WO1997015461A1 - A wheel hub with a suspension and a use of such wheel hub - Google Patents

A wheel hub with a suspension and a use of such wheel hub Download PDF

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Publication number
WO1997015461A1
WO1997015461A1 PCT/DK1996/000444 DK9600444W WO9715461A1 WO 1997015461 A1 WO1997015461 A1 WO 1997015461A1 DK 9600444 W DK9600444 W DK 9600444W WO 9715461 A1 WO9715461 A1 WO 9715461A1
Authority
WO
WIPO (PCT)
Prior art keywords
hub
swivel
fork
bearing
wheel hub
Prior art date
Application number
PCT/DK1996/000444
Other languages
English (en)
French (fr)
Inventor
Jens Bilgrav Bach
Original Assignee
Jens Bilgrav Bach
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 Jens Bilgrav Bach filed Critical Jens Bilgrav Bach
Priority to US09/051,858 priority Critical patent/US6019435A/en
Priority to EP96934448A priority patent/EP0853552B1/en
Priority to AU72798/96A priority patent/AU7279896A/en
Priority to DE69607021T priority patent/DE69607021T2/de
Publication of WO1997015461A1 publication Critical patent/WO1997015461A1/en

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60BVEHICLE WHEELS; CASTORS; AXLES FOR WHEELS OR CASTORS; INCREASING WHEEL ADHESION
    • B60B9/00Wheels of high resiliency, e.g. with conical interacting pressure-surfaces
    • B60B9/005Comprising a resilient hub
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60BVEHICLE WHEELS; CASTORS; AXLES FOR WHEELS OR CASTORS; INCREASING WHEEL ADHESION
    • B60B27/00Hubs
    • B60B27/0005Hubs with ball bearings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60BVEHICLE WHEELS; CASTORS; AXLES FOR WHEELS OR CASTORS; INCREASING WHEEL ADHESION
    • B60B27/00Hubs
    • B60B27/02Hubs adapted to be rotatably arranged on axle

Definitions

  • the present invention relates to a wheel hub with a suspension, said wheel hub being designed to be fastened by one or more fastening elements to a body that is to be re ⁇ lieved of shocks and other pulsating loads, preferably a vehicle, said hub comprising a swivel axle around which a hub body is rotatably seated, a remaining part of a wheel construction being intended to be fastened to said hub body, and a resilient element being positioned between said fastening elements and said hub body.
  • US 3,072,169 describes a resilient wheel.
  • the wheel comprises a hub and a wheel structure.
  • the hub is divided into a non-resilient part and a resilient part, and the wheel structure is mounted on the resilient part.
  • the suspension of the wheel structure is such that the non-resilient part and the resilient part are mutually connected by elas ⁇ tic members which allow a mutual displacement ofthe hub and the wheel structure.
  • this resilient wheel described in the above-mentioned publication has disad ⁇ vantages.
  • the wheel constitutes an integral structure and may only with much diffi- culty be used for different applications.
  • both the part that is non-resilient and the part that is resilient must be constructed in such a manner that the elastic members may be fastened to these parts.
  • the non-resilient part and its mass are very big, which reduces the resilience.
  • the wheel guidance and steering are very unstable and ambiguous, both in horizontal and in vertical direction as the elastic ele- ments are part ofthe guidance and steering ofthe wheel.
  • the wheel hub comprises a hub that is hollow and an axle that extends through the hub.
  • the axle is intended to be fastened to a body to be suspended and the hub is rotatably seated around the axle.
  • a turning spring is mounted between the hub and the axle. In a resting position, a centre of the hub is positioned vertically below the axle. In a situation under load, the hub will swing upward and simultaneously swing forward or backward.
  • This resilient hub described in the above-mentioned publication has several important disadvantages.
  • the geometry of the resilience is not well-defined. It is not possible to determine whether the hub will swing forward or backward in a situation under load. This means that it is not possible to establish any steering properties.
  • In a situation under load there is further a risk of overloading the hub so that no resilience occurs because the hub is loaded to an extreme position.
  • the hub In a situation under load, the hub will further perform a swinging movement around the axle, which movement will consist of a vertical contribution and a horizontal contribution having the same size as the vertical contribution. This further reduces any steering geometry considerably.
  • a moment load on the axle will occur when mounted on applications to be suspended, and possibilities of using different resilient elements are limited.
  • a resilient wheel hub that is characterised in that the fasten ⁇ ing element extends from a carrier arm, that the swivel axle is pivotably secured to the carrier arm, and that the resilient element is positioned between the carrier arm and the swivel axle.
  • a wheel hub with these characteristics means that the design of the remaining part of the wheel structure that is to be relieved of shocks and other pulsating loads is entirely independent ofthe present invention.
  • the present invention may be used in combination with wheels for vehicles such as bicycles, wheelchairs, hospital beds, trolleys, etc.
  • the present invention may also 3
  • rollers e.g. for conveyor belts
  • transmission systems of different types e.g. belt drives.
  • the invention is particularly advantageous in that the non-resilient mass is very small.
  • the non-resilient mass is only composed of the swivel axle, the hub body, any bear ⁇ ings, and part of the resilient element.
  • the carrier arm with fastening elements form part of the resilient mass as the carrier arm and the fastening elements are secured to the body to be suspended.
  • a preferred embodiment of the invention is characterised in that the swivel axle is hollow and comprises a swivel bearing extending axially at an inner periphery of the swivel axle, that the carrier arm comprises a first bearing extending coaxially with the swivel bearing of the swivel axle, and that a bearing pin extends through both the swivel bearing ofthe swivel axle and the first bearing of the carrier arm.
  • the hub may be provided with one or more bearing pegs extending into the swivel bearing of the swivel axle. Both the bearing pin and any alternative bearing pegs may be provided with for example a thread for fastening in the carrier arm or in the swivel axle.
  • the invention may be used with one fastening element or two fastening elements that extend outward from the carrier arm in order to be fastened to the body to be sus ⁇ pended.
  • the fastening element may be constituted by different types of fastening means, preferably a bolt.
  • the fastening element may be a different form of screw connection, a through-going axle with a spring lock or other means.
  • the resilient element may be of different types. Thus, it may a solid, resilient element such as a rubber member or a turning spring. It may also be a viscous element such as a hydraulic or pneumatic dampening element. A combination of elements is also pos ⁇ sible in order to combine characteristics of the different types of elements, such as a combination of a rubber member and a spring.
  • the rubber member has a certain self dampening and typically has a progressive character, whereas the resilient character of a turning spring is linear and has little self dampening. It will further be possible, e.g. with hydraulic or pneumatic suspension, to adjust the resilience by making it possible, in a flexible container, to adjust the amount of the liquid or the gas, which is contained in the flexible container and which establishes the resilience.
  • the flexible container may alternatively contain a specific amount of liquid or gas, which amount is in connection with an external flexible container.
  • the carrier arm is mounted on the swivel axle by means of a bearing peg extending through a first bearing in the carrier arm and through a swivel bearing in the swivel axle.
  • the carrier arm may be a fork with two fork branches and a fork head. If the swivel bearing in the swivel axle extends along it in the entire extension of the swivel axle, the fork branches will extend on either side of the swivel bearing and thus on either side of the swivel axle, and the fork head will extend parallel with the swivel axle and connect the two fork branches on either side of the swivel axle.
  • the fork branches will still extend on either side of the swivel bearing in the swivel axle but this is necessarily not so over the entire extension ofthe swivel axle.
  • the hub body is preferably rotatably seated around the swivel axle by means of one or several ball bearings. It will also be possible to use other types of bearings such as roller bearings or plain bearings. As mentioned, the hub body may constitute the hub of many different types of wheels. They may be wheels having a fixed wheel disc as well as wheels having spokes.
  • figs. IA and IB are a plan view parallel to an axis of a hub, respectively a partial sec- tional view perpendicular to an axis of a hub, in a first embodiment of a hub according to the invention
  • figs. 2A and 2B are plan views parallel to the axis ofthe hub, the hub being mounted in a front fork of a bicycle in a first unloaded situation and a second loaded situation
  • figs. 3A and 3B are sectional views perpendicular to the axis of the hub in the first unloaded situation and the second loaded situation, figs.
  • FIGS. 4A and 4B are a sectional view perpendicular to he axis ofthe hub, respectively a partial sectional view parallel to the axis of the hub.
  • figs. 5A and 5B are a sectional view perpendicular to the axis of the hub, respectively a sectional view parallel to the axis of the hub.
  • figs. 6A and 6B are a sectional view pe ⁇ endicular to the axis of the hub, respectively a sectional view parallel to the axis of the hub.
  • 6C and 6D are a sectional view of a sleeve and a sectional view parallel to the axis of the hub in an alternative third and preferred third embodiment of a hub according to the invention
  • figs. 7A and 7B are a sectional view pe ⁇ endicular to the axis of the hub, respectively a sectional view parallel to the axis of the hub
  • fig. 8A and fig. 8B are a plan view parallel to the axis of the hub, respectively a sec ⁇ tional view parallel to the axis of the hub, in a fifth embodiment of a hub ac ⁇ cording to the invention
  • figs. 9 A and 9B are a sectional view pe ⁇ endicular to the axis of the hub, respectively a sectional view parallel to the axis of the hub. in a sixth embodiment of the hub according to the invention.
  • Fig. IA and fig. IB illustrate an embodiment of a hub according to the invention.
  • the shown embodiment of the hub is intended for use in a wheel with spokes (not shown).
  • the hub comprises a carrier arm 1 provided with a threaded hole 2 for mounting a fastening element such as a screw element (not shown).
  • the fastening elements are intended for fastening the hub to a body to be suspended.
  • the carrier arm constitutes a fork with fork branches 3 and a fork head 4.
  • the fork branches 3 are provided with first bearings 5 or altematively threaded for the mounting of a guiding pin.
  • the hub further comprises a swivel axle 6.
  • the swivel axle 6 in the embodiment shown consti ⁇ tutes a cylinder and is hollow having an inner periphery 7.
  • the fork head 4 of the car- rier arm 1 extends parallel with an axis A of the hub through the swivel axle 6 within the inner periphery 7.
  • the fork branches 3 extend on a first side 8 and a second side 9, respectively, ofthe swivel axle 6.
  • the swivel axle 6 is provided with a swivel bearing 10.
  • a bearing pin 11, or alterna- tively a bearing peg, extends parallel with the axis A of the hub through the first bearings 5 in the fork branches 3 and through the swivel bearing 10 in the swivel axle 6.
  • the swivel axle 6 has a thickness t of material that is largest around the swivel bearing 11 in order to give increased strength around the swivel bearing 10.
  • a hub body 12 is rotatably seated around the swivel axle by means of ball bearings 13.
  • the hub body 12 in the embodiment shown also constitutes a cylinder.
  • the hub body 12 comprises a flange 14 with holes 15 for mounting spokes (not shown) to build a wheel, e.g. for a bicycle or a wheelchair.
  • a resilient element 16 in the form of a rubber member is positioned between the car- rier arm 1 and the inner periphery 7 of the swivel axle 6.
  • the hub is loaded, and the rubber member 16 is consequently deformed corresponding to a resilient effect on the body (not shown) to which the hub, by means of the carrier arm in the hub, is intended to be fastened and which is to be suspended.
  • Fig. 2A and fig. 2B illustrate a hub such as illustrated and described in the preceding figures, mounted in a front fork 17 of a bicycle.
  • Fig. 2A illustrates a first unloaded situation ofthe hub and fig. 2B illustrates a second loaded situation ofthe hub.
  • the rubber member 16 positioned between the carrier arm 1 and the inner periphery 7 of the swivel axle 6 is undeformed corresponding to the wheel and consequently the hub not being loaded either by a cyclist on the bicycle or by a roughness on the ground.
  • the rubber member 16 is deformed corresponding to a cyclist sitting on the bicycle and/or the wheel passing a roughness on the ground.
  • the front fork 17 and the carrier arm 1 are in the same position.
  • the swivel axle 6, the hub body 12, the ball bear ⁇ ings 13 and partly the rubber member 16 are displaced as a consequence of the load and thus constitute the non-resilient mass ofthe hub.
  • the figures illustrate that the swivel axle is displaced relative to the carrier arm during a resilient movement.
  • the displacement consists of both a horizontal displacement h and a vertical displacement v.
  • the vertical displacement v is dependent on the size of the load to which the wheel and the hub are exposed.
  • the displacement is further de ⁇ pendent on the dimensions ofthe individual parts ofthe hub, on the mutual geometric relations between the individual parts of the hub as well as the type of resilient ele- ment used.
  • the vertical displacement v will be in a range up to 6 mm when a rubber member is used as resilient element.
  • the horizontal displacement h is de ⁇ pendent on the load to which the wheel and the hub are exposed, on the dimensions of the individual parts in the hub, on the mutual geometric relations between the individ- ual parts of the hub as well as on the type of resilient element used.
  • the horizontal displacement h consists in a displacement backward relative to the driving direction B ofthe bicycle.
  • the size ofthe horizontal displacement h is very limited and in the case of an ordinary bicycle wheel and hub will be in a range up to one fourth of the vertical displacement v, i.e. up to 1.6 mm, when a rubber element is used as resil- ient element.
  • Fig. 3A and fig. 3B illustrate the same two situations as in fig. 2A and fig. 2B, an un ⁇ loaded situation and a loaded situation of the hub, respectively.
  • the fork head 4, which is part ofthe carrier arm 1 is illustrated in the sectional view.
  • the rubber mem- ber 16 contacts a lowest side 19 of the fork head 4 and a lowest surface 20 ofthe inner periphery 7 ofthe swivel axle 6. It is seen, as mentioned, that the carrier arm 1 does not change its position when the hub is loaded.
  • a centre cl ofthe fastening of the fastening elements (not shown) to the front fork 17 see figs.
  • Fig. 4A and fig. 4B illustrate an alternative embodiment of a hub according to the in ⁇ vention.
  • the difference is that the rubber member 16 as the resilient element has been replaced by a turning spring 21.
  • the turning spring 21 is mounted around the bearing pin 11 extending through the first bearings 5 in the fork branches 3 and through the swivel bearing 10 in the swivel axle 6.
  • a first part 22 of the turning spring 21 contacts the lowest side 19 of the fork head 4 ofthe carrier arm 1.
  • a second part 21 contacts the lowest side 20 of the inner periphery 7 of the swivel axle 6.
  • the fastening elements consist of screws 24, which form part of the body to be suspended.
  • the screws 24 extend into a thread 25 in the fork head 4 of the carrier arm 1.
  • a bolt or an unthreaded transverse pin may be used.
  • Fig. 5A and fig. 5B illustrate a second embodiment of a hub according to the inven ⁇ tion.
  • the hub consists of a carrier arm 1, a swivel axle 6, a bearing peg 11, a hub body 12 and ball bearings 13.
  • the carrier arm 1 in the embodiment shown likewise constitutes a fork having a fork head 4 and fork branches 3.
  • the swivel axle 6 is also hollow, and the fork head 4 also extends parallel with the axis A of the hub through the swivel axle 6 inside the inner periphery 7.
  • the fork branches 3 extend on a first side 8 of the swivel axle 6 and be ⁇ tween swivel bearings 10 that extend along the inner periphery 7 of the swivel axle 6.
  • the fork branches 3 do not occupy any space at the second side 9 of the swivel axle 6.
  • the carrier arm 1 might comprise a single fork branch 3 extend ⁇ ing between the swivel bearings 10 so that the fork branches do not occupy any space at the first side 8 nor at the second side 9 of the swivel axle 6.
  • the term fork branch is kept for this altemative embodiment irrespective of the fact that in principle a fork comprises at least two branches.
  • Fig. 6A, fig. 6B illustrate a third embodiment of a hub according to the invention.
  • the hub illustrated in fig. 6A and fig. 6B is substantially identical to the hub illustrated in figures 1A-1B. The difference is that the hub body 12 extends in axial direction past the fork branch 3, which extends along the first side 8 of the swivel axle 6. This em ⁇ bodiment is suitable for one-sided fastening, only the fork branch 3 extending along the second side 9 of the swivel axle 6 being intended for fastening to the body to be suspended.
  • the hub is provided with a locking ring 30.
  • a wheel (not shown) may be inserted around the hub body 12 and be fastened to the hub by means of the locking ring 30.
  • the hub body 12 has an outer side 31 provided with a tooth gearing 32 in or ⁇ der to establish a mesh between a wheel and the hub.
  • the hub illustrated in fig. 6A and fig. 6B may, for example, be used for wheelchairs.
  • the threaded hole 2 has been replaced by a hole 2 that constitutes a bearing, e.g. for an axle (not shown) of a spring lock, said axle being fastened to the body to be sus ⁇ pended.
  • the hole 2 constituting a bearing for the axle is provided with a tooth gearing 33. If the axle is provided with a cross-section corresponding to the hole 2, the tooth gearing 33 of the hole 2 will prevent a rotation of the carrier arm 1 in relation to the axle, and consequently in relation to the body to be suspended.
  • Fig. 6C and fig. 6D illustrate a sleeve 34 and an alternative third and preferred em ⁇ bodiment of a hub according to the invention.
  • the sleeve 34 is intended to extend in- wardly in the body to be suspended.
  • the sleeve 34 is provided with a hole 35 through which an axle (not shown) may extend.
  • the sleeve 34 is further provided with a collar 36.
  • the carrier arm 1 on the sleeve is provided with a corresponding collar 37.
  • An axle (not shown) intended to extend through the hole 35 in the sleeve 34 is also intended to extend through the hole 2 in the carrier arm 1.
  • Holes 15 for spokes are provided in the hub body 12 itself as an altemative to providing holes for spokes in a flange 14 (see fig. IA and fig. IB among others).
  • the sleeve 34 and the hub illustrated in fig. 6C, respectively fig. 6D, may also be used for wheelchairs.
  • the collar 37 on the 10 carrier arm 1 is intended to be in mesh with the collar 36 on the sleeve 34.
  • the mutual mesh of the collar 37 on the carrier arm 1 and the collar 36 on the sleeve 34 prevent a rotation of the carrier arm 1 in relation to the axle (not shown), and consequently also in relation to the body to be suspended.
  • Fig. 7A and fig. 7B illustrate a fourth embodiment of a hub according to the invention.
  • the resilient element 16 in this embodiment is a turning spring 21.
  • Part of the bearing pin 11 extends past the fork branches 3 in the embodiment shown.
  • the part of the bearing pin 1 1 extending past the fork branches 3 is intended to extend inward in a hole (not shown) in the body to be suspended.
  • the bearing pin 11 will prevent a rota ⁇ tion of the carrier arm 1 in relation to an axle (not shown) that extends through the hole 2, and thus in relation to the body to be suspended.
  • Fig. 8A and fig. 8B illustrate a fifth embodiment of a hub according to the invention.
  • the hub is fastened to a trolley wheel, which forms part of the body to be suspended.
  • the hub comprises the carrier arm 1 , the swivel axle 6, the swivel bearing 10, the ball bearings 13 and the hub body 12.
  • the hub body with a tread 26 in the embodiment shown constitutes the actual wheel of the trolley.
  • the car ⁇ rier arm 1 in the embodiment shown is composed of the fork head 4, and the fork branches 3 are formed by struts extending to a pivot joint 27 on the trolley.
  • a bolt 28 extending through the fork head 4
  • the fork head 4 is fastened to the struts 3, which form the fork branches.
  • a bearing pin 11 extends from the struts 3 through the pivot joint 10 along the inner periphery 7 ofthe swivel axle 6.
  • Fig. 9A and fig. 9B illustrate a sixth embodiment ofthe invention.
  • the hub is fastened to a roller, e.g. for a belt drive, which forms part ofthe body to be suspended.
  • the hub comprises the carrier arm 1, the swivel axle 6, the swivel joint 10, the ball bearings 13 and the hub body 12.
  • the hub body in the embodiment shown constitutes the actual roller, which is provided with a track 29.
  • the carrier arm 1 in the embodiment shown is composed of the fork head 4, and the fork branch 3 is formed by carrier element 3 ofthe roller.
  • a bearing pin 11 extends from the carrier element 3 through the swivel bearing 10 along the inner periphery 7 ofthe swivel axle 6.
  • the wheel hub according to the invention in the embodiments shown is illustrated with reference to specific embodiments. However, it will be possible to provide the wheel hub according to the invention in other embodiments than those shown. It will further be possible to use other resilient elements than a rubber member and a turning spring such as illustrated.
  • the hubs illustrated in the embodiments shown are all hubs forming parts of wheels having either a fixed wheel disc, spokes, or a running track for a belt drive or a conveyor belt.
  • the wheel disc may constitute a separate part, which may be mounted on, respectively dismounted from the hub.
  • wheels that constitute transport rollers e.g. for conveyor belts, or driving wheels, e.g. for belt drives.
  • Altemative resilient elements could be hydraulic or pneumatic resilient elements.
  • Al ⁇ temative resilient elements may be contained in a flexible container so that the resil ⁇ ient character may be adjusted by adding more or less of the fluid or gas contained in the flexible container that contains the hydraulic or pneumatic resilient element.
  • Alter ⁇ native resilient elements may also be contained in a non-flexible container, e.g. when the resilient element is flexible itself, such as a gas. It will also be possible to combine hydraulic and pneumatic resilient elements, respectively flexible and non-flexible containers.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Tires In General (AREA)
  • Handcart (AREA)
  • Axle Suspensions And Sidecars For Cycles (AREA)
  • Rolling Contact Bearings (AREA)
PCT/DK1996/000444 1995-10-23 1996-10-23 A wheel hub with a suspension and a use of such wheel hub WO1997015461A1 (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
US09/051,858 US6019435A (en) 1995-10-23 1996-10-23 Wheel hub with a suspension and a use of such wheel hub
EP96934448A EP0853552B1 (en) 1995-10-23 1996-10-23 A wheel hub with a suspension and a use of such wheel hub
AU72798/96A AU7279896A (en) 1995-10-23 1996-10-23 A wheel hub with a suspension and a use of such wheel hub
DE69607021T DE69607021T2 (de) 1995-10-23 1996-10-23 Radnabe mit aufhängung und anwendung dieser radnabe

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DK1189/95 1995-10-23
DK199501189A DK172452B1 (da) 1995-10-23 1995-10-23 Hjulnav med affjedring og anvendelse af sådant hjulnav

Publications (1)

Publication Number Publication Date
WO1997015461A1 true WO1997015461A1 (en) 1997-05-01

Family

ID=8101985

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/DK1996/000444 WO1997015461A1 (en) 1995-10-23 1996-10-23 A wheel hub with a suspension and a use of such wheel hub

Country Status (6)

Country Link
US (1) US6019435A (da)
EP (1) EP0853552B1 (da)
AU (1) AU7279896A (da)
DE (1) DE69607021T2 (da)
DK (1) DK172452B1 (da)
WO (1) WO1997015461A1 (da)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5909931A (en) * 1996-02-20 1999-06-08 Shimano, Inc. Bicycle hub
WO2012104691A1 (en) 2011-02-06 2012-08-09 Softwheel Ltd. Rotatable damper
US9834036B2 (en) 2011-05-11 2017-12-05 Soft Wheel Ltd. Selective wheel suspension system
US9868520B1 (en) 2014-03-10 2018-01-16 Softwheel Ltd. Landing gear apparatuses and applications thereof
US10173463B2 (en) 2013-04-20 2019-01-08 Softwheel Ltd Motorized wheel with suspension

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US6135469A (en) * 1999-05-10 2000-10-24 Link Mfg., Ltd. Tag axle mounting system
FR2807712A1 (fr) * 2000-04-17 2001-10-19 Philippe Cusson Roue a suspension integree
US6311993B1 (en) 2000-10-18 2001-11-06 Link Mfg., Ltd. Lift axle suspension mounting system
US6702399B2 (en) 2001-04-30 2004-03-09 Morten Andre Lund Shock absorbing bicycle wheel hub
JP3613215B2 (ja) * 2001-05-23 2005-01-26 新家工業株式会社 車輪用ハブおよびこの車輪用ハブを装備した車輪
WO2005110777A2 (en) * 2004-05-10 2005-11-24 Lund Morten A Wheel shock absorbing apparatus
US8070633B2 (en) * 2007-04-26 2011-12-06 Bikebiz, III, Inc. Eccentric bottom bracket assembly
US7802804B1 (en) * 2008-06-30 2010-09-28 John Lawson Wobble-bearing axle assembly for velocipedes and exercise machines
WO2014009261A1 (en) 2012-07-09 2014-01-16 Royalty Bugaboo Gmbh A luggage item, a luggage item system, a luggage item adaptor
EP3051972B1 (en) 2013-10-03 2017-08-16 Royalty Bugaboo GmbH A luggage assembly and a frame
DE102015105324A1 (de) * 2015-04-08 2016-10-13 Ujet Vehicles S.À.R.L. Motorgetriebenes Fahrzeug, insbesondere Zweirad-Fahrzeug
DE102019132777B3 (de) * 2019-12-03 2021-04-01 Heinz Günter Golz Radnabe für Rollstühle

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US2258359A (en) * 1939-12-21 1941-10-07 Bassick Co Wheel mounting
US3664710A (en) * 1969-12-04 1972-05-23 Miracle Hub And Wheel Inc Resilient hub
US3727983A (en) * 1970-09-23 1973-04-17 Miracle Hub And Wheel Inc Wheel with resilient hub

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US732751A (en) * 1903-04-30 1903-07-07 Herman A Krezdorn Spring-hub.
US1394882A (en) * 1920-02-12 1921-10-25 Jeang Ying Hung Vehicle-wheel
US2258359A (en) * 1939-12-21 1941-10-07 Bassick Co Wheel mounting
US3664710A (en) * 1969-12-04 1972-05-23 Miracle Hub And Wheel Inc Resilient hub
US3727983A (en) * 1970-09-23 1973-04-17 Miracle Hub And Wheel Inc Wheel with resilient hub

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5909931A (en) * 1996-02-20 1999-06-08 Shimano, Inc. Bicycle hub
WO2012104691A1 (en) 2011-02-06 2012-08-09 Softwheel Ltd. Rotatable damper
US9127745B2 (en) 2011-02-06 2015-09-08 Softwheel, Ltd. Rotatable damper
US9834036B2 (en) 2011-05-11 2017-12-05 Soft Wheel Ltd. Selective wheel suspension system
US10173463B2 (en) 2013-04-20 2019-01-08 Softwheel Ltd Motorized wheel with suspension
US9868520B1 (en) 2014-03-10 2018-01-16 Softwheel Ltd. Landing gear apparatuses and applications thereof

Also Published As

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DE69607021D1 (de) 2000-04-13
DK172452B1 (da) 1998-08-10
DE69607021T2 (de) 2000-11-16
AU7279896A (en) 1997-05-15
US6019435A (en) 2000-02-01
EP0853552B1 (en) 2000-03-08
EP0853552A1 (en) 1998-07-22
DK118995A (da) 1997-04-24

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