DE102006023565A1 - Clamping device for a traction means, in particular a belt or a chain - Google Patents

Abstract

Clamping device for a traction means, in particular a belt or a chain, comprising a base plate, a rotatably mounted relative to this against the restoring force of a coil spring and the traction means leading clamping element, in particular a tension roller bearing tensioning lever, and a damping friction element serving, of the coil spring is pressed against the relative to the friction element moving clamping lever, wherein the friction element (10) on a directly on the base plate (2) formed abutment (14, 16, 22) is pivotally supported and by the coil spring (9) against the abutment (14, 16, 22) and the clamping lever is pressed.

Description

Field of the invention

The The invention relates to a tensioning device for a traction device, in particular a belt or a chain comprising a base plate, a relative to this against the restoring force a coil spring rotatably mounted and a traction device leading Clamping element, in particular a tensioning roller bearing tensioning lever, and a damping serving Friction element, which by the coil spring against the relative to the friction element moved clamping lever pressed becomes.

background the invention

A Clamping device of the type described serves a traction means, For example, a belt or a chain of an internal combustion engine, continuously to tension, so as to operational or aging-related length variations compensate. Here, the clamping device on a base plate, for example attached to a motor block, the base plate stationary and is secured against rotation. A tension lever on which a tension pulley or a tension shoe is arranged over the traction means is running, is over with the base plate a coil spring rotatably coupled about a central axis. The screw benfeder is biased, so over the tensioning lever exerts a tensioning force on the traction means, the tension lever is also over the traction means, for example when changing the strand, against the coil spring can be moved.

Further provided is a friction element, for example in the form of a friction shoe, which serves to damp the movement of the tensioning lever relative to the base plate. For this purpose, the friction element is coupled to the helical spring, which presses the friction element against the tensioning lever as a result of the inherent pretension and the lever spring movement optionally increased spring tension, whereby this is damped in its rotational movement relative to the base plate. Such a clamping device is for example off EP 0 780 597 B1 known. The described there, consisting of several parts friction element is pivotally mounted at one end to the base plate, in the region of the other end engages the coil spring and pushes the friction radially around the pivot bearing outward against the housing of the clamping lever. For storage, a bearing journal is provided on the base plate, on which a Aufsteckdurchbrechung having a bearing or holding portion of the multi-part friction element is attached. This design is relatively complex designed after a special bearing pin, which allows a corresponding pivot bearing to be attached to the base plate either separately or form there exactly, on the other hand, the friction element itself is elaborately designed after there the special holding or bearing section with the bearing eye must be formed.

Summary the invention

Of the The invention is thus based on the problem, a clamping device with regard to the base plate side storage of the Reibelements is simply designed.

to solution This problem is in a clamping device of the aforementioned Art provided according to the invention, that the friction element on an abutment formed directly on the base plate pivotally supported is and is pressed by the spring against the abutment and the clamping lever.

Different as in the prior art is in the clamping device according to the invention the friction element is not pivotable on a bearing journal via a bearing eye rotatably mounted, rather comes in the inventive clamping device a simple abutment, so a suitable stop on the base plate used, on which the friction element either with its free end or a corresponding abutment portion formed on it in the form of a projection and over this mere plant pivotally supported is, why the surface of the friction element, be it its free front or the surface of the Projection, according rounded or curved executed. The friction element is here, then, an imaginary one Fulcrum, so a Momentanpol, pivoting in the rolling on the abutment surface. So here is neither a particularly ausestaltendes bearing element provided on the base plate, but rather a simple stop to the formation of the abutment completely sufficient to adequately support the friction element. Also requires the friction element no special design, special storage and holding sections with bearing eye or the like are not provided.

In this case, the embodiment with regard to the pivotable support of the friction element, which is loaded at the other end of the spring and urged against the base plate-side abutment, be designed such that it is in a spring movement for damping against a relative to the lever axis radially further inward lever portion or is movable against a relative to the lever axis radially further outward lever portion. Thus, different embodiments are conceivable, depending on the direction in which the spring moves. The feather can, if it is is stretched, open, so expand the radius ago, in which case the friction element is then urged radially outward against a corresponding abutment portion of the clamping lever, here usually in the form of an outer housing. But the coil spring can also close at further tension, so zoom in from the radius, in which case the friction element is primarily urged radially inwardly against a corresponding abutment portion of the pivot lever, here the bearing hollow pin.

To a first concrete embodiment of the invention, the friction element have a projection of a base plate side abutment forming abutment projection engages behind, wherein the coil spring attached to the other end of the friction element. The friction element, the oblong and bent is, thus has a corresponding one at a location near its one end Projection on, with the friction element on a corresponding abutment on the base plate, also here as a simple projection or as a simple Edge executed, is applied. At the opposite End of the coil spring is arranged. Depending on how the function the coil spring is, so whether the friction element on the coil spring radially outward against the pivot lever or radially inwardly against the pivot lever is pressed is the friction element of the coil spring either against the base plate side Abutment pressed or pulled. In a closing, so from the radius ago decreasing coil spring, the coil spring is suitably in a provided on the friction element receptacle for the spring end, the radial inside or outside can be angled, hung. The coil spring pulls in this embodiment of the invention Friction element with its abutment projection against the base plate side Abutment, it pivots about this Auflager- or support point inside and push it against the abutment portion of the clamping lever. In the opposite case, when the coil spring opens on further load, so radially expanded, presses the free coil spring end against the friction element, pushes this So with his abutment projection against the corresponding projection on the base plate and pivots it radially outward against the tension lever.

A alternative embodiment of the invention, on the other hand, that the abutment of a base plate side abutment projection is formed, against which the friction element with its one end or supported an abutment projection is, wherein the angled spring element, the free other end of Frictionally engaged behind friction elements. In this embodiment of the invention, the spring end of the coil spring not in a corresponding provided on the friction element recording hooked, Rather, the spring end engages behind the free end of the friction element only frictionally. In this invention embodiment, only for a closing, so in the radius, upon further loading, decreasing helical spring is possible will over the trailing coil spring end a force in the friction element introduced, this against the base plate-side abutment projection and at the same time presses against the clamping lever. In this case, the friction element either with its slightly rounded end for the pivot support immediately on the base plate-side abutment projection, a pure Attack forms, be counter-mounted, but it would also be conceivable, a corresponding Provide bearing projection on the friction element itself. The easiest Design, however, is the frontal Auflagerung.

Finally sees a further embodiment of the invention, the abutment of a to form the base plate side abutment projection against which the Friction element with its one end or an abutment projection supported is, wherein the spring element with its end face at the other end of the friction element is superimposed, with the spring end either directly at the end of the Reibelements or the local front side rests or in one there provided recording. This invention embodiment is suitable in an opening coil spring, the with its end edge directly on a corresponding Counter bearing surface on At the end of the friction element and this with his other free, slightly rounded end presses against the abutment projection.

Short description of drawings

Further Advantages, features and details of the invention will become apparent the following description of the embodiments and with reference the drawings. Showing:

1 a schematic diagram of a clamping device for explaining the basic principle of construction of the same,

2 a schematic representation of the support of the friction element and the arrangement of the coil spring according to a first embodiment of the invention,

3 an enlarged view illustrating the support of the friction element 1 .

4 a representation accordingly 2 , but with different coil spring guide,

5 a further embodiment of the invention a support of a friction element and coupling with the coil spring, and

6 a fourth embodiment of a Reibelementabstützung invention and coupling with the coil spring.

detailed Description of the drawings

1 shows in the form of a schematic diagram of an inventive clamping device 1 comprising a base plate 2 , which has a fastening screw, which is not shown here in detail, and the z. B. on the base plate 2 provided sleeve 3 penetrated, for example, is bolted to an engine block. About a pin 4 which engages in a motor block-side recess, is the base plate 2 secured against rotation. Furthermore, a clamping lever 5 provided, comprising a bearing portion 6 for a tension roller not shown in detail and a housing-like lever portion 7 , Further provided is a plain bearing 8th that the storage of the clamping lever 5 on the sleeve 3 causes. The movement of the clamping lever relative to the base plate 2 takes place against the restoring force of a coil spring 9 with one end on an abutment, not shown, on the clamping lever 5 is arranged and with the other, the base side end with a friction element 10 connected. Also provided is a friction disk 11 and an upper lens 12 on the sleeve 3 in a corresponding annular recess 13 is snapped and the tensioning device 1 in the assembled position axially tensioned coil spring 9 locked. Also provided is a on the base plate 2 provided abutment 14 , which is shown here in simplified form as a projection on which the friction element 10 is supported pivotally, which will be discussed below. Is therefore in a clamping device 1 as they are in 1 is shown, via the clamping means a force on the clamping lever 5 exercised, then the coil spring 9 continue to stretch, with the coil spring 9 in this embodiment opens, that is, radially increased slightly in diameter. About the already given bias of the coil spring 9 the friction element is against the friction surface 20 of the box-like lever section 7 pressed about what its relative movement to the base part 2 is dampened. The pressing force is reinforced by the increasing spring tension at a corresponding Hebelverschwenkung.

With regard to the pivotable support of the friction element 10 on the base plate and the coupling with the coil spring 9 are different embodiments conceivable in the 2 - 6 are shown in the form of schematic diagrams.

2 shows a plan view of the base plate 2 at which the friction element 10 , which is shown here as a curved friction shoe, is pivotally supported. This is on the base plate 2 a lead 16 provided, as in 2 shown by dashed lines, because of the friction element 10 concealed, has a slightly curved shape. This lead 16 forms the abutment for the friction element 10 that has a corresponding abutment in the form of a projection 17 see, see 3 , wherein the front edge of this projection 17 also, see the dashed line in 2 , slightly rounded. Overall, this results in a pivotable support, that is, the friction element 10 can be easily pivoted on the abutment support due to the rounded abutting surfaces.

At the opposite end of the friction element 10 is a recording 18 provided, which can be configured arbitrarily, and in which the angled end 19 the coil spring 9 is mounted. The coil spring 9 winds out of the drawing plane to the cocking lever 5 out, which is not shown here, and is connected to this. Will the coil spring 9 as a result of the lever movement further tensioned, it closes easily, that is, it exerts a tensile force F in the direction of the arrow shown on the friction element 10 out. This is done with its friction surface 20 against the sleeve 3 , here part of the clamping lever 5 is, pressed. After the friction element 10 is fixed in position over the pivotable support and only moved radially, the clamping lever 5 with his sleeve 3 However, it is twisted relative thereto, it inevitably leads to a friction damping over the friction surface 20 the friction element, which rests against the sleeve.

A similar embodiment shows 4 , the support of the friction element 10 is realized here in the same way as in the embodiment of the 2 and 3 , Only the leadership of the coil spring and its coupling with the friction element 10 is something different. While in 2 the coil spring coming from the outside with its free end 19 angled inwards and from the outside into the receptacle 18 is suspended, is the coil spring 9 in 4 almost from the inside, that is, adjacent to the sleeve 3 lying to the friction element 10 guided and the free spring end 19 angled outwards and into the receptacle 18 hooked.

Another embodiment shows 5 , There is the friction element 10 with its free end or its front edge 21 , which is rounded here, at a corresponding abutment projection 22 the base plate 2 directly superimposed. Also the abutment projection 22 has a slightly rounded shape, as in 5 clearly shown. The friction surface 20 of the abutment 10 acts here to the sleeve-like housing 7 of the clamping lever, therefore, so to the outside. The coil spring 9 runs adjacent to the friction element 10 or lies on its side and engages behind with its free end 19 the end 23 of the friction element 10 , which slightly reduces in diameter here. This results in a frictional connection between the spring end 19 and the friction element 10 , The inherent spring preload or the additional spring tension generated as a result of the lever movement generates a force F on the friction element 10 on the one hand this firmly against the abutment projection 22 on the other hand, but also the friction surface 20 against the sleeve-like housing 7 presses to damp the lever movement. In this embodiment, there is also a closing coil spring movement with further tensioning thereof.

An embodiment which allows an increase in the damping when opening coil spring caused by the lever movement shows 6 , Also there is an abutment projection on the base plate side 22 provided with slightly rounded stop surface, at the end face 21 the free end of the friction element 10 , which is also rounded in this area, is mounted directly pivoting due to the curves. At the opposite end 23 of the friction element 10 is a recording 24 provided in the free end 19 the coil spring 9 is included. This presses with its front edge 25 directly on a corresponding abutment surface of the recording 24 , As a result of the already existing spring preload, the coil spring 9 continuously urges to open, as well as by any increase in voltage due to a lever movement, which leads to an opening of the coil spring is on the Auflagerung the front edge 25 in the recording 24 a force F at this point in the friction element 10 initiated. Over this is the friction element 10 against the abutment projection 22 depressed and at the same time with its friction surface 20 against the abutment surface on the box-like section 7 of the clamping lever. Although here is a recording 24 is shown, this is not mandatory. It would be equally conceivable, the Schraubenfe the 19 directly on the end of the friction element with a straight contact surface 10 aufzulagern.

1

tensioning device

2

baseplate

3

shell

4

spigot

5

clamping lever

6

bearing section

7

lever portion

8th

bearings

9

coil spring

10

friction

11

friction

12

lens

13

annular recess

14

abutment

15

16

head Start

17

head Start

18

admission

19

spring end

20

friction surface

21

front edge

22

Abutment edge

23

The End

24

admission

25

front edge

F

traction

Claims (8)

Clamping device for a traction means, in particular a belt or a chain, comprising a base plate, a rotatably mounted relative to this against the restoring force of a coil spring and the traction means leading clamping element, in particular a tension roller bearing tensioning lever, and a damping friction element serving, of the coil spring is pressed against the relative to the friction element moving clamping lever, characterized in that the friction element ( 10 ) on a directly at the base plate ( 2 ) trained abutment ( 14 . 16 . 22 ) is pivotally supported and by the coil spring ( 9 ) against the abutment ( 14 . 16 . 22 ) and the clamping lever is pressed. Clamping device according to claim 1, characterized in that the friction element ( 10 ) supported so pivotally and with the coil spring ( 9 ) is connected, that in a spring movement for damping against a relative to the lever rotation axis radially further inwardly lying lever portion ( 3 ) or against a relative to the lever rotation axis radially further outward lever portion ( 7 ) is movable. Clamping device according to claim 1 or 2, characterized in that on the friction element ( 10 ) a lead ( 17 ) is provided, which forms a base plate-side abutment abutment projection ( 16 ) engages behind, wherein the coil spring ( 9 ) at the other end of the friction element ( 10 ) is attached. Clamping device according to claim 3, characterized in that on the friction element ( 10 ) a recording ( 18 ) for the spring end to be suspended therein ( 19 ), which is angled radially inwardly or outwardly, is provided. Clamping device according to claim 1 or 2, characterized in that the abutment of egg a base plate-side abutment projection ( 22 ) is formed, against which the friction element ( 10 ) with its one end ( 21 ) or an abutment projection is supported, wherein the angled end of the spring ( 19 ) the free other end ( 23 ) of the friction element ( 10 ) engages behind. Clamping device according to claim 1 or 2, characterized in that the abutment of a base plate-side abutment projection ( 22 ) is formed, against which the friction element ( 10 ) with its one end ( 21 ) or an abutment projection is supported, wherein the spring element ( 9 ) with its end face ( 25 ) at the other end of the friction element ( 10 ) is stored. Clamping device according to claim 6, characterized in that at the free end ( 23 ) of the friction element ( 10 ) a recording ( 24 ) for the spring end ( 19 ), in the. the face ( 25 ) of the spring end ( 19 ) is provided. Clamping device according to one of the preceding claims, characterized in that the abutment projection ( 17 ) or the free end ( 21 ) of the friction element ( 10 ) and / or the abutment projection ( 16 . 22 ) on the base plate ( 2 ) is executed rounded.