• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Attorney Docket No. 18985-US Abstract of the Disclosure A work vehicle comprises a front frame, a rear frame, an oscillationframe, a slew bearing, and a rolling-element bearing. The slew bearing and therolling-element bearing allow oscillation between the oscillation frame and the rear frame about a fore-aft axis.
    公开号:SE536957C2
    申请号:SE1250051
    申请日:2012-01-26
    公开日:2014-11-11
    发明作者:Gregory K Werner;David F Rindfleisch;Francois Stander;David D Latham;Joseph M Montocchio
    申请人:Deere & Co;
    IPC主号:
    专利说明:

    [2] [0002] There are articulated dump trucks which have a front section and a rearsection. The front section has the operator's station, and the rear section has adump body for carrying a payload therein. The front and rear sections are articulatedto one another. An oscillation system of the truck allows oscillation between the frontand rear sections about a fore-aft axis of the truck to accommodate lateral terrain variations between the front and rear sections.
    [3] [0003] According to an aspect of the present disclosure, there is provided a workvehicle. The work vehicle comprises a front frame, a rear frame, an oscillationframe, a slew bearing, and a rolling-element bearing. The oscillation frame isarticulated to the front frame allowing relative pivotal movement between the frontframe and the oscillation and rear frames about an articulation axis. The rolling-element bearing is rearvvard of the slew bearing relative to a fore-aft axis of the workvehicle. The slew bearing and the rolling-element bearing are coupled to theoscillation frame and the rear frame allowing oscillation between the oscillation frameand the rear frame about the fore-aft axis. The rolling-element bearing may improvethe useful life of the slew bearing by unloading some of a moment on the slewbeanng.
    [4] [0004] The above and other features will become apparent from the following description and the attached drawings.
    [7] [0007] FIG. 2 is a top plan view showing an oscillation system of the work vehicle;[0008] FIG. 2A is a top plan view showing a split-ring seal;
    [9] [0009] FIG. 2B is an enlarged sectional view of a seal shown in its relaxed state;[0010] FIG. 3 is a sectional view taken along lines 3-3 of FIG. 2 showing theoscillation system of the work vehicle; and
    [11] [0011] FIG. 4 is a sectional view showing a slew bearing and a rolling-element bearing on an oscillation frame.
    [12] [0012] Referring to FIG. 1, there is shown a work vehicle 10 configured, forexample, as an articulated dump truck. As such, the vehicle 10 may have a frontsection 12 and a rear section 14. The front and rear sections 12, 14 may bearticulated to one another for relative pivotal movement therebetween about anarticulation axis 15. The rear section 14 may have an oscillation system 16 allowingoscillation between the front and rear sections 12, 14 about a fore-aft or oscillationaxis 18 of the vehicle 10 to accommodate Iateral terrain variations between the frontand rear sections 12, 14.
    [13] [0013] The front section 12 may be the power head of the vehicle 10 and may havea front frame 20. The operator's station and the engine may be included in the frontsection 12 and mounted to the front frame 20.
    [14] [0014] The rear section 14 may have a rear frame 22 and a dump body configuredto carry material therein. The dump body may be pivoted to the rear frame 22. A liftcylinder on each side of the dump body may be coupled to the rearframe 22 and thedump body to tip the dump body to unload material from the dump body. The rearsection 14 has two rear wheels on each side of the vehicle 10, the two wheels oneach side coupled in tandem, the two tandems pivotable about a tandem axis 23.[0015] Referring to FIGS. 2 and 3, the oscillation system 16 may include anoscillation frame 24, a slew bearing 26, and a rolling-element bearing 28 spacedaxially apart from the slew bearing 26 relative to the fore-aft axis 18. The oscillationframe 24 may be articulated to the front frame 20 allowing relative pivotal movementbetween the front frame 20 and the oscillation and rear frames 24, 22 about thearticulation axis 15. The slew bearing 26 and the rolling-element bearing 28 may be coupled to the oscillation frame 24 and the rear frame 22 allowing oscillation Attorney Docket No. 18985-US between the osci|ation frame 24 and the rear frame 22 about the fore-aft axis 18.The rolling-element bearing 26 may be rearward of the s|ew bearing 26 relative tothe fore-aft axis 18 to unload some ofthe radial component of the moment on thes|ew bearing 26 to improve the useful life of the s|ew bearing 26.
    [16] [0016] The osci|ation frame 24 has a front connector portion 30 and a rear tubularportion 32. The connector portion 30 and the front frame 20 are articulated to oneanother to provide an articulation joint for relative pivotal movement between thefront and rear sections 12, 14 about the articulation axis 15. A drive|ine 33 extendsthrough the interior of the tubular portion 32 and is mounted within the tubular portion32 with a front bearing 76 and a rear bearing 78 (e.g., each a ball bearing) forrelative rotation between the drive|ine 33 and the osci|ation frame 24. The s|ewbearing 26 and the rolling-element bearing 28 surround the tubular portion 32 of theosci|ation frame 24. The osci|ation frame 24 may be constructed, for example, as acasting made, for example, ofductile iron.
    [17] [0017] The vehicle 10 has a left steering cylinder and a right steering cylinder,which are coupled to the front frame 20 and the connector portion 30 to cause suchrelative pivotal movement for steering of the vehicle 10. By putting the steeringcylinders between the front frame 20 and the osci|ation frame 24 instead of betweenthe rear frame 22 and the osci|ation frame 24, the hydraulic lines to the steeringcylinders do not have to cross the articulation joint, avoiding potential damages tothe lines in such a case.
    [18] [0018] The s|ew bearing 26 may have a radially outer race 34, a radially inner race36, rollers 38 (e.g., right circular cylinder in shape), and a pair of annular seals 40.The outer race 34 may be fastened to a first cross wall 41 of a front cross structureof the rear frame 22 with fasteners (e.g., bolts with respective washers and nuts), thefirst cross wall having a main cross plate and an annular plate coupled (e.g., welded)to the main plate (the plates made, for example, of high strength low alloy steel).The inner race 36 may be fastened to the connector portion 30 of the osci|ationframe 24 with fasteners (e.g., bolts with respective washers). The rollers 38 arepositioned radially between the outer and inner races 34, 36 and joined by a cage.Rotation axes of adjacent rollers 40 may be angled cross-wise relative to oneanother at an exemplary angle of 45 degrees; as such, the s|ew bearing 26 may be a cross roller s|ew bearing.
    [19] [0019] The seals 40 may be positioned on opposite sides of the rollers 40 to inhibitingress of relatively small debris into the bearing 26. One of the seals 40 may matewith an annular groove of the inner race 36 so as to be mounted thereto, and theother seal 40 may mate with an annular groove of the outer race 34 so as to bemounted thereto. The seals 40 may be made, for example, of polyurethane.
    [20] [0020] Referring to FIGS. 2A, 2B, 3, and 4, a split-ring seal 42 may contact theoscillation frame 24 and the slew bearing 26 so as to establish a sealed connectiontherebetween. The seal 42 may contact the oscillation frame 24, the inner race 36,and the outer race 34 so as to establish the sealed connection therebetween. Theseal 42 acts as a first line of defense that inhibits ingress of relatively large debrisfrom entering the bearing 26.
    [21] [0021] Opposite ends of the seal 42 may be fastened together with a fastener. Asshown, for example, in FIG. 2a, the fastener may include a bolt 80 extending througha boss 82 of a first end of the seal 42 and a boss 82 of a second end of the seal 42,a nut 84 threaded onto the bolt 80, and two washers 86, one associated with the bolthead and the other associated with the nut 84. The fastener may be tightened bytightening of the nut 84 onto the bolt 80 (which may also be referred to as a capscrew).
    [22] [0022] The bolt 80 may have a (partially threaded) breakaway section 90 and maytherefore be relatively long, providing a lead-in portion for receipt of the nut 84 ontothe bolt 80. During installation of the seal 42, the nut 84 is advanced onto thebreakaway section 90 and then onto the main threaded section of the bolt 80,stretching the seal 42. Once the seal 42 is installed, the breakaway section 90 mayinterfere with performance of the seal in that the breakaway section 90 may catch onnuts of the fasteners used to fasten the outer race 34 to the frame 22 and not allowfree relative rotation between the seal 42 and the outer race 34 of the slew bearing26. As such, after the fastener has been tightened, the breakaway section 90 maybe broken off at a reduced-diameter frangible portion of the bolt 80, reducing thelength of the bolt 80.
    [23] [0023] Tightening of the fastener may pressurize a ring 88 of the seal 42 onto theoscillation frame 24 against the slew bearing 26. As the ring 88 is pressurized, a firstradially inner surface 92 of the ring 88 may slide radially inwardly against the oscillation frame 24 until the ring 88 nests at the interface between the oscillation Attorney Docket No. 18985-US frame 24 and the inner race 36 of the slew bearing 26 with the first radially innersurface 92 in contact with the oscillation frame 24, a second radially inner surface 94in contact with a radially outer surface of the inner race 36 of the slew bearing 26,and a lip 96 of the ring 88 in contact with an axially forwardly facing surface of theouter race 34 of the slew bearing 26. ln FIG. 3, the radially inner surfaces 92, 94 ofthe sea| 42 are drawn relatively thick to indicate that they would be in contact withthe oscillation frame 24 and the inner race 36, respectively. ln actual use, the ring88 would be positioned slightly radially inwardly and axially rearwardly from whereshown to establish such contact and loading of the lip 96 against the outer race 34,and the sea| 42 may be modified in size slightly to effect such contact.
    [24] [0024] Referring to FIGS. 2 and 3, a guard 44 may extend over the slew bearing 26to deflect debris (e.g., debris that may fall from the dump body) from the sea| 42which could otherwise grind against the sea| 42 during oscillation. The guard 44may be mounted to the oscillation frame 24. The guard 44 may have a connectorportion 46 and a deflector portion 48. The connector portion 46 may have two tabs50 extending in laterally opposite directions relative to the fore-aft axis 18. Each tab50 may be fastened to the connector portion 30 of the oscillation frame 24 with afastener including a bolt and washers, the bolt extending through a washer abovethe tab 50, the tab 50, and a number of washers (e.g., three) positioned between thetab 50 and the connector portion 30 of the oscillation frame 24 and acting as shims.The deflector portion 48 may have two deflector wings 52 extending in laterallyopposite directions relative to the fore-aft axis 18 over the slew bearing 26.
    [25] [0025] The guard 44 may have a top plate 52 and a rear plate 54 coupled (e.g.,welded) to a rear edge of the top plate 52 (the plates 52, 54 made, for example, ofhigh strength low alloy steel). The top plate 52 may provide the tabs 50 and a topportion of the wings 52, and the rear plate 56 may provide a rear portion of the wings52.
    [26] [0026] The front cross-structure may have a second cross wall 58 and a bearinghousing 60. The second cross wall 58 may be rearward of the first cross wall 41,and may have a main cross plate and an annular plate coupled (e.g., welded) to thatmain plate (the plates made, for example, of high strength low alloy steel). Thebearing housing 60, made, for example, of gray iron, may be fastened to the second cross wall 58 with fasteners in the form of, for example, bolts and washers, each bolt Attorney Docket No. 18985-US extending through a respective washer and the main and annular plates of thesecond cross wall 58 into the bearing housing 60.
    [27] [0027] A protective tube 61 may surround the tubular portion 32 of the oscillationhousing 24 to keep dirt and water out of the oscillation system and provide strengthfor the rear frame 22. The protective tube 61 may be coupled (e.g., welded) to themain plate of the first cross wall 41 and the annular plate of the second cross wall58. To form the protective tube 61, a rectangular plate (made, for example, of highstrength low alloy steel) may be rolled into a tubular shape and the ends of the platemay be chamfered to provide a weld groove that receives a weld.
    [28] [0028] The rolling-element bearing 28 is positioned radially between the bearinghousing 60 and the tubular portion 32 ofthe oscillation housing 24 relative to thefore-aft axis 18. The rolling-element bearing 28 may have a radially outer race 62, aradially inner race 64, rolling elements 66, and a pair of annular seals 68. The outerrace 62 may be pressed into the bearing housing 60. The inner race 64 may belightly pressed onto the tubular portion 32 of the oscillation housing 24. The rollingelements 66 may be positioned radially between the outer and inner races 62, 64.The rolling elements 66 may be rollers, and, as such, the bearing 28 may be a rollerbearing, such roller bearing avoiding shimming.
    [29] [0029] The first and second seals 68 may be positioned on axially opposite sides ofthe rolling-element bearing 28 relative to the fore-aft axis18 to inhibit ingress ofdebris into the bearing 28. Each of the first and second seals 68 may contact thetubular portion 32 of the oscillation frame 24 and the rear frame 22 so as to establisha sealed connection therebetween. Each seal 68 is positioned on the tubular portion32. The forward first seal 68 mates with a groove in the bearing housing 60 so as tobe mounted thereto, and the rearward second seal 68 mates with a groove definedbetween the annular plate of the second cross wall 58 and the main plate of thesecond cross wall 58 so as to be mounted to that groove. Each seal 68 may includea sealing element (made, for example, of polyurethane) and an O-ring (made, forexample, of rubber), the sealing element having a lip against the tubular portion 32 ofthe oscillation frame 24, the O-ring spring-loading the sealing element since theinside diameter of the sealing element is relatively large. For ease of illustration,each seal 68 (i.e., the sealing element and the O-ring) is shown in its relaxed (undeflected) condition, although one of ordinary skill in the art would recognize that Attorney Docket No. 18985-US it would be deflected in use.
    [30] [0030] Referring to FIG. 4, the rolling-element bearing 28 may improve the usefullife of the slew bearing 26 by unloading some of a moment on the slew bearing 26.The center of gravity of the rear section 14 is fonNard of the tandem axis 23, tendingto tip the rear section 14 fonNard. The articulation joint counteracts this tendency,applying a moment 66 to the oscillation frame 24 about the intersection of the fore-aftaxis 18 and the articulation axis 15. This moment is taken up by the slew bearing 26and the rolling-element bearing 28, with axiai and radial forces 68, 70 on the upperportion ofthe slew bearing 26, an axial force 72 on the lower portion of the slewbearing 26, and a radial force 74 on the rolling-element bearing 28. The rolling-element bearing 28 thus unloads some of the moment 66 on the slew bearing 26.[0031] For ease of illustration, no welds and threads have been shown, but are tobe understood.
    [32] [0032] While the disclosure has been illustrated and described in detail in thedrawings and foregoing description, such illustration and description is to beconsidered as exemplary and not restrictive in character, it being understood thatillustrative embodiment(s) have been shown and described and that all changes andmodifications that come within the spirit of the disclosure are desired to be protected.lt will be noted that alternative embodiments of the present disclosure may notinclude all of the features described yet still benefit from at least some of theadvantages of such features. Those of ordinary skill in the art may readily devisetheir own implementations that incorporate one or more of the features of the presentdisclosure and fall within the spirit and scope of the present invention as defined by the appended claims.
    权利要求:
    Claims (12)
    [1] 1. A work vehicle, comprising: a front frame, a rear frame, an oscillation frame articulated to the front frame allowing relative pivotalmovement between the front frame and the oscillation and rear frames about anarticulation axis, a slew bearing, and a rolling-element bearing rearward ofthe slew bearing relative to a fore-aftaxis of the work vehicle, wherein the slew bearing and the rolling-element bearingare coupled to the oscillation frame and the rear frame allowing oscillation betweenthe oscillation frame and the rear frame about the fore-aft axis.
    [2] 2. The work vehicle of claim 1, wherein the slew bearing is a cross rollerslew bearing.
    [3] 3. The work vehicle of claim 1, wherein the rolling-element bearing is aroller bearing.
    [4] 4. The work vehicle of claim 1, wherein the slew bearing and the rolling-element bearing surround the oscillation frame.
    [5] 5. The work vehicle of claim 1, wherein the rolling-element bearing isspaced axially apart from the slew bearing relative to the fore-aft axis.
    [6] 6. The work vehicle of claim 1, further comprising a steering cylindercoupled to the front frame and the oscillation frame.
    [7] 7. The work vehicle of claim 1, further comprising a seal contacting theoscillation frame and the slew bearing.
    [8] 8. The work vehicle of claim 7, wherein the slew bearing comprises anouter race and an inner race, and the seal contacts the oscillation frame and theouter race.
    [9] 9. The work vehicle of claim 1, comprising a first seal and a second seal,the first and second seals are positioned on axially opposite sides of the rolling-element bearing relative to the fore-aft axis, and each of the first and second sealscontacts the oscillation frame and the rear frame.
    [10] 10. The work vehicle of claim 1, further comprising a guard extending over Attorney Docket No. 18985-US the slew bearing.
    [11] 11. The work vehicle of claim 10, wherein the guard is mounted to theoscillation frame.
    [12] 12. The work vehicle of claim 10, wherein the guard comprises two deflector wings extending in laterally opposite directions relative to the fore-aft axis.
    类似技术:
    公开号 | 公开日 | 专利标题
    US10343716B2|2019-07-09|Universal axle-hub assembly
    SE536957C2|2014-11-11|Joint system in work vehicles
    EP2873593A1|2015-05-20|A support structure
    WO2008001554A1|2008-01-03|Bearing unit for wheel
    WO2013026022A1|2013-02-21|Elastomeric bearing for equalizer bar of undercarriage
    US3806158A|1974-04-23|Hinge joint
    EP3053811A1|2016-08-10|Tractor with track drive
    US3202231A|1965-08-24|Parking apparatus for motor vehicles
    CA2747566C|2018-09-04|Blade pivot mechanism
    JP5153128B2|2013-02-27|Fitting assembly
    CA1142558A|1983-03-08|Pivot construction for a motor vehicle suspensionsystem
    US7516805B2|2009-04-14|Equalizer bar mounting arrangement
    US10814917B2|2020-10-27|Assembly having a skid plate module
    US3082047A|1963-03-19|Track roller assembly
    US4286674A|1981-09-01|Replaceable bearing assembly for construction vehicles
    US10913321B2|2021-02-09|Suspension system
    US8393461B2|2013-03-12|Car wash roller assembly and method for manufacturing the car wash roller assembly
    JP2013040664A|2013-02-28|Wheel bearing device
    US11021190B2|2021-06-01|Suspension system for a vehicle
    CN213472900U|2021-06-18|Four sprocket macroaxles and contain its vehicle
    US4545458A|1985-10-08|Drive mechanism for steering wheels of vehicle
    CA1244062A|1988-11-01|Cylinder attachment for elevating transporter
    JP4071556B2|2008-04-02|Traveling car
    US3863951A|1975-02-04|Bearing seal for articulated vehicle
    CN205632708U|2016-10-12|Large -scale ground light lies prostrate clean system in power station drive wheel assembly
    同族专利:
    公开号 | 公开日
    SE1250051A1|2012-08-18|
    US20120211973A1|2012-08-23|
    US8646567B2|2014-02-11|
    ZA201201145B|2013-10-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2342407A|1942-03-16|1944-02-22|Letourneau Inc|Universal tractor hitch|
    US3253671A|1964-01-27|1966-05-31|Mixermobile Manufacturers Inc|Close-coupled articulated vehicle|
    US3342282A|1965-06-14|1967-09-19|Harper Mfg Inc|Hydraulically driven articulated vehicle|
    US3773129A|1971-06-14|1973-11-20|Caterpillar Tractor Co|Unitary coupling for articulated vehicles|
    US3831693A|1972-12-26|1974-08-27|Lockheed Missiles Space|Steerable articulation joint|
    FR2336046A5|1973-02-22|1977-07-15|Braud & Faucheux|DOUBLE ARTICULATION DEVICE FOR ALL TERRAIN MACHINES AND MACHINES EQUIPPED WITH SUCH A JOINT|
    US4034822A|1976-04-05|1977-07-12|Caterpillar Tractor Co.|Hitch-steering, oscillation and differential support for a mining machine or the like|
    HU173755B|1977-08-15|1979-08-28|Magyar Vagon Es Gepgyar|Car frame connecting device for articulated vehicles consists of front and rear car frame parts connected with each other in jointed manner|
    US4444409A|1982-07-26|1984-04-24|Hesston Corporation|Oscillator limit in articulated land vehicle|
    FR2554394B3|1983-11-08|1986-07-25|Rouliere Paul|ARTICULATED HITCHING DEVICE BETWEEN A TRACTOR AND A TRAILER|
    US5564519A|1992-11-24|1996-10-15|Kabushiki Kaisha Komatsu Seisakusho|Four-wheel traveling system for tipper|
    US8002472B2|2008-06-30|2011-08-23|Nucor Corporation|Slew bearing system|GB2524078A|2014-03-14|2015-09-16|Ronald Samuel Blackhurst|Articulated vehicle|
    GB2534421B|2015-01-26|2020-07-01|Moorend Ltd|An articulated vehicle|
    US9878587B1|2016-10-31|2018-01-30|X Development Llc|Movable base for a robotic system|
    US10598219B2|2017-09-18|2020-03-24|Roller Bearing Company Of America, Inc.|Bearing and sealing arrangement for joints in heavy duty vehicles|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US13/029,234|US8646567B2|2011-02-17|2011-02-17|Work vehicle oscillation system|
    [返回顶部]