WO2006040563A1 - Amphibious vehicle speed change transmission arrangement - Google Patents

Amphibious vehicle speed change transmission arrangement Download PDF

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Publication number
WO2006040563A1
WO2006040563A1 PCT/GB2005/003944 GB2005003944W WO2006040563A1 WO 2006040563 A1 WO2006040563 A1 WO 2006040563A1 GB 2005003944 W GB2005003944 W GB 2005003944W WO 2006040563 A1 WO2006040563 A1 WO 2006040563A1
Authority
WO
WIPO (PCT)
Prior art keywords
vehicle
speed change
change transmission
rotation
amphibious vehicle
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/GB2005/003944
Other languages
English (en)
French (fr)
Inventor
Simon James Longdill
Hans Weekers
Stephen John Briggs
Glen Michael Jeffery
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.)
Gibbs Technologies Ltd
Original Assignee
Gibbs Technologies Ltd
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 Gibbs Technologies Ltd filed Critical Gibbs Technologies Ltd
Priority to KR1020077010912A priority Critical patent/KR101046645B1/ko
Priority to CN200580035401XA priority patent/CN101068694B/zh
Priority to AU2005293379A priority patent/AU2005293379A1/en
Priority to JP2007536259A priority patent/JP4763705B2/ja
Priority to EP05792807A priority patent/EP1807271B1/en
Priority to DE602005015609T priority patent/DE602005015609D1/de
Priority to CA2583219A priority patent/CA2583219C/en
Publication of WO2006040563A1 publication Critical patent/WO2006040563A1/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60FVEHICLES FOR USE BOTH ON RAIL AND ON ROAD; AMPHIBIOUS OR LIKE VEHICLES; CONVERTIBLE VEHICLES
    • B60F3/00Amphibious vehicles, i.e. vehicles capable of travelling both on land and on water; Land vehicles capable of travelling under water
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60FVEHICLES FOR USE BOTH ON RAIL AND ON ROAD; AMPHIBIOUS OR LIKE VEHICLES; CONVERTIBLE VEHICLES
    • B60F3/00Amphibious vehicles, i.e. vehicles capable of travelling both on land and on water; Land vehicles capable of travelling under water
    • B60F3/0007Arrangement of propulsion or steering means on amphibious vehicles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60FVEHICLES FOR USE BOTH ON RAIL AND ON ROAD; AMPHIBIOUS OR LIKE VEHICLES; CONVERTIBLE VEHICLES
    • B60F3/00Amphibious vehicles, i.e. vehicles capable of travelling both on land and on water; Land vehicles capable of travelling under water
    • B60F3/0061Amphibious vehicles specially adapted for particular purposes or of a particular type
    • B60F3/0069Recreational amphibious vehicles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60FVEHICLES FOR USE BOTH ON RAIL AND ON ROAD; AMPHIBIOUS OR LIKE VEHICLES; CONVERTIBLE VEHICLES
    • B60F2301/00Retractable wheels
    • B60F2301/04Retractable wheels pivotally

Definitions

  • the present invention relates to an amphibious vehicle capable of powered travel on land and water.
  • the present invention relates in particular, but not exclusively, to an amphibious vehicle in which a user sits astride the vehicle in the manner of a motorcycle, jet ski, quad bike, or the like.
  • Amphibious vehicles capable of powered travel on both land and water are known.
  • a prime mover such as an engine or electric motor
  • a marine propulsion unit to propel the vehicle on water and to provide drive to one or more road wheels for travel on land.
  • the power train of an amphibious vehicle is often more complex than that of a conventional road going vehicle or marine only craft. This can give rise to difficulties in designing a power train to be accommodated in the limited available space, whilst also ensuring that the weight distribution is satisfactory for both land and marine usage. This problem is particularly acute for smaller "sit-astride" type amphibious vehicles that are similar in form to motorcycles, jet skis, or quad bikes. Such vehicles tend to have narrower, taller bodywork that makes it difficult to accommodate a conventional amphibious vehicle power train.
  • an amphibious vehicle having the features defined in claim 1. It is a particular advantage of the present invention that the transmission can be positioned either above or below the axis of the prime mover output shaft, this enables the overall length of the power train to be reduced without unduly increasing the overall width of the power train.
  • the invention is particularly applicable for sit-astride type amphibious vehicles in which the engine compartment is generally thinner and taller than in other types of amphibious vehicles.
  • an amphibious vehicle have the features set out in claim 24.
  • Figure 1 is a schematic, partly sectioned, rear view of a "sit-astride" amphibious vehicle in accordance with the invention
  • Figure 2 is a schematic side elevation of a power train for use in the vehicle of Figure 1 ;
  • Figure 3 is a schematic plan view of the power train of Figure 2;
  • Figures 4A to 4E are cross sectional views through a transfer gearbox of the power train of Figures 2 and 3, taken on line A-A of Figure 3;
  • Figure 5 is a partial, schematic view from the rear of the power train of Figures 2 and 3, showing a modification to the drive line;
  • Figure 6 is a view similar to that of Figure 2, showing a further embodiment of a power train for use in an amphibious vehicle in accordance with the invention.
  • Figure 7 is a view similar to that of Figures 2 and 6, showing a still further embodiment of a power train for use in an amphibious vehicle in accordance with the invention.
  • the vehicle 10 is a "sit-astride" type of vehicle in which a user 12 sits astride a saddle 14, in a manner similar to that of a motorcycle, jet ski, quad bike or the like.
  • the vehicle 10 has two driven road wheels 16 at the rear.
  • the road wheels 16 are mounted such that they can be moved between a retracted position in which they are elevated for use of the vehicle in water (as shown in Figure 1 ) and a protracted position in which the wheels are aligned generally vertically, such that the main body 18 of the vehicle can be supported clear of the ground on the wheels.
  • Any suitable wheel retraction apparatus can be used to mount the rear wheels 16.
  • the rear wheels 16 may be mounted in accordance with the arrangement disclosed in International patent application No.
  • references to "vertical” or “vertically” throughout this specification, including the claims, should be understood as relating to a direction from top to bottom (or vice versa) of the vehicle when it is supported by its wheels or by its hull in an orientation conventional for locomotion; rather than a direction that is necessarily orthogonal to the horizontal.
  • the terms height, width and length of the vehicle, should be construed accordingly.
  • the vehicle has longitudinal and transverse axes.
  • the longitudinal axis extends substantially perpendicular to the vertical, through a point substantially at the centre of the width and height of the vehicle, from front to back and vice versa.
  • the transverse axis extends substantially perpendicular to the vertical, through a point substantially at the centre of the length and height of the vehicle, from left to right and vice versa.
  • the vehicle 10 may also be provided with a further road wheel or wheels (not shown) towards the front of the vehicle.
  • the front wheel or wheels may also be capable of being moved between retracted and protracted positions and will be adapted to steer the vehicle on land in a manner well known in the art.
  • the vehicle 10 has two front wheels (not shown).
  • the main body 18 of the vehicle has bodywork 20 forming a compartment 22 for housing at least part of a power train (indicated generally at 24 in Figure 2) for the vehicle 10.
  • a power train indicated generally at 24 in Figure 2
  • the compartment 22 tends to be rather narrow and tall in order that the users legs can be accommodated on either side.
  • a first embodiment of a power train 24 for use with the vehicle 10 shown in Figure 1 can be seen in Figures 2 and 3.
  • the power train 24 includes a prime mover 26, a transfer box 28, a bevel gear box 30, a speed change transmission 32, a rear differential 34 and a marine propulsion unit 36.
  • the prime mover 26 will typically be an internal combustion engine but could be any suitable type of prime mover, such as an electric motor or a hybrid engine and motor combination, for example.
  • the prime mover 26 provides drive to both the rear wheels 16 of the vehicle and the marine propulsion unit 36.
  • the prime mover 26 is located towards the front of the vehicle and has an output shaft 38 that faces the rear of the vehicle for connection with the transfer box 28. Where the prime mover 26 is an engine, the output shaft may be the crankshaft of the engine. It will be noted that the axis of rotation of the prime mover output shaft 38 extends in a longitudinal direction of the vehicle. In the present embodiment, the axis of rotation of the prime mover output shaft is inline with, or at least parallel to, the longitudinal axis of the vehicle, as indicated at X in Fig. 3. However, it will be appreciated that this need not be the case.
  • the prime mover could be mounted so that the axis of rotation of its output shaft is inclined to the longitudinal axis of vehicle. Indeed, the prime mover 26 could be mounted transversely so that the axis of rotation of the prime mover output shaft 38 extends in a lateral direction of the vehicle, as indicated at Z in Fig. 3.
  • a main drive shaft 40 is connected between the output shaft 38 of the prime mover and an input or primary shaft 42 of the transfer box. Where the prime mover is an engine, the main drive shaft 40 may be attached to a flywheel (not shown) mounted to the prime mover output shaft 38 in a manner well known in the art.
  • the transfer box 28 has two output shafts, a first land drive output shaft 44 is connected to an input shaft 46 of the bevel gear box30 by a further drive shaft 48.
  • a second output shaft 50 of the transfer box comprises a marine propulsion output shaft and is connected to the marine propulsion unit 36 by a yet further drive shaft 52.
  • the transfer box 28 is arranged to selectively couple drive from the prime mover 26 to the road wheels 16 and/or the marine propulsion unit 36.
  • the transfer box 28 also includes a reverse gear mechanism to enable the direction of drive to the road wheels 16 to be reversed.
  • the transfer box 28 can be seen in Figs 4A to 4E.
  • the output shaft 38 of the prime mover is connected to the primary or input shaft 42 of the transfer box 28.
  • An input gear 54 is mounted to and rotates with the primary shaft 42.
  • One end of the primary shaft is supported for rotation in the casing 56 of the transfer box 28 whilst the other end is in rotational engagement with the land drive output shaft 44.
  • a first dog clutch 58 enables the primary shaft 42 and the land drive output shaft 44 to be coupled together as shown in Figs 4B and 4D to transfer drive to the bevel gear box 30, which is also shown schematically in Fig 4A.
  • An intermediate gear 60 is mounted to a secondary shaft 62, which is itself mounted for rotation in the casing 56 of transfer box 28 at either end.
  • the intermediate gear 60 is in constant mesh with the input gear 54 and is mounted for rotation with, or may be formed on, the secondary shaft 62.
  • a reverse input gear 64 is also mounted for rotation with, or may be formed on, the secondary shaft 62.
  • a reverse idler gear 66 is in constant mesh with the reverse input gear 64 and is rotatably supported on an idler shaft 68.
  • a reverse land drive output gear 70 is associated with a movable selector portion of the first dog clutch 58. The moveable selector portion of the first dog clutch 58 is slidably engaged with the land drive output shaft 44 by means of splines 45. As shown in Fig.
  • the selector portion of the first dog clutch 58 can be moved to bring the reverse land drive output gear 70 into mesh wjth the reverse idler gear 66 to enable drive to be transferred from the output shaft 38 of the prime mover to the bevel gear box 30 but in a reverse direction.
  • a marine propulsion input gear 72 is mounted to a marine propulsion input shaft 74 that is rotationally supported at one end in the transfer box casing 56. The other end of the marine propulsion input shaft 74 rotationally engages with the marine propulsion output shaft 50.
  • a second dog clutch 78 is provided to enable the marine propulsion input shaft 74 and the marine propulsion output shaft 50 to be rotationally coupled. With the second dog clutch 78 engaged, as shown ih Figs. 4D & 4E, drive is transferred from the prime mover output shaft 38 via the input gear 54, the intermediate gear 60, the marine propulsion input gear 72 and the second dog clutch 78 to the marine propulsion output shaft 50.
  • Fig. 4A shows the transfer box in neutral with both the first and second dog clutches 58, 78 disengaged and no reverse gear selected.
  • Fig. 4B shows the transfer box with forward drive to the road wheels only (as indicated by arrow A) selected. In this case, the first dog clutch 58 is engaged and the second dog clutch 78 disengaged.
  • FIG. 4C shows the moveable selector portion of the first dog clutch 58 moved such that the reverse land drive output gear 70 is engaged with the reverse idler gear 66 and with the second dog clutch 78 disengaged.
  • This arrangement provides reverse drive to the road wheels 16 only.
  • Fig. 4D shows both dog clutches 58, 78 engaged to provide drive to both the road wheels 16 and the marine propulsion unit 36.
  • Fig. 4E shows the second dog clutch 78 engaged but the first dog clutch 58 disengaged and no reverse gear selected.
  • the transfer box 28 may also include a reduction gearbox type arrangement, having a ratio of 2:1 for example, in communication with the marine propulsion unit 36.
  • the land drive output shaft 44 of the transfer box 28 is connected to an input shaft 46 of the bevel gear box 30 by a drive shaft 48.
  • the bevel gear box 30 comprises at least a pair of bevel gears 80, 82 arranged to turn the direction of the drive output from the transfer box through 90 degrees.
  • a first bevel gear 80 is rotationally fast with the bevel gear box input shaft 46 whilst the second bevel gear 82 is rotationally fast with an output shaft 84 of the bevel gearbox.
  • the output shaft 84 of the bevel gear box projects upwardly and has an axis of rotation Y that extends generally in a vertical direction of the vehicle.
  • the speed change transmission 32 is positioned above the bevel gear box 30 and has an input shaft 86 and an output shaft 88 both of which extend in a downward direction of the vehicle.
  • the input shaft 86 of the speed change transmission is positioned in line with and is connected directly to the output shaft 84 of the bevel gear box.
  • the axes of rotation of the input and output shafts 86, 88 of the speed change transmission are orthogonal to a plane that extends both in a longitudinal and a lateral direction of the vehicle.
  • the prime mover 28 is positioned such that the axis of rotation of its output shaft 38 is aligned generally horizontally and the axes of rotation of the input and output shafts 86, 88 of the speed change transmission are orthogonal to a plane that includes the axis of rotation of the prime mover output shaft 38.
  • the axes of rotation of the speed change transmission input and output shafts 86, 88 need not be orthogonal to a plane that includes the axis of rotation of the prime mover output shaft.
  • the axis of rotation of the speed change transmission input shaft 86 can also be arranged at other angles, such as might be required by the internal configuration of the vehicle.
  • the axis of rotation can be arranged at an angle of between 45 and 90 degrees to the transverse and longitudinal plane of the vehicle, such as at 60 degrees to said plane.
  • the output shaft 88 of the speed transmission 32 can be arranged parallel to the input shaft 86 or at any other required angle.
  • the speed change transmission 32 is a continuously variable transmission (CVT).
  • CVT continuously variable transmission
  • the CVT comprises a primary pulley 90 associated with the input shaft 86, a secondary pulley 92 associated with the output shaft 88, and a drive belt 94 extending between the two pulleys.
  • the speed change transmission is a CVT
  • the transmission can be of any suitable type.
  • the speed change transmission can be a manual, sequential manual or automated manual gearbox, it may also be an automatic or semi-automatic gearbox.
  • the output shaft 88 of the CVT is connected to the differential 34 which drives the two rear wheels 16 by means of drive shafts 96, 98.
  • the input to the differential is positioned in line with the output shaft 88 of the transmission 32 enabling the output shaft of the transmission 88 to be connected, either directly or by means of one or more intermediate shafts, to an input shaft of the differential.
  • drive between the transmission output shaft 88 and the differential can be interconnected using any suitable means.
  • Figure 5 shows schematically an arrangement which allows the differential 34 to be offset relative to the output shaft 88 of the transmission.
  • a first drive sprocket 100 is mounted to the output shaft 88 of the transmission and a second drive sprocket102 is mounted to an input shaft 104 of the differential and a drive chain 106 drivingly interconnects the first and second drive sprockets.
  • This arrangement allows the input to the differential to be geared up or down if required.
  • a drive belt and pulleys may be used instead of a chain and sprockets.
  • the marine propulsion unit 36 is connected to the marine propulsion output shaft 50 of the transfer box by means of drive shaft 52 which may be an extension of, or be connected to, an input shaft of the marine propulsion unit 36.
  • the marine propulsion unit is a water jet but it could be of any suitable type, such as a marine propeller.
  • more than one marine propulsion unit 36 can be provided, in which case drive from the transfer box 28 can be split between the marine propulsion units 36 in any suitable manner as will be readily understood by those skilled in the art.
  • Figure 6 shows an alternative embodiment of a power train 24' for use in an amphibious vehicle, such as that shown in Figure 1. The same reference numerals are used to designate similar components to those described above with reference to the power train 24 shown in Figures 2 and 3.
  • the power train 24' is similar to the power train 24, except that the transfer box 28 is omitted and the marine propulsion unit 36 is driven through the bevel gear box 30.
  • This arrangement permits the maximum possible power to be provided at the marine propulsion unit 36.
  • At least one additional bevel gear may be provided in the bevel gear box 30 to enable the drive for the marine propulsion 36 unit to be taken straight through.
  • input shaft 40 may be made integral with output shaft 52.
  • a reverse gear for reversing the direction of drive from the prime mover 26 to the road wheels 16.
  • this can be provided by means of a secondary power unit 110, such as an electric motor or engine, that is arranged to provide a reverse direction drive to the input of the differential 34.
  • the secondary power unit 110 is an electric motor.
  • a vehicle starter motor having a retractable Bendix drive is particularly suitable.
  • secondary power unit 110 is shown schematically in Figure 6 and its position can be varied as required.
  • a clutch or other means for disconnecting drive from the prime mover 26 to the driven wheels 16 may also be provided.
  • Figure 7 shows a still further alternative embodiment of a power train 24" for use in an amphibious vehicle, such as that shown in Figure 1.
  • the same reference numerals are used to designate similar components to those described above with reference to the power train 10 shown in Figures 2 and 3 and 6.
  • the transfer box 28 is arranged on the output side of a bevel gear box 30, in communication with the marine propulsion unit 36.
  • the transfer box 28 incorporates a reduction gearbox type arrangement (not illustrated) for selectively controlling the drive to the marine propulsion unit 36.
  • a clutch or other means for disconnecting drive from the prime mover 26 to the driven wheels 16 may also be provided.
  • the present invention provides a compact and versatile power train layout for an amphibious vehicle.
  • the speed change transmission By unusually positioning the speed change transmission such that its input shaft extends generally in a vertical direction of the vehicle, the speed change transmission can be positioned above or below the axis of the output shaft of the prime mover. This enables the overall length of the power train to be reduced and makes the power train particularly suitable for use in sit-astride type amphibious vehicles.
  • Positioning the speed change transmission above the axis of the output shaft of the prime mover has the further advantage of raising the level of the transmission reducing the, risk of it getting wet during use of the vehicle on water.
  • the transfer box 28 may be positioned upstream of bevel gear 30.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Arrangement Of Transmissions (AREA)
  • Gear Transmission (AREA)
  • Arrangement And Driving Of Transmission Devices (AREA)
PCT/GB2005/003944 2004-10-15 2005-10-14 Amphibious vehicle speed change transmission arrangement Ceased WO2006040563A1 (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
KR1020077010912A KR101046645B1 (ko) 2004-10-15 2005-10-14 수륙양용 차량 변속 전동장치
CN200580035401XA CN101068694B (zh) 2004-10-15 2005-10-14 水陆两用车辆变速传动装置
AU2005293379A AU2005293379A1 (en) 2004-10-15 2005-10-14 Amphibious vehicle speed change transmission arrangement
JP2007536259A JP4763705B2 (ja) 2004-10-15 2005-10-14 水陸両用車の変速伝動装置
EP05792807A EP1807271B1 (en) 2004-10-15 2005-10-14 Amphibious vehicle speed change transmission arrangement
DE602005015609T DE602005015609D1 (de) 2004-10-15 2005-10-14 Amphibienfahrzeugwechselgetriebeanordnung
CA2583219A CA2583219C (en) 2004-10-15 2005-10-14 Amphibious vehicle speed change transmission arrangement

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GBGB0422954.8A GB0422954D0 (en) 2004-10-15 2004-10-15 Amphibious vehicle
GB0422954.8 2004-10-15

Publications (1)

Publication Number Publication Date
WO2006040563A1 true WO2006040563A1 (en) 2006-04-20

Family

ID=33462800

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/GB2005/003944 Ceased WO2006040563A1 (en) 2004-10-15 2005-10-14 Amphibious vehicle speed change transmission arrangement

Country Status (11)

Country Link
US (1) US7713102B2 (enExample)
EP (1) EP1807271B1 (enExample)
JP (2) JP4763705B2 (enExample)
KR (1) KR101046645B1 (enExample)
CN (1) CN101068694B (enExample)
AU (1) AU2005293379A1 (enExample)
CA (1) CA2583219C (enExample)
DE (1) DE602005015609D1 (enExample)
ES (1) ES2328605T3 (enExample)
GB (1) GB0422954D0 (enExample)
WO (1) WO2006040563A1 (enExample)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008023191A3 (en) * 2006-08-24 2008-05-29 Gibbs Tech Ltd Amphibian
WO2009027647A1 (en) * 2007-08-24 2009-03-05 Gibbs Technologies Limited Amphibian
GB2495898A (en) * 2011-06-13 2013-05-01 Gibbs Tech Ltd A power train for an amphibious vehicle
EP2311669B1 (en) * 2004-10-22 2014-12-03 Gibbs Technologies Ltd. An amphibious vehicle
USD760623S1 (en) 2012-10-13 2016-07-05 Gibbs Technologies Limited Amphibious vehicle
US9415649B2 (en) 2011-06-13 2016-08-16 Gibbs Technologies Limited Amphibian hull
RU2686607C1 (ru) * 2018-09-17 2019-04-29 Михаил Сергеевич Беллавин Снегоход

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AU2012201135B2 (en) * 2004-10-22 2015-01-29 Gibbs Technologies Limited An amphibious vehicle
GB2423963A (en) 2004-12-22 2006-09-13 Gibbs Tech Ltd Amphibious vehicle power train arrangement
US8596398B2 (en) * 2007-05-16 2013-12-03 Polaris Industries Inc. All terrain vehicle
US20110275255A1 (en) * 2010-05-10 2011-11-10 Ching Yin Au Personal marine transporter capable of offering the rider the exhilarating feeling of steering a very maneuverable water craft by the direction of his body motion
JP6090906B2 (ja) * 2012-11-30 2017-03-08 三菱重工業株式会社 水陸両用車
JP6202710B2 (ja) * 2012-11-30 2017-09-27 三菱重工業株式会社 水陸両用車および水陸両用車の制御方法
GB2514313B (en) * 2012-12-20 2015-12-30 Gibbs Tech Ltd A power train for an amphibian
CN103395347A (zh) * 2013-07-22 2013-11-20 刘晓魁 后置螺旋桨水陆两用动力车
JP2015071341A (ja) * 2013-10-02 2015-04-16 ヤマハ発動機株式会社 船舶
KR101452293B1 (ko) * 2013-11-15 2014-10-22 김중재 수륙양용 보트
JP2016070102A (ja) * 2014-09-26 2016-05-09 ヤマハ発動機株式会社 乗り物
GB201509933D0 (en) * 2015-06-08 2015-07-22 Gibbs Tech Ltd A power train for an amphibian
KR20170114118A (ko) * 2016-04-04 2017-10-13 신형권 하이브리드 오토바이의 혼성동력전달 시스템
CN107137939A (zh) * 2017-06-12 2017-09-08 雒雨婷 水陆两用的玩具水船
CN110107657B (zh) * 2019-06-05 2024-05-17 吉林大学 一种双离合水陆两用减速箱及其控制方法
CA3207213A1 (en) * 2021-02-05 2022-08-11 Sacha BOUCHARD All-terrain vehicle

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LU84437A1 (fr) * 1982-10-22 1984-05-10 Michel Barez Vehicule amphibie a deux roues
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AU2005293379A1 (en) 2006-04-20
GB0422954D0 (en) 2004-11-17
CA2583219C (en) 2013-10-08
US20060172626A1 (en) 2006-08-03
EP1807271B1 (en) 2009-07-22
CN101068694A (zh) 2007-11-07
EP1807271A1 (en) 2007-07-18
JP2008516836A (ja) 2008-05-22
JP5319650B2 (ja) 2013-10-16
JP2011073672A (ja) 2011-04-14
KR20070085358A (ko) 2007-08-27
DE602005015609D1 (de) 2009-09-03
CN101068694B (zh) 2010-12-01
ES2328605T3 (es) 2009-11-16

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