elastomer material 149 allows some arcuate and pivotal freedom cf motion between the link ends and the trailing arms 116 and 118, the link 140 and trailing arms 116, 115 remain directly, but resiliently, connected.
  • the elastomer joints serve to cushion asymmetrical impact forces incurred when traversing rough surfaces . While the tires of the vehicle absorb such impacts and forces where the vehicle is equipped with tires (as opposed to skates, skis, etc.) , the resilience of the elastomer material provides further shock absorption capability to cushion tne forces imparted to the various mechanisms cf the vehicle.
  • Figure 8C illustrates the link 140, bushing 141 and 143, and trailing arm boss 117, 119 configuration when the left arm 116 is deflection, i. e. , a situation opposite that shown in Figure 5A.
  • the deflection of the elastomer material 149 in the two elastomer bushings 141, 143 will be seen to be opposite that shown in Figure 8A, where the trailing arms 116, 118 are deflected in the opposite direction.
  • the result is still a restorative force which urges the two trailing arms 116, 118 back to the neutral position illustrated in Figure 8B .
  • Figure 8D illustrates the clockwise and counterclockwise pivoting of the transverse link 140 about its link bushing cr attachment 138, as would occur during normal operation of the vehicle equipped with the link 140 and bushings 141, 143.
  • the operator of the vehicle need only swing his or her body inwardly toward the center of the arcuate path traveled by the vehicle, in order to overcome this centering force and accelerate the vehicle due to the principle of conservation of momentum, as discussed further above.
  • the restorative force developed by the two elastomer bushings 141, 143 is relatively easily overcome during vehicle operation, yet provides sufficient resistance tc restrict trailing arm travel beyond a certain point and to r.eid one vehicle in an upright position when parked.
  • the resistance cf tne bushings 141, 143 may be adjusted as desired by adjusting the inner and outer diameter of the elastomer material 149, the length cf the bushings 141 and 143, and/or the durometer cf the elastic material 149, as desired.
  • the present cambering vehicle and its novel yoke mechanis fcr controlling opposite arcuate motion cf tne twc trailing arms provides a more efficient and cleaner means of providing for the control cf such motion as required m such vehicles.
  • Tne present vehicle may be constructed m the same manner as tne yoke mechanism described above, i. e. , welded UP of conventional metal tuouiar stock, as snown in tne ⁇ rawing Figures.
  • Other construction means t ⁇ . g., stampings, carbon fiber and, cr other composites, etc. 1 may oe used fcr large scale production, if so desired
  • the present cambering vehicle and its vo.-:e provide a mucn needed improvement m efficiency of construction for sucn devices, with its operation providing excellent exercise, as well as transportation, fcr tne operator.
  • the yoke assembly is reblace ⁇ with a rigid transverse link having elastomer end bushings wnicn are installed m cooperating fittings witnin tne trailing arms No relative mechanical motion is permitted between any cf the rigid components of the link and trailing arms. Ratner, all relative motion is taken up Py the elastomer material within tne Dustings .
  • This provides several advantages, i. e., (1) no lubrication is required, as there is no relative motion between wearing parts; (2) the bushings constantly seek to return the trailing arms to a n ⁇ utra_ configuration wnere tne * are parallel to one anotne_ tr.__.__.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Vehicle Body Suspensions (AREA)
  • Automatic Cycles, And Cycles In General (AREA)
  • Finger-Pressure Massage (AREA)
  • Body Structure For Vehicles (AREA)
PCT/US2000/041844 1999-11-05 2000-11-03 Cambering vehicle and mechanism Ceased WO2001032470A2 (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
DE60025538T DE60025538T2 (de) 1999-11-05 2000-11-03 Vorrichtung für kippfahrzeug
AU36413/01A AU768971B2 (en) 1999-11-05 2000-11-03 Cambering vehicle and mechanism
JP2001534645A JP3853654B2 (ja) 1999-11-05 2000-11-03 キャンバリング車両およびその機構
CA002390224A CA2390224C (en) 1999-11-05 2000-11-03 Cambering vehicle and mechanism
EP00991929A EP1235709B1 (en) 1999-11-05 2000-11-03 Cambering vehicle and mechanism

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US09/434,371 1999-11-05
US09/434,371 US6220612B1 (en) 1999-11-05 1999-11-05 Cambering vehicle and mechanism

Publications (2)

Publication Number Publication Date
WO2001032470A2 true WO2001032470A2 (en) 2001-05-10
WO2001032470A3 WO2001032470A3 (en) 2002-01-10

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PCT/US2000/041844 Ceased WO2001032470A2 (en) 1999-11-05 2000-11-03 Cambering vehicle and mechanism

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EP (1) EP1235709B1 (https=)
JP (1) JP3853654B2 (https=)
CN (1) CN1132755C (https=)
AT (1) ATE315517T1 (https=)
AU (1) AU768971B2 (https=)
CA (1) CA2390224C (https=)
DE (1) DE60025538T2 (https=)
ES (1) ES2199096T3 (https=)
PT (1) PT1235709E (https=)
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE20119292U1 (de) 2001-11-19 2002-01-31 Liu, Yueh-Fen, Tan Tzu, Taichung Dreirad
USD495374S1 (en) 2003-06-23 2004-08-31 Unique Forces Company Limited Cambering vehicle having a trellis design
USD497957S1 (en) 2003-06-23 2004-11-02 Unique Forces Company Limited Cambering vehicle
US6880840B2 (en) 2003-06-23 2005-04-19 Unique Forces Company Limited Cambering vehicle having foldable structure
US6883814B2 (en) 2003-06-23 2005-04-26 Unique Forces Limited Cambering vehicle
US6908090B2 (en) 2003-06-23 2005-06-21 Unique Forces Company Limited Cambering vehicle having inclined pivot axle
US7438297B2 (en) 2003-12-09 2008-10-21 Products Of Tomorrow, Inc. Ski attachment for a cambering vehicle

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US6220612B1 (en) * 1999-11-05 2001-04-24 J. Gildo Beleski, Jr. Cambering vehicle and mechanism
US6795811B1 (en) * 2000-04-26 2004-09-21 Lee Epstein Method for investing working capital
TW518299B (en) * 2000-10-31 2003-01-21 Mel Ton Internat L L C Tricycle
TW497579U (en) * 2000-11-04 2002-08-01 Melton Internat L L C Tricycle
TW476289U (en) * 2000-11-29 2002-02-11 Melton Internat L L C Foldable scooter
US6485036B1 (en) * 2001-05-18 2002-11-26 The Toro Company Sulky for outdoor power equipment unit
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WO2001032470A3 (en) 2002-01-10
ATE315517T1 (de) 2006-02-15
DE60025538T2 (de) 2006-09-21
US20030090076A1 (en) 2003-05-15
EP1235709B1 (en) 2006-01-11
JP2003532571A (ja) 2003-11-05
US20040227318A1 (en) 2004-11-18
AU3641301A (en) 2001-05-14
US6499751B1 (en) 2002-12-31
JP3853654B2 (ja) 2006-12-06
US6976687B2 (en) 2005-12-20
EP1235709A2 (en) 2002-09-04
CN1132755C (zh) 2003-12-31
PT1235709E (pt) 2006-05-31
CA2390224C (en) 2005-09-06
CA2390224A1 (en) 2001-05-10
US6827358B2 (en) 2004-12-07
CN1414918A (zh) 2003-04-30
ES2199096T1 (es) 2004-02-16
US6220612B1 (en) 2001-04-24
DE60025538D1 (de) 2006-04-06
EP1235709A4 (en) 2003-05-07
ES2199096T3 (es) 2006-10-16

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