The present invention relates generally to a stabiliser bar provided with bushing devices to reduce pitching movements in a vehicle. The invention relates particularly to a stabiliser bar for mounting and application to a device for suspending a driver's cab in a vehicle frame, and is particularly intended for commercial heavy vehicles, such as trucks. The invention relates also to a vehicle equipped with such a stabiliser bar.
Heavy vehicles are normally equipped with a cab which is suspended from the vehicle's frame to enhance comfort for drivers and their passenger. The cab is often tippable to enable convenient access to the vehicle's engine and facilitate maintenance and servicing and is commonly tipped forwards in relation to the longitudinal direction of the vehicle via articulation points arranged at the front. The cab is commonly resiliently suspended in the vehicle frame via these articulation points, preferably with the aid of some known type of suspension device, such as coil springs, air springs or similar.
A stabiliser bar is commonly arranged between the cab's two forward articulation points in order to dampen pitching movements as far as possible. For this purpose, the stabiliser bar is configured, at its end sections, with link arms mounted at the cab's articulation points. The stabiliser bar acts in such a way that a vertical movement, for example in one attachment point of the cab, i.e. on one side of the cab, is transferred in damped form to the cab's second articulation point, on the second side of the cab, with the aid of the stabiliser bar's transverse pivot rod. Any pitching movement in the cab which is initiated by a vertical movement at one side of the vehicle is thus counteracted.
The cab is therefore mounted in a conventional manner on the stabiliser bar via link arms arranged longitudinally to the vehicle and suspended in relation to the frame with the aid of a spring arrangement. At their upper end, the springs are typically mounted, indirectly or directly, on the vehicle cab's frame and at their lower end, indirectly or directly in the vehicle's chassis or frame. The link arms are principally supported at one end in the cab and at their second end in the frame/chassis.
At the articulation point which is mechanically connected to the vehicle's frame or chassis, bearings are commonly used which may be ball bearings, sliding bearings, roller bearings or bearings of a similar type. As there is a risk that the bearings, due to their rigid structure, may transfer undesirable vibrations from the vehicle's base to the cab and that this may disturb the driver, a bushing of an elastic material is used in the articulation point, for example a rubber bushing. Lateral supports or lateral stops, also manufactured from an elastic material, are arranged at the side of the bushing. The bushing and the lateral stops may preferably be manufactured from polyurethane, rubber or a similar material with appropriate elasticity, thus reducing vibrations which otherwise risk being reproduced in the cab. In order not to reduce the lateral rigidity in the articulation point, thereby risking increasing lateral movements in the cab, the lateral stops are compressed between supporting surfaces in the stabiliser bar's link arm element and in the bushing/chassis fixing. When the cab's suspension moves, relative movements occur between the lateral stops and said supporting surfaces.
Patent document SE530551 depicts, for example, a cab suspension where the lateral stops are positioned compressed/wedged between the chassis fixing and the stabiliser bar to achieve the required lateral rigidity in the articulation point. The stabiliser bar rotates or pivots in the event of suspension movements in the vehicle/cab and when the cap is tipped to provide access to the engine, and this generates a relative movement between the lateral stops and the stabiliser bar's adjoining supporting surfaces, as the lateral stops are essentially rotationally constant with the chassis fixing, which causes an undesirable friction in these surfaces. This also results in a rotational rigidity and friction in the articulation point which impairs the cab's suspension. Other disadvantages are also associated with known solutions. For example, wear occurs between parts which rotate/pivot or grind against each other, which in turn subsequently wears away the surface from component parts, which may result in corrosion over time. This in turn causes rattling in the event of the cab's suspension movements which is reproduced in the structure.
There is therefore a need for a new and improved solution comprising a stabiliser bar with a bushing device which resolves said problem and which is simple in its structure and therefore cheap to install but which still eliminates the disadvantages associated with the state of the art.
It is also preferable that the structure takes up as little space as possible in the vehicle but is still reliable and provides a function which is maintenance free and effective.
This can be achieved by a structure which eliminates direct contact between the lateral stops and the stabiliser bar's supporting surfaces.
The state of the art does not depict any stabiliser bar which easily and cost-effectively eliminates direct contact between lateral stops and the stabiliser bar.
One object of the invention is to resolve the foregoing problem and to propose a stabiliser bar where an air gap is provided between the lateral stops and the stabiliser bar's supporting surfaces positioned against the bushing device, which parts are not in direct contact with one another, i.e. do not slide against and thus do not wear against one another.
A further object of the invention is that the structure should manifest less rotational rigidity in order to achieve a smoother and more comfortable suspension in the cab and also eliminate the friction between the stabiliser bar and the lateral stops.
A further object of the invention is that the structure should maintain lateral rigidity in the bushing device.
A further object of the invention is that the structure should minimise the risk of corrosion in the articulation point in the event of suspension movements.
A further object of the invention is that the structure should minimise the risk of rattling in the articulation point in the event of suspension movements.
A further object of the invention is that it should be possible to implement the structure without having to make significant modifications to known component parts.
A further object of the invention is that it should be possible to manufacture and quality assure component parts separately and independently of one another.
A further object of the invention is that the invention should comprise as few parts as possible and thereby be cheap to manufacture and install.
These and further objects and advantages are achieved according to the invention by a device according to the features indicated in the characterising part of claim 1.
The invention thus relates generally to a stabiliser bar provided with a bushing device to reduce pitching tendencies in a vehicle. The invention relates particularly to a stabiliser bar for suspending a driver's cab in a vehicle frame in a commercial heavy vehicle, such as a truck.
The invention comprises a washer-shaped unit configured in such a way that it combines the function of a spacer sleeve and a bearing-protection washer. The washer-shaped unit according to the invention is manufactured with a slightly greater diameter than the commonly used bearing-protection washer so that it essentially covers the entire lateral stop. The washer-shaped unit is positioned between the lateral stop and the stabiliser bar and eliminates direct contact between the lateral stop and the stabiliser bar. This prevents the lateral stop engaging with the stabiliser bar and reduces or eliminates the friction that otherwise occurs between the parts in the event of suspension movements, whilst still retaining the lateral rigidity in the arrangement.
Integrating a washer and a spacer element in the washer-shaped unit reduces the number of unique parts/part numbers required in the structure, which reduces the storage costs and makes it simpler and cheaper to install the stabiliser bar in the vehicle. Using the washer-shaped unit at the cab's four standard attachment points reduces from eight to four the number of parts which have to be installed in the vehicle for this function. In spite of this, the disadvantages of the state of the art are eliminated and a more reliable and maintenance-free function is achieved.
The solution according to the invention can be easily implemented in existing stabiliser bars by grinding or milling away, according to the example, approximately 3 mm of material from each side of, for example, the stabiliser bar and/or the chassis fixing/chassis bushing to make space for the washer-shaped unit.
The advantages of the structure according to the invention are therefore that it results in less rotational rigidity, which provides a more or less friction-free and hence smoother suspension in a vertical direction and enhances driver/passenger comfort. The solution results in less wear between component parts, which reduces the risk of corrosion and associated rattling, providing at the same time a high degree of lateral rigidity in the bearing point which counteracts lateral movements in the vehicle's cab.
Further features and advantages of the invention are indicated by the more detailed description of the invention set out below and the attached drawings and other claims.
The invention is described in more detail below in the form of preferred embodiment examples with reference to the attached drawings.
The invention thus relates to a stabiliser bar for reducing pitching movements in a resiliently suspended vehicle cab. The stabiliser bar is pivotably arranged between two articulation points in the cab, transverse to the longitudinal direction of the vehicle, and compensates for vertical movements which occur when the vehicle moves over an uneven surface with the object of enhancing driver comfort.
Lateral stops, 16a, b are arranged on each side of the bushing 14 and the chassis fixing 6b in the form of larger washers of an appropriate thickness, also made of an elastic material, such as polyurethane (PUR), rubber or similar. Bearings 17a, b, preferably ball bearings, are arranged outside the lateral stops 16a, b on each side. The protective washers 18a, b are arranged between the bearings 17a, b and the lateral stops 16a, b. A screw joint 19 holds the bushing 14, the bearings 17a, b and the lateral stops 16a, b in place in the chassis fixing 6a and spacer sleeves 20a, b, arranged on each side of the bushing 14, act against the protective washers 18a, b, relieving any compressive forces acting against the bearings 17a, b. The lateral stops 16a, b support the bushing 14 and the chassis fixing 6a in a lateral direction, thereby increasing the axial lateral rigidity in the suspension device 9.
The primary object of the rubber bushing 14 and the lateral stops 16a, b is to reduce reproduction of vibrations from the vehicle's chassis 5 to the vehicle's cab 10 and thus act as a vibration-isolation means which enhances driving comfort. The rubber bushing 14 primarily isolates vibrations in a vertical direction and in the longitudinal direction of the vehicle, whilst the lateral stops 16a, b primarily isolate vibrations in the transverse direction of the vehicle.
The bushing 14 is compressed during manufacture into the chassis fixing 6a and the lateral stops 16a, b are mounted with a clamp fitting between the bushing's and the chassis fixing's supporting surface 21 and the stabiliser bar's supporting surface 22 positioned against the bushing/chassis fixing, thereby achieving the required rigidity in the suspension device 9. When the suspension device 9 is subject to suspension movements during operation of the vehicle, a relative rotational motion is generated between the chassis fixing 16b and the stabiliser bar 1, causing friction and wear in their supporting surfaces 21a, b and 22a, b. Any outer coating on these supporting surfaces 21a, b and 22a, b becomes worn down over time, causing corrosion to occur when moisture penetrates the supporting surfaces 21a, b and 22a, b. This in turn leads to further increased friction in the articulation and as a consequence increases wear and the risk of rattling.
The washer-shaped unit 23a, b essentially comprises an integrated washer and spacer sleeve manufactured as a single part, which may, for example, be moulded of metal. The washer-shaped unit's 23a, b external diameter essentially corresponds to the current diameter of the lateral stop 16a, b, so that it entirely or at least essentially supports the lateral stop 16a, b in its axial direction. The washer-shaped unit 23a, b is arranged in the suspension device 9 in such a way that there is an air gap 24a, b between the washer-shaped unit 23a, b and the stabiliser bar's supporting surfaces 22a, b.
Integrating a washer with a spacer sleeve in a washer-shaped unit 23a, b achieves a sufficiently rigid arrangement in order to give the lateral stops 16a, b, made from an elastic material, the necessary rigidity without requiring the lateral stops 16a, b to be directly supported by the stabiliser bar's supporting surfaces 22a, b positioned against the bushing/chassis fixing. In this way, reduced friction and less rotational rigidity is thus achieved in the articulation, which provides a smoother vertical suspension whilst still maintaining lateral rigidity. The wear between the parts in the suspension device is reduced significantly as is the risk of rattling and the number of component parts in the structure.
The above description is primarily intended to facilitate comprehension of the invention. The invention is of course not limited therefore to the embodiments indicated above, since other variants of the invention are also possible and conceivable within the scope of the concept of the invention and the protection scope of the claims set out below.
Number | Date | Country | Kind |
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1250177-1 | Feb 2012 | SE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/SE2013/050138 | 2/19/2013 | WO | 00 |