AU2011224141B2 - Multi-axle vehicle suspension system - Google Patents

Multi-axle vehicle suspension system Download PDF

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Publication number
AU2011224141B2
AU2011224141B2 AU2011224141A AU2011224141A AU2011224141B2 AU 2011224141 B2 AU2011224141 B2 AU 2011224141B2 AU 2011224141 A AU2011224141 A AU 2011224141A AU 2011224141 A AU2011224141 A AU 2011224141A AU 2011224141 B2 AU2011224141 B2 AU 2011224141B2
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Australia
Prior art keywords
hanger
suspension system
platform
vehicle
axle
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AU2011224141A
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AU2011224141A1 (en
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Scott Mcfarlane
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POWER PATENTS Pty Ltd
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POWER PATENTS Pty Ltd
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Priority claimed from AU2010905392A external-priority patent/AU2010905392A0/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60GVEHICLE SUSPENSION ARRANGEMENTS
    • B60G5/00Resilient suspensions for a set of tandem wheels or axles having interrelated movements
    • B60G5/01Resilient suspensions for a set of tandem wheels or axles having interrelated movements the set being characterised by having more than two successive axles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60GVEHICLE SUSPENSION ARRANGEMENTS
    • B60G5/00Resilient suspensions for a set of tandem wheels or axles having interrelated movements
    • B60G5/04Resilient suspensions for a set of tandem wheels or axles having interrelated movements with two or more pivoted arms, the movements of which are resiliently interrelated, e.g. the arms being rigid
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60GVEHICLE SUSPENSION ARRANGEMENTS
    • B60G2300/00Indexing codes relating to the type of vehicle
    • B60G2300/02Trucks; Load vehicles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60GVEHICLE SUSPENSION ARRANGEMENTS
    • B60G2300/00Indexing codes relating to the type of vehicle
    • B60G2300/04Trailers

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Vehicle Body Suspensions (AREA)

Abstract

The present invention relates to a multi-axle vehicle suspension for a truck or trailer which provides for an even distribution of the vehicle load across the axles. ~AgY It* 4b 4b

Description

1 Multi-axle vehicle suspension system FIELD OF THE INVENTION The present invention relates to a multi-axle vehicle suspension for a truck or trailer which provides for an even distribution of the vehicle load across the axles. 5 BACKGROUND OF THE INVENTION In vehicle suspension systems for large trucks and trailers, for example those used in multi-combination vehicles or road trains for the mining industry, it is common to mount a number of axles to the trailer(s) to support the vehicle load. One commonly employed suspension system 10 is shown in Figure 1 which includes three axles 12 supported by a combination of leaf springs 14. In this prior known vehicle axle 0 suspension, there is a front hanger 16, two equaliser hangers 18 and 20, and a rear hanger 22, with axles 12 and spring assemblies 14 being fitted and connected to the hangers by way of the spring hooked sections being fitted to the equalisers and also through torque arms or rods 24. When for example the front wheels encounter a condition in the road producing a vertical movement of the front axle, the resultant deflection in the front springs is transmitted in part by the equaliser to the rear 5 springs. This results in an equalising effect in which any vertical displacement of either axle is distributed between the springs which minimises the weight differential between the axles. A problem with these types of multi-axle load equalising suspension systems is that the load equalisation from one axle to another can be inadequate and abrupt. As one end of the equaliser rotates upwardly at the point at which the spring end contacts the leaf spring, the other end abruptly rotates downward. This 20 action causes abrupt and unequal moments about the centre pivot point of the equaliser. Furthermore, such steel spring systems transmit lateral loads to the leaf spring to control lateral stiffness of the suspension, which places additional loads on the leaf springs. The end results of improper load equalisation are numerous. If the axle which encounters bumps and overloads is unpowered, a loss of traction can occur on the powered axle. The suspension components, 25 and springs in particular, are subjected to higher stresses and therefore their service life is shortened appreciably. As the leaf springs are subjected to overload they progressively lose capacity to absorb energy and therefore transmit more energy through the mounting brackets to the vehicle frame in some cases causing damage to the frame. Furthermore, wherever an unequal load distribution occurs within a suspension involving two or more axles, the axle which is overloaded transmits its load to the roadway in 30 a manner that can be detrimental to the roadway.
2 1 summary, commonly used leaf-spring type suspensions and associated equalization systems have a number of inherent problems, which most notably results in the need for regular maintenance parts replacement and increased costs; It is therefore an object of the present invention to overcome the aforementioned problems, or at least 5 provide the public with a useful alternative. SUMMARY OF THE INVENTION In one form ofthe invention there is proposed a suspension system for a vehide chassis comprising: a first platform assembly having associated therewith a support means for supporting at least one end of a 10 wheel axle, said assembly further including an upper platform surface; a first hanger adapted to be fixed in a suspended configuration from said vehicle chassis, said hanger including a portion that is aligned vertically with a portion of said upper platform surface; a second platform assembly and a second hanger at an opposed end of said wheel axle; spring means located between the platforms and banger portions; 15 wherein said suspension includes a central vehicle frame mount disposed forwards of each of said platform assemblies,/said central frame mount adapted to be fixed in a suspended configuration from said vehicle chassis, said first and second platform assemblies being connected by two pivotable transverse torque rods which extend forwardly and inwardly from each platform assembly to meet at said central frame mount. 20 In preference the vehicle chassis includes a longitudinal axis, and said platform assemblies and hangers are connected via hangers. In preference the transverse torque rods are pivotably connected to the central frame mount and respective platform asseniblies. In preference the spring means is an elastomer spring. 25 In preference each elastomer spring supported there above is disposed forwards and/or rearwards of each axle. In preference the elastomer spring is in the form of a cylindrical cushion manufactured from natural rubber, urethane, micro-cellular urethane or other suitable elastomeric material. In preference each hauger assembly includes a suspended hollow housing for receiving said elastomer 30 spring therein and compressing said spring by weight of the vehicle load.
3 In preference the vehideis a multiaxle trailer adapted to support a trailer bin In preference the vehicle includes a front and a rear axle each having an opposed platform assembly and hanger coupled via transverse torque rods as defined in any one of claims 1-8. In preference the first hanger is fied and said second hanger is an equalising hanger including an 5 equaliser bar that is rockable about a pivot point said equaliser bar extending longitudinally such that a portion thereof is vertically aligned with each of said first and second platform assemblies for locating two elastomeric springs there between. In preference the second hanger includes a fAuther fixed hanger disposed rearwardly thereof and including a porion that is vertically aligned with said second platform for locating an elastomeric spring 10 there between. In preference the double-axle vehicle includes a vehicle chassis and a suspension system.. In preference the vehicle includes a front axle, one or more middle axles, and a rear axle each having an opposed platform assembly and hanger coupled via transverse torque rods S. In preference the first hanger is fixed, said one or more middle hangers are equalising hangers each 15 including an equaliser bar that is rockable about a pivot point, said equaliser bar extending longitudinally such that a, portion thereof is vertically abgned with each of said first and middle platforms for coating two elastomeric springs there between. In preference the second hanger is an equalising hmger including an equaliser bar that is rockable about a pivot point, said equaliser bar extending longitudinally such that a portion thereof is vertically 20 aligned wth each of said middle and second platforms for locating two elastomeric sprngs there between. In preference the second hanger includes a further fixed hanger disposed rearwardly thereof and including a portion that is vertically aligned with said second platform for locatng an elastomeric spring there between. 25 In preference the vehicle incldes three or more wheel axles including a vehicle chassis and a suspension system.
4 BRIEF DESCRIPTION OF THE DRAWING FIGURES The acompanying drawings, which are incorporated in and constitute a part of this specification, illustrate several implementations of the invention and, together with the description, serve to explain the advantages and principles of the invention In the drawings: 5 Figure 1 depicts a prior art leaf spring suspension system for a multi-axle trailer; Figure 2 depicts a top perspective view of a multi-axle suspension system in accordance with the present invention; Figure 3 depicts the top perspective view of Figure 2 with axles removed; Figure 4 depicts a right hand side view of the suspension system of Figure 2; 10 Figure 5 depicts an underside view of the suspension system of Figure 2; Figure 6 depicts a top view of the suspension system of Figure 2; Figure 7 depicts a front end view of the suspension system of Figure 2; Figure 8 depicts a left hand side view of the suspension system of Figure 2; and Figure 9 depicts a rear end view of the suspension system of Figure 2. 15 LIST OF INTEGERS 10 Suspension system (prior art) 12 Axle (prior art) 14 Leaf spring (prior art) 16 Front hanger (prior art) 20 1 8&20 Equaliser hanger (prior art) 22 Rear hanger (prior art) 24 Torque rod (prior art) 30 Suspension system 32&34 Torque rod mount 25 36 Hanger assemby 5 38 Axle strap mount 40 Rebound tension strap 44 Wheel axle 46 Overslung bracket assembly 5 48 Platform 50 Transverse torque rod support member 52 Transverse torque rod 54 Longitudinal torque rod 56 Pivot point 0 58 Pivot point 60 Pivot point 62 Pivot point 64 Hollow spring housing 66 Elastomer spring 5 68 Equaliser beam 70 Transverse pin DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description of the invention refers to the accompanying drawings. Although the description includes exemplary embodiments, other embodiments are possible, and changes may be made 0 to the embodiments described without departing from the spirit and scope of the invention. Wherever possible, the same reference numbers will be used throughout the embodiments and the following description to refer to the same and like parts. The present invention relates to a multi-axle vehicle suspension system 30 for particular use in association with a trailer (not shown) to provide for even distribution of vehicle load across the axles. What is 25 proposed is a non-torque reactive drive axle suspension system 30 adapted to equalise vertical and lateral loads through use of elastomer springs. It is to be understood that whilst the embodiment shown involves a trailer having three axles, the present invention could be equally useful in association with any other vehicle having two or greater than three axles. Turning to Figures 2-9 there is shown a suspension system 30 above which is adapted to sit the chassis of 30 a trailer bin (not shown). The suspension system 30 includes a number of mounts adapted to engage the trailer bin chassis (not shown) including three torque rod mounts 32 disposed along the central longitudinal axis of the suspension 30, mounts 34 associated with each of the eight hanger assemblies 36 forming part of the suspension system 30, and the six axle strap mounts 38 associated with each rebound tension strap 40 which are described in more detail below. The bin chassis (not shown) includes a 6 plurality of receiving portions shaped and positioned to receive each of these mounts. The way in which the mounts engage with the bin chassis to secure the bin is considered known in the art and is not shown or described in further detail herein. It is to be understood that the chassis being supported need not necessarily be that of a bin but any other 5 structure that may require support above a multi-axle suspension system. In the embodiment shown, the suspension system 30 has associated therewith three spaced apart wheel axles 44. Again, the various components forming part of each axle and associated braking system will not be described herein for the purpose of brevity. Figure 3 shows quite clearly that this embodiment utilises overslung bracket assemblies 46 to support the 0 axles 44, however, underslung axles could equally well be used. The axles 44 are removed from the system depicted in Figure 3 to more clearly show how they are supported. Also removed from Figure 3 are the six axle platforms 48 located at opposed axle ends, from which the overslung axle bracket assemblies 46 are suspended. Each platform 48 includes a flat upper elongate surface which extends parallel with the suspension longitudinal axis, and at the centre of which is mounted a transverse torque 5 rod support member 50 for pivotably supporting a transverse torque rod 52. There are thus three pairs of opposed, parallel platforms 48 along the length of the suspension and disposed between each platform 48, and at ends thereof, are the hanger assemblies 36. Turning now to how the platforms 48, hanger assemblies 36 and the load chassis (not shown) interact, the system 30 employs a 4-bar (4 pivot points) linkage system per axle on each side of the suspension. In 0 particular, each axle platform 48 is pivotably connected at its front side to a forwardly disposed hanger assembly 36 via a longitudinal torque rod 54. This longitudinal torque rod 54 defines two pivot points 56 and 58 of the linkage system. Similarly, each platform 48 is pivotably connected to a corresponding forwardly and inwardly disposed torque rod mount 32 via a transverse torque rod 52. This transverse torque rod 52 defines the second pair of pivot points 60 and 62 in the 4-bar linkage. The pivot points are 25 most clearly viewable in the side view of Figure 4. Each of the hanger assemblies 36 includes at least one suspended cylindrical, hollow housing 64 which is open at the bottom and adapted to receive therein and compress by weight of the load an elastomer spring or, as per the embodiment shown, a cylindrical rubber cushion 66. The cushion 66 sits above either a front or rear end of each axle platform 48. The two inner hanger assembly pairs are equaliser hangers and each 30 includes an equaliser beam 68 pivotable about a transverse pin 70 extending through the centre of the hanger. The beam 68 includes a cylindrical housing 64 suspended from a front and rear end thereof which aligns vertically with either a front or rear end of an adjacent axle platform such that an elastomer cushion 48 is supported therebetween.
7 The housing 64 is dimensioned such that even after the rubber cushion held therein is compressed, the housing will not contact the platform 48 there beneath. Instead, the cushion 66 will always extend a distance below the open bottom of the housing to absorb the load, as shown most clearly in the side view of Figure 4. Thus, the vertical load effectively rides on a full cushion of elastomeric material. The front 5 and rear hanger assemblies 36 also include elastomer cushion housings 64 suspended therefrom, but these do not include equaliser beams and so are fixed rather than being pivotable. Figure 4 shows the housing associated with the front axle removed so that the reader can appreciate the extent to which the rubber cushion 66 is compressed. The skilled addressee should now appreciate how the suspension 30 of the present invention is able to 0 equalise load across all axles. Say the front axle encounters a condition in the road producing a vertical movement of the axle, the resultant deflection of the cushions associated with that axle is transmitted in part by the front opposed equaliser beams 68 to the cushions 66 associated with the rearward axles. The longitudinal torque rods 54 provide the required control in the longitudinal plane whilst the transverse torque rods provide control in the lateral plane. 5 The six rebound tension straps 40 mentioned earlier essentially prevent the suspension from falling apart by providing a direct connection between the load chassis (not shown) and each of the axle platforms 48. The straps 40 are also pivotably mounted to the platforms 48. The suspension 30 is thus a compression suspension system, although there may be some occasions for example when the trailer is side tipping that the suspension will work in tension. 0 It has been found that use of the suspension system 30 of the present invention has a number of advantages over existing systems known to the Applicant, including but not limited to the following: " The suspension system has been found to be resistant to "wind up" during braking; " It is estimated that the load capacity on each axle using the suspension system of the present invention amounts to some 45 ton/axle, compared to around 25 ton/axle using a leaf spring 25 suspension as per the prior art system shown in Figure 1; " Whilst more expensive to manufacture than leaf spring-type suspensions, the elastomer suspension system of the present invention requires next to no ongoing maintenance and so the long term cost savings are significant. Leaf spring-type suspensions are typically maintained on a monthly basis are prone to leaf breakage; and 30 * The cost to manufacture the elastomer suspension system of the present invention is half the price of manufacturing a typical hydraulic suspension for use in the same application.
8 Modification and variations to this particular embodiment will be obvious or apparent to those skilled in the art. Those modifications or variations are seen to be within the scope of this invention. Further advantages and improvements may very well be made to the present invention without deviating from its scope. Although the invention has been shown and described in what is conceived to be the most 5 practical and preferred embodiment, it is recognized that departures may be made therefrom within the scope and spirit of the invention, which is not to be limited to the details disclosed herein but is to be accorded the full scope of the claims so as to embrace any and all equivalent devices and apparatus. In any claims that follow and in the summary of the invention, except where the context requires otherwise due to express language or necessary implication, the word "comprising" is used in the sense of 0 "including", i.e. the features specified may be associated with further features in various embodiments of the invention.

Claims (9)

1. A suspension system for a vehicle chassis comprising: a first platform assembly having associated therewith a support means for supporting at least one end of a wheel axle, said assembly further including an upper platform surface; 5 a first hanger adapted to be fixed in a suspended configuration from said vehicle chassis, said hanger including a portion that is aligned vertically with a portion of said upper platform surface; a second platform assembly and a second hanger at an opposed end of said wheel axle; spring means located between the platforms and hanger portions; wherein said suspension includes a central vehicle frame mount disposed forwards of each of said 10 platform assemblies, said central frame mount adapted to be fixed in a suspended configuration from said vehicle chassis, said first and second platform assemblies being connected by two pivotable transverse torque rods which extend forwardly and inwardly from each platform assembly to meet at said central frame mount.
2. A suspension system according to claim I wherein said vehicle chassis includes a longitudinal 15 axis, and said platform assemblies and hangers are connected via longitudinal torque rods pivotably connected at both ends to said respective platform assemblies and hangers.
3. A suspension system according to claim I wherein said transverse torque rods are pivotably connected to said central frame mount and respective platform assemblies. 4, A suspension system according to any one of the above claims wherein the spring means is an 20 elastomer spring,
5. A suspension system according to clam 4 wherein each platform assembly is such that that each elastomer spring supported there above is disposed forwards and/or rearwards of each axle. 6, A suspension system according to claim 4 or claim 5 wherein said elastomer spring is in the form of a cylindrical cushion manufactured from natural rubber, urethane 1 micro-cellular urethane or 25 other suitable elastomeric material
7.A suspension system according to claim 5 or claim 6 wherein each hanger assembly includes a suspended hollow housing for receiving said elastomer spring therein and compressing said spring by weight of the vehicle load.
8. A suspension system according to any one of the above claims wherein said vehicle is a multi 30 axk trailer adapted to support a trailer bin. 10 9 A suspension system for a vehicle including a front and a rear axle each having an opposed platform assembly and hanger coupled via transverse torque rods as defined in any one of claims 168 10, A suspension system according to claim 9 wherein said first hanger is fixed andsaid second hanger is an equalizing hanger including an equaliser bar that is rockable about a pivot point, said equaliser bar extending longitudinally such that a portion thereof is vertically aligned with each of said first and second platform assemblies for locating two elastomeric springs there between. 11A suspension system according to claim 10 wherein said second hanger includes a further fixed hanger disposed rearwardly thereof and including a potion that is vertically signed with said 10 second platform for locating an eastomeric spring there between.
12. A double axl vehicle including a vehicle chassis and a suspension system as defined in any one of claims 9 -i 13 A suspension system for a vehicle including a front axle, one or more middle axles, and a rear axle each having an opposed platform assembly and hanger couped via transverse torque rods as 15 defined in any one of claims 18
14. A suspension system according to claim 13 wherein said first hanger is fxed, said one or more middle hangers are equalising hangers each including an equaliser bar that is rockable about a pivot point, said equaliser bar extending longitudinally such that a portion thereof is vertically aligned with each of said first and middle platforms for locating two elastomeric springs there 20 between.
15. A suspension system according to claim 14 wherein said second hanger is an equalising hanger including an equaliser bar that is rockable about a pivot point, said equaliser bar extending longitudinally such that a portion thereof is verdcally aligned with each of said middle and second platforms for locating two elastomeric springs there between. 25 1 a A suspension system according to claim 15 wherein said second hanger includes a further faxed hanger disposed rearwardly thereof and including a portion that is vertically aligned with said second platform for locating an elastoneric spring there between. 17, A vehicle including three or more wheel axles including a vehicle chassis and a suspension system as defined in any one of claims 1513-16-18, 30
AU2011224141A 2010-12-08 2011-09-20 Multi-axle vehicle suspension system Active AU2011224141B2 (en)

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Application Number Priority Date Filing Date Title
AU2011224141A AU2011224141B2 (en) 2010-12-08 2011-09-20 Multi-axle vehicle suspension system

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Application Number Priority Date Filing Date Title
AU2010905392A AU2010905392A0 (en) 2010-12-08 Multi-axle vehicle suspension system
AU2010905392 2010-12-08
AU2011224141A AU2011224141B2 (en) 2010-12-08 2011-09-20 Multi-axle vehicle suspension system

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AU2011224141A1 AU2011224141A1 (en) 2012-06-28
AU2011224141B2 true AU2011224141B2 (en) 2014-12-11

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WO (1) WO2012075538A1 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115489291A (en) * 2022-08-30 2022-12-20 中国北方车辆研究所 Electric drive double round limit motor modularization transaxle

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3356385A (en) * 1966-04-08 1967-12-05 Hendrickson Mfg Co Shear spring suspension
GB2145673A (en) * 1983-08-12 1985-04-03 Trunk Trailer Company Limited Multiple axle suspension system
US4789181A (en) * 1987-02-02 1988-12-06 The Binkley Company Wheeled vehicle suspension

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3356385A (en) * 1966-04-08 1967-12-05 Hendrickson Mfg Co Shear spring suspension
GB2145673A (en) * 1983-08-12 1985-04-03 Trunk Trailer Company Limited Multiple axle suspension system
US4789181A (en) * 1987-02-02 1988-12-06 The Binkley Company Wheeled vehicle suspension

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WO2012075538A1 (en) 2012-06-14
AU2011224141A1 (en) 2012-06-28

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