DE19926647A1 - Belt tightener has two tensioning arms and rollers, on joint pivot axle, two bearing eyelets, pin and base element - Google Patents

Abstract

The belt-tightener has two tensioning-arms (2,3) each with a tightening roller (4,5) and swivel mounted on a shared pivot axle (1). The tensioning arms are each sprung against a stringer of the belt. One tensioning-arm is swivel mounted on the other arm. One arm (3) has a bearing-eyelet (14) swivel mounted on the other arm's bearing-eyelet (12) itself swivel mounted on a pin (7) which has a base element (6). A radial slide bearing (15) is between the two tensioning-arms. The base element has a plate (8,9) for each of the two end sides of the pin.

Description

Field of the Invention

The present invention relates to a tensioning device for belts as they be used in particular in belt drives of internal combustion engines. The present invention relates in particular to those clamping devices which with two each pivotable about a common axis of rotation a tensioning roller having tension arms are provided, each against one The belt of the belt is sprung.

Background of the Invention

DE 42 43 451 A1, for example, describes a tensioning device for trains medium such as belts or chains, in which two tension arms open a common axis of rotation are pivotally arranged. Both Spannar me are arranged axially one behind the other on the axis of rotation. Such instep devices have the disadvantage that in a game between the Clamping arm and the axis of rotation tilt, which result can that the tensioning rollers are no longer properly on the belt. This means that a force component acts on the belt that the Belt axially pushes away from the tread of the tension pulley, so that unfavorable if necessary, the belt comes off. Furthermore, due to the large axial Er stretching the axis of rotation disadvantageously that in the clamping on the engine block due to the large lever arm an undesirably high bending moment on the Axis of rotation can occur.

The object of the present invention is therefore to provide a tensioning device specify the features of the preamble of claim 1, in which the La load due to tilting and the bending moments that occur are reduced.

According to the invention this object is achieved in that the one clamping arm is pivotally mounted on the other clamping arm.

This tensioning device according to the invention is axially short. Yet Due to the nested design, large guide lengths can be attached to the Bearing points are provided, which the tilting nei in a favorable manner impeded. Because the mounting of one clamping arm on the other Tension arm takes place, the transverse force generated by the one arm by the second clamping arm at least partially compensated. Thus, both the Ver tendency to tilt and wear are minimized.

An advantageous development according to the invention provides that one Clamping arm has a bearing eye that is on one bearing eye of the other Clamping arm is pivotally arranged, the bearing eye of the other Clamping arm is pivotally arranged on a pin. With this invent training according to the invention is a particularly cost-effective variant shown, since the two bearing eyes, for example, by simple pipe pieces can be formed, which are attached to the clamping arms, the two Pipe pieces are arranged one inside the other.

Another variant of the invention provides that one with a pin provided base element is provided, the other clamping arm the pin is pivotally arranged. The axis of rotation is in this case according to the pin formed, preferably in one piece with the bottom element, for example a base plate, is connected. Such a thing The basic element can be produced, for example, using the deep-drawing process.

To enable smooth swiveling movements of the clamping arms,  a radial sliding bearing can be arranged between the two clamping arms. Dude natively or additionally can also be between the tenon and the other chip not a radial slide bearing be provided.

The basic element can be on either end of the pin with a plate be provided, with both clamping arms arranged between the two plates are not. In this way, the basic element takes on the function of a Housing, ensuring that the two clamping arms are not axially from can slide off the spigot.

Between one plate and one clamping arm and between the other Ren plate and the other clamping arm can each be arranged a friction element his. Such friction elements are then often used in clamping devices sets to dampen tension arm movements.

One of the two clamping arms can be arranged coaxially to the axis of rotation Neten annular groove in which a helical torsion spring is arranged, the one on the one arm and the other on the other Arm is supported. The screw rotation provided as a tension spring it is therefore perfectly protected. Besides, no additional Space is required to accommodate the helical torsion spring.

The invention is explained in more detail below on the basis of an exemplary embodiment shown in a figure. The inventive Spanneinrich device has two pivot arms about a common axis of rotation 1 arranged 2 , 3 , each carrying at its free end a tension roller 4 , 5 to rest on the belt, not shown.

Furthermore, a base element 6 is provided, which is formed from a pin 7 and plates 8 , 9 arranged on both end faces of the pin 7 . Both plates 8 , 9 are rotatably connected to the pin 7 . The base element 6 is preferably attached to an engine block of an internal combustion engine.

Between the plate 9 and the tension arm 2 , a friction disc 10 is angeord net and between the plate 8 and the tension arm 3 , a further friction disc 11 is arranged.

The clamping arm 2 is provided with a bearing eye 12 which is pivoted on the pin 7 with the interposition of a radial sliding bearing 13 . The clamping arm 3 is provided with a further bearing eye 14 , which is pivotably arranged on the bearing eye 12 with the interposition of a further radial sliding bearing 15 .

Both clamping arms 2 , 3 together delimit an annular groove 16 which is arranged coaxially to the axis of rotation 1 . In this annular groove 16 a helical torsion spring 17 is arranged, which is supported at one end on the tension arm 2 and at the other end on the tension arm 3 . This means that the helical torsion spring 17 acts between the two tensioning arms 2 , 3 and springs both tensioning arms against the belt, not shown.

On the two tensioning rollers 4 , 5 attacking belt forces or reaction forces due to the tensioning force of the helical torsion spring 17 cause the tensioning arm 2 counterclockwise and the tensioning arm 3 to be tilted in a clockwise direction with respect to the axis of rotation 1 . These tilts are in opposite directions. The transverse force generated by the clamping arm 2 is at least partially compensated for by the transverse force generated by the clamping arm 3 in the bearing point 13 . This compensation consequently reduces the tendency to tilt in the bearing point 13 .

Reference numbers

1

Axis of rotation

2nd

Arm

3rd

Arm

4th

Idler pulley

5

Idler pulley

6

Basic element

7

Cones

8th

plate

9

plate

10th

Friction disc

11

Friction disc

12th

Bearing eye

13

Radial plain bearings

14

Bearing eye

15

Radial plain bearings

16

Ring groove

17th

Helical torsion spring

Claims (8)

1. tensioning device for belts, with two about a common axis of rotation ( 1 ) arranged pivotably, each with a tensioning roller ( 4 , 5 ) provided tensioning arms ( 2 , 3 ), which are sprung against one strand of the belt, characterized in that one clamping arm ( 3 ) is pivotally mounted on the other clamping arm ( 2 ). 2. Clamping device according to claim 1, wherein the one clamping arm ( 3 ) has a La gerauge ( 14 ) which is arranged on a bearing eye ( 12 ) of the other span arm ( 2 ) pivotably, the bearing eye ( 12 ) of the other ren Clamping arm ( 2 ) is pivotally arranged on a pin ( 7 ). 3. Clamping device according to claim 1, wherein a with a pin ( 7 ) verses hen basic element ( 6 ) is provided, wherein the other clamping arm ( 2 ) on the pin ( 7 ) is pivotally arranged. 4. Clamping device according to claim 1, in which a radial slide bearing ( 15 ) is arranged between the two Spannar men ( 2 , 3 ). 5. Clamping device according to claim 3, in which a radial sliding bearing ( 13 ) is provided between the pin ( 7 ) and the other clamping arm ( 2 ). 6. Clamping device according to claim 3, in which the base element ( 6 ) is provided with a plate ( 8 , 9 ) in each case at the end faces of the pin ( 7 ), both clamping arms ( 2 , 3 ) between the two plates ( 8 , 9 ) are arranged. 7. Clamping device according to claim 6, in which a friction element ( 8 , 9 ) is arranged between the one plate ( 8 ) and the one clamping arm ( 3 ) and between the other plate ( 9 ) and the other clamping arm ( 2 ). 8. Clamping device according to claim 1, wherein at least one of the two clamping arms ( 2 , 3 ) with a coaxial to the axis of rotation ( 1 ) arranged ring groove ( 16 ) is provided, in which a helical torsion spring ( 17 ) is arranged, on the one hand on the a tension arm ( 2 ) and which is supported on the other on the tension arm ( 3 ).