Endless belt power transmission systems or components – Means for adjusting belt tension or for shifting belt,... – Guide roll mounted for movement of its axis along arcuate...
Patent
1997-12-15
2000-03-21
Bucci, David A.
Endless belt power transmission systems or components
Means for adjusting belt tension or for shifting belt,...
Guide roll mounted for movement of its axis along arcuate...
474133, 474138, 474117, 474101, F16H 712
Patent
active
060396644
DESCRIPTION:
BRIEF SUMMARY
DESCRIPTION
Tensioning Device for Traction Systems such as Belts and Chains
The invention concerns a tensioner for traction elements such as belts and chains, particularly for belt drives of automotive vehicles, comprising a tensioning element, particularly a tension roller, for a tension lever associated to the traction element, a mounting lug of said tension lever being pivoted by a radial bearing on an axle provided on an engine block, and axial stops for the mounting lug being arranged on both ends of the mounting lug, the tensioner further comprising a tension spring element acting at one end on the tension lever and at a second end on the engine block.
A tensioner of the above type is known, for example, from DE-C 38 09 169. In this tensioner, a machine screw inserted through the mounting lug engages into a threaded bore on the engine block, the axial stops being formed by the engine block and the screw head. It is required, in all cases of use, that the tension lever have a certain axial play in the region of the mounting lug. However, accelerations and decelerations of the engine can cause oscillatory movements of the tension lever which result in annoying rattling noises because the mounting lug strikes against the engine block and the screw head.
It is an object of the invention to eliminate these rattling noises using simple means.
The invention achieves the above object by providing sealing rings on both axial ends of the mounting lug, which sealing rings seal the radial bearing at its front ends and project axially beyond the end surfaces of the mounting lug, the axial distance between the axial stops being larger than the axial distance between the end faces of the mounting lug facing the stops.
In a tensioner with the above configuration, one of the sealing rings strikes against its associated axial stop during axial displacements of the tension lever whereby rattling noises are prevented because the sealing rings are made of a soft material which can be a material with rubber-like elastic properties. In addition, the sealing rings provide a reliable sealing of the radial bearing.
The axle can be constituted, for example, by a bush comprising a radial shoulder at each end, with a disc which overlaps the mounting lug in radial direction being arranged on each shoulder. In this case, the axial stops are formed by the discs which can be clamped on one side between the bush and the engine block and on the other side, between the bush and a clamping head. This eliminates the need of additionally fixing the discs on the bush. The clamping head can be constituted, for example, by a screw head of a machine screw which engages into a threaded bore of the engine block. The sealing rings can be lodged on the mounting lug, for example, in annular grooves provided on each axial end of the mounting lug, the axial depth of the annular grooves being smaller than the axial dimension of the sealing rings. This assures that the end surfaces of the mounting lug do not come into contact with the discs as a result of axial displacements of the tension lever.
The invention can be used particularly advantageously in tensioners having linear action springs.
One example of embodiment of the invention is described below and illustrated in three figures.
FIG. 1 is a general view of a tensioner of the invention,
FIG. 2 shows a cross-section through the tensioner of the invention of FIG. 1, and
FIG. 3 is an enlarged view of the mounting lug of FIG. 2.
As can be seen in FIG. 1, the tensioner of the invention comprises a linear action tension spring element 1, a tension lever 2 and a tension roller 3. The tension spring element 1 is pivoted at one end on the engine block 4 and fixed releasably on the tension lever 2 at the other end. The tension roller 3 is rotatably fixed on the tension spring element 1. As can best be seen in FIG. 2, the tension lever 2 is likewise releasably fixed on the engine block 4. A mounting lug 5 of the tension lever 2 is rotatably mounted on a bush-like axle 6. On each front end of the axle 6 t
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Bucci David A.
Charles Marcus
Ina Walzlarger Schaefler KG
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