DE102007039133A1 - tensioner - Google Patents

Abstract

The invention relates to a belt tensioner (1) having a substantially cylindrical housing (2) and a hub (3) of a tensioning arm (7) which is coaxially inserted therein, the housing (2) and the hub (3) being mounted rotatably relative to one another and having a helical torsion spring (9) are biased against each other, and a damping device comprising a damping sleeve (16, 20) and a band spring (12, 17) adapted to the damping sleeve (16, 20), the band spring (12, 17 ) between the damping sleeve (16; 20) and the torsion spring (9) is arranged and wherein the band spring (12; 17) and the torsion spring (9) are connected in series. In order to improve the damping of the belt tensioner, it is provided that at least one damping sleeve (16) and at least one band spring (12) in the stationary housing (2) are arranged, wherein the band spring (12) with one end (14) against the housing (2) and with its other end (13) against one end (10) of the torsion spring (9) is supported, wherein the other end (11) of the torsion spring is braced against the hub (3).

Description

Field of the invention

The The invention relates to a belt tensioner with a substantially cylindrical housing and a coaxially inserted therein Hub of a clamping arm, wherein the housing and the hub to each other rotatably mounted and with a helical torsion spring are supported against each other with preload, and with a damping device comprising a damping sleeve and a band spring adapted to the damping sleeve comprising, wherein the band spring between the damping sleeve and the torsion spring is arranged and wherein the band spring and the Torsion spring are connected in series.

Background of the invention

From the DE 101 31 916 A1 a belt tensioner is known in which a band spring encloses a damping bushing, wherein both are arranged at a distance from a helical torsion spring, which is located on a larger radius and is connected to a rotationally secured to the receiving housing and the other with the hub. The spring force of the torsion spring is transmitted via a roller carrier and a roller as a biasing force on a tensioning belt, wherein the damping mechanism fulfills the task to calm the spring-mass system and to avoid undesirable belt vibrations. The damping here is clearly asymmetrical, with a higher attenuation and, when the band spring opens, lower attenuation occurs when the band spring attracts. Such a belt tensioner can in many cases provide satisfactory, but not always optimal damping rates.

The DE 100 63 638 A1 describes a belt tensioner with a clamping arm referred to as a hub with hub, which is designed as a cup-shaped element having a bottom and an opening pointing towards the base. The swing member has a bearing extending from the ground toward the base and supported by a support shaft, and an arm projecting from the outer peripheral surface of the pot-shaped member and supporting a tension roller. The oscillating element can pivot or oscillate about an axis of rotation coinciding with the axis of the carrier shaft. A damping element is secured to the base of a stationary housing at a location closer to the base than to the bearing. The damping element slides on approximately the entire circumference with friction on an inner peripheral surface of the cup-shaped element and supports the vibrating element.

From the DE 696 121 74 T1 For example, a belt tensioner is known which has a pivot arm which is attached to an offset cylinder part which supports the pivot arm and is rotatable about a pivot pin fixed to a base. A arranged on the pivot pin sleeve-like bush has a bearing surface which carries the cylinder part. Attached to the pivot arm is a pulley which engages a belt of a belt drive system and receives a belt load which generates a belt force component for transmission to the cylinder part. The hub load and the generated by means of a damping mechanism normal force component are held by at least one or two jacks having two axially spaced bearing surfaces. The bushings have an axial length by which the bearing surfaces are sized for such average pressure contact that each bearing surface wears radially at substantially the same rate. Due to the substantially same radial wear rate of the bearing surfaces, the pulley alignment over the expected life of the clamping device should be ensured.

Finally, out of the DE 10 2004 047 422 A1 a belt tensioner having a substantially cylindrical receiving housing and a hub coaxially inserted therein, wherein the receiving housing and the hub are rotatably mounted to each other and supported with a helical torsion spring against each other with bias, and with a damping device having a circumferentially slotted damping bushing and an the damping bush adapted band spring comprises. The damping bush is inwardly on a housing connected to the hub of a tensioning arm of the belt tensioner, wherein the band spring between the damping bush and the torsion spring rests, in such a way that the band spring and the torsion spring are connected in series, wherein the torsion spring on the stationary housing of the belt tensioner and the band spring on the housing of the clamping arm is supported.

These Arrangement has the advantage that a very compact construction of the belt tensioner is possible. However, the friction work between the with the clamping arm or clamping lever moving friction lining of the damping bushing and the stationary housing of the belt tensioner does what with regard to oscillating movements of the clamping arm to a increased wear and therefore premature Failure of the belt tensioner can lead.

Object of the invention

The invention has for its object to propose a belt tensioner, the geschil derten disadvantages eliminated. In particular, a cheap to manufacture and compact constructed belt tensioner should be created in which vibration damping is effectively and low-wear causes.

Summary of the invention

Of the Invention is based on the finding that the asked Task in a surprisingly simple way thereby lets loose that the damping sleeve and the band spring acting against it in the stationary housing are arranged, wherein the band spring against the housing supported and braced the torsion spring against the hub is.

The The invention is therefore based on a belt tensioner with a substantially cylindrical housing and a coaxially inset hub a clamping arm, wherein the housing and the hub to each other rotatably mounted and with a helical torsion spring are supported against each other with preload, and with a damping device comprising a damping sleeve and a band spring adapted to the damping sleeve comprising, wherein the band spring between the damping sleeve and the torsion spring is arranged and wherein the band spring and the torsion spring are connected in series. It is also planned that at least one damping sleeve and at least a band spring are arranged in the stationary housing, wherein the band spring with one end against the housing and supported with its other end against one end of the torsion spring, wherein the other end of the torsion spring is braced against the hub.

By this construction is advantageously achieved that the friction lining of the damping sleeve, although, as already from the DE 10 2004 047 422 A1 is known, acts against the oscillating lever, but indirectly via the connection of the tensioned against the stationary housing strip spring with the against the hub or a hub connected to the lid of the clamping arm torsion spring tensioned. As a result, no simple kinematic reversal is effected, but an arrangement is created in which the wear of the friction lining of the damping sleeve can be significantly reduced. For in the inventive arrangement, the damping sleeve does not rotate with the hub and thus with the clamping arm, but remains more or less rigid in the stationary housing. As a result, the wear of the damping sleeve can be significantly reduced in a surprisingly simple manner. At the same time, the one from the DE 10 2004 047 422 A1 known compact and space-saving construction of the belt tensioner impaired in any way.

Furthermore it can be provided that the hub is connected to a cover, on which the clamping arm is formed.

In a particularly practical development of the invention is provided a damping device is arranged in the cover, which a damping sleeve and one to the damping sleeve adapted band spring, wherein the free end of the torsion spring supported at a radially inwardly angled end of the leaf spring.

These Design can also be supplemented by a radially outwardly angled end of the band spring engages in a slot in the lid, wherein the damping sleeve is arranged radially outside of the band spring.

Other practical embodiments of the invention are characterized by that the ends of the torsion spring in each case against one end of the two Support band springs.

Also in the context of the invention it is to be provided that the radially externally angled end of the band spring in a slot engaged in the housing.

In another practical development can be provided that the damping sleeve in one piece to the Band spring is formed. Finally, it is particularly advantageous an embodiment of the invention, which is characterized that the damping sleeve by molding or Rolling is integrally connected to the band spring.

Brief description of the drawings

The Invention will become more apparent in the following with reference to the accompanying drawings explained. It shows

1 a first embodiment of a belt tensioner according to the invention shown in longitudinal section,

2 the belt tensioner according to 1 in cross-section along a line A-A ',

3 a second embodiment of a belt tensioner according to the invention in longitudinal section, and

4 a strip spring of the belt tensioner according to the invention in cross section.

Detailed description the drawing

In the 1 and 2 is a first embodiment of a belt tensioner 1 according to the invention, wherein in 1 the belt Stretcher 1 in longitudinal section along the line BB 'in the 2 , and in 2 in cross-section along the line AA 'in the 1 is shown. The belt tensioner 1 has a substantially cylindrical and stationary, for example, connected to a motor block housing 2 and one in this case 2 enclosed hub 3 which are concentric with each other and rotatable with respect to each other with respect to a rotational and central axis. The hub 3 is by means of a bolt 4 rotatable on a pin 5 Sliding bearing, which directly with the housing 2 connected is.

The housing 2 is provided with means, not shown, for example, flanges or the like, by means of which it can be fixed non-positively in its mounting location. A lid 6 is integral with the hub 3 connected. To the lid 6 and with it to the hub 3 is an only indicated tensioning arm 7 integrally formed, on which a tension roller 8th rotatably mounted, which presses in operation against a drive belt of a belt drive, not shown, and biases the drive belt.

casing 2 and hub 3 are over a helical torsion spring 9 biased against each other, wherein in 2 only a free end 10 the torsion spring 9 is shown. The other end 11 the torsion spring 9 supports against rotation in the lid 6 from. The case 2 directed free end 10 the torsion spring 9 , this in 2 is recognizable, relies on a band spring 12 from whose free end 13 is bent radially inward and the other end 14 secured against rotation on the housing 2 is set, in particular in that the radially outwardly angled end 14 the band spring 12 in a slot 15 in the case 2 intervenes.

The torsion spring 9 and the band spring 12 are in this way between the case 2 and the hub 3 connected in series. The springs are biased in this case, wherein they are radially mounted, that are widened. Radially outside the band spring 12 sits a damping sleeve 16 indirectly from the torsion spring 9 and directly from the band spring 12 is subjected to a radial force, and the axially downwardly and radially inwardly of the housing 2 supported.

The housing 2 has, moreover, a per se known, not shown, rotation stop, with an inner recess on a lid 6 interacts. This is the case 2 and the hub 3 limited only limited by a peripheral sector against each other.

In 3 is a second embodiment of a belt tensioner 1 in longitudinal section according to the section according to 1 shown, which is essentially the belt tensioner 1 of the 1 and 2 corresponds, so that the same reference numerals are used for the same components. Also the belt tensioner 1 of the 3 has a substantially cylindrical housing 2 and one in this inset hub 3 which are concentric with each other and rotatable with respect to each other with respect to a rotational and central axis. The hub 3 is by means of a bolt 4 rotatable on a pin 5 Sliding bearing, which directly with the housing 2 connected is. A lid 6 is integral with the hub 3 connected. To the lid 6 and with it to the hub 3 is an only indicated tensioning arm 7 integrally formed, on which a tension roller 8th is rotatably mounted, which presses in operation against a drive belt of a belt drive, not shown, and biases the drive belt.

The housing 2 and the hub 3 are also via a helical torsion spring 9 biased against each other. The case 2 directed free end 10 the torsion spring 9 is supported by a band spring 12 from whose free end 13 is bent radially inward and the other end 14 secured against rotation on the housing 2 is fixed. The radially outwardly angled end 14 the band spring 12 In this case, grab in a slot 15 in the case 2 one. The torsion spring 9 and the band spring 12 are also biased, wherein they are radially mounted, so widened. Radially outside the band spring 12 is also a damping sleeve 16 indirectly from the torsion spring 9 and directly from the band spring 12 is subjected to a radial force, and the axially downwardly and radially inwardly of the housing 2 supported.

In contrast to the embodiment according to the 1 and 2 this is supported by the lid 6 directed free end 11 the torsion spring 9 indirectly against the lid 6 and against the hub 3 rather, it is rather in operative connection with a second band spring 17 , which is the first band spring 12 corresponds, in contrast to this but on the lid 6 is present and is supported against this.

The radially outwardly angled end 18 the second band spring 17 In this case, grab in a slot 19 in the lid 6 one. Radially outside the band spring 17 is also a damping sleeve 20 indirectly from the torsion spring 9 and directly from the band spring 17 is applied radially with a force, and the axially above and radially inside the lid 6 supported. This supports the free end 11 the torsion spring 9 at a radially inwardly angled end 21 the leaf spring 17 from.

This is a belt tensioner 1 created, which allows an even more effective damping. The torsion spring 9 is here virtually floating, by dealing with their free end up 10 . 11 against the radially inward free ends 13 . 21 the two axially opposite band springs 12 and 17 supported.

In 4 is a particularly preferred embodiment of one of the damping sleeve 16 and the band spring 12 Existing damping element shown in cross section in an enlarged view. The made of damping sleeve 20 and ribbon spring 17 existing damping element according to 3 can be structured the same way. The damping sleeve 16 is in this embodiment in one piece to the band spring 12 formed, namely the fact that the material of the damping sleeve 16 , For example, a polymer plain bearing material, to the band spring 12 molded or the band spring 12 of the material of the damping sleeve 16 is overmoulded. However, it is also possible, for example, a plastic with dry lubricant to the band spring 12 roll to produce in this way a metal-polymer composite part.

1

tensioner

2

casing

3

hub

4

bolt

5

spigot

6

cover

7

clamping arm

8th

idler

9

torsion spring

10

Free end of the torsion spring 9

11

Free end of the torsion spring 9

12

band spring

13

Free end of the band spring 12

14

Free end of the band spring 12

15

slot

16

damping sleeve

17

band spring

18

End of the band spring 18

19

slot

20

damping sleeve

21

End of the band spring 17

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10131916 A1 [0002]
• - DE 10063638 A1 [0003]
• - DE 69612174 T1 [0004]
• - DE 102004047422 A1 [0005, 0010, 0010]

Claims (8)

Belt tensioner ( 1 ) with a substantially cylindrical housing ( 2 ) and a coaxial hub ( 3 ) of a clamping arm ( 7 ), the housing ( 2 ) and the hub ( 3 ) rotatably mounted to each other and with a helical torsion spring ( 9 ) are supported against each other with prestressing, and with a damping device comprising a damping sleeve ( 16 ; 20 ) and one to the damping sleeve ( 16 ; 20 ) adapted strip spring ( 12 ; 17 ), wherein the band spring ( 12 ; 17 ) between the damping sleeve ( 16 ; 20 ) and the torsion spring ( 9 ) and wherein the band spring ( 12 ; 17 ) and the torsion spring ( 9 ) are connected in series, characterized in that at least one damping sleeve ( 16 ) and at least one band spring ( 12 ) in the stationary housing ( 2 ) are arranged, wherein the band spring ( 12 ) with one end ( 14 ) against the housing ( 2 ) and with its other end ( 13 ) against an end ( 10 ) of the torsion spring ( 9 ), the other end ( 11 ) of the torsion spring against the hub ( 3 ) is braced. Belt tensioner according to claim 1, characterized in that the hub ( 3 ) with a lid ( 6 ), to which the tensioning arm ( 7 ) is formed. Belt tensioner according to claim 2, characterized in that a damping device in the cover ( 6 ) is arranged, which a damping sleeve ( 20 ) and one to the damping sleeve ( 20 ) adapted strip spring ( 17 ), wherein the free end ( 11 ) of the torsion spring ( 9 ) at a radially inwardly angled end ( 21 ) of the leaf spring ( 17 ) is supported. Belt tensioner according to at least one of claims 1 to 3, characterized in that a radially outwardly angled end ( 18 ) of the band spring ( 17 ) into a slot ( 19 ) in the lid ( 6 ), wherein the damping sleeve ( 20 ) radially outside the band spring ( 17 ) is arranged. Belt tensioner according to claim 4, characterized in that the ends ( 10 . 11 ) of the torsion spring ( 9 ) against one end ( 13 . 21 ) of the two band springs ( 12 . 17 ). Belt tensioner according to at least one of claims 1 to 5, characterized in that the radially outwardly angled end ( 14 ) of the band spring ( 12 ) into a slot ( 15 ) in the housing ( 2 ) intervenes. Belt tensioner according to at least one of claims 1 to 6, characterized in that the damping sleeve ( 16 ; 20 ) in one piece to the band spring ( 12 ; 17 ) is formed. Belt tensioner according to claim 7, characterized in that the damping sleeve ( 16 ; 20 ) by injection or rolling integrally with the band spring ( 12 ; 17 ) connected is.