DE4339596A1 - Temperature dependent belt tensioning mechanism - Google Patents

Abstract

A tension spring (5) acts between the bodies, and the adjustment is carried out by an expanding spiral strip (6) dependent on temp. The spiral strip is connected in series with the spring and wound in the same direction. The strip can be fixed to the radial inner end of the spring, from which it extends radially inwards. There can be a sleeve (7) inside which is the spring, while the spiral strip is wound onto the outside. The inner end (10) of the strip passes through an adjusting opening (11) extending in the peripheral direction and is joined onto the spring outer end.

Description

The invention relates to a temperature-dependent Clamping device according to the preamble of the main claim.

From DE 23 18 450 it is already known one Clamping device depending on the temperature adjust. Here is the one attached to the engine block Lever with tensioner attached to the other end using of an expansion rod adjustable. To the expansion rod from one solid, sufficiently stable metal for use To be able to produce, a relatively large length must be provided the corresponding change in length is guaranteed when the temperature changes. The well-known Execution therefore requires an elongated free space in the area of the engine front. In many cases, however, that is Accommodation is not possible because of the very spacious running belt drive and the necessary auxiliary units occupy the place.

The object of the invention is a temperature-dependent To create clamping device in the smallest of spaces can be accommodated and which is inexpensive to manufacture.

The object is achieved in that the expansion element as Spiral tape executed and with the tension spring in the same Winding direction is connected in series.  

The spiral band is made of a metal that is attached to Temperature increase greatly expands. Because solid materials are one have only a small relative elongation, as with State of the art, a large length can be provided. By the design according to the invention is due to the space problem loosened spiral winding of the relatively long tape. The tape can have little strength because of it only strained by the force of the tension spring becomes. By tightly winding from layer to layer with no space in between, can be a large total length in the smallest space be accommodated. At one of the ends of the Expansion element is the tension spring attached and sets proceed in the same direction.

When the temperature of the motor increases, the distance between the Engine axes to each other larger. This will make it Stretched empty belt of the drive belt, the Tensioning device deflected and the tension spring further would be excited. To be the same in this operating situation The elongated spiral band maintains tension a reset of the tension spring to values of the same tension. The otherwise progressive behavior of the tension spring is therefore for the working point shift between cold and warm phase of the Motors compensated. By choosing the material and in particular the length of the spiral band can be relative Change in temperature change precisely the behavior of the Motors are adjusted. The spiral band can optionally be radial be arranged inside or outside the tension spring.

The invention is based on the in drawing described examples described.

Show it:

Fig. 1 shows the partial cross section of a temperature-dependent tensioning device for drive belts with an external spiral band and

Fig. 2 shows the partially shown embodiment of FIG. 1 with an internal spiral band.

In the tensioning devices shown in FIGS. 1, 2, only the area of the tension spring can be seen. Features not essential to the invention have been omitted.

On a support body 1 with fastening bore 2 a not shown clamping body 3 is pivotally mounted eccentrically arranged clamping roll. 4 In between, the series connection of a tension spring 5 and a spiral belt 6 is effective, which turn the tension roller 4 against a drive belt. For this purpose, the tensioning body 3 is provided with a sleeve-shaped section 7 , on which the spiral band 6 is placed with fewer than three turns lying one on top of the other. The outer end 8 is attached to the clamping body 3 with an eyelet via a holding pin 9 . The inner end 10 extends radially through an adjusting opening 11 through the sleeve-shaped section 7 and is connected to the outer end 12 of the tension spring 5 . The connection is made via U-shaped, interlocking ends 10 , 12 . The inner end 13 of the tension spring 5 is anchored non-rotatably in the support body 1 . The spiral band 6 consists of a metal with a high temperature coefficient and increases its length when the temperature rises. In the form shown, at medium temperature of the motor to which the tensioning device is attached, the connecting member 10 , 12 is approximately in the middle of the adjusting opening 11 which extends in the circumferential direction. Due to the large length over almost three turns, the outer end 12 of the tension spring 5 is adjusted by a few millimeters in the temperature range of the motor from assumed 20 to 100 ° C. Although the tensioning roller 4 has to adapt in the swivel direction in this temperature range, the tensioning spring 5 is adjusted by the same amount of deflection. In the temperature range mentioned by way of example, the same clamping force therefore always acts.

In the example according to FIG. 2, the spiral band 6 is only fastened radially on the inside and thus on the inner end 13 of the tension spring 5 . Here too, several turns are arranged one on top of the other and result in a large length and thus a large change in length when the temperature changes. The inner end 10 of the spiral band 6 is angled and anchored to the support body 1 . The outer end 8 is fastened to the coil spring 5 by spot welding points 14 .

Claims (3)

1.Temperature-dependent tensioning device for drive belts with a fixed supporting body, a pivoting tensioning body carrying the tensioning roller thereon, an intermediate tensioning spring and an expansion element which effects a feed movement depending on the temperature, characterized in that the expansion element is designed as a spiral belt ( 6 ) and with the Tension spring ( 5 ) is connected in series in the same direction. 2. Temperature-dependent tensioning device according to claim 1, characterized in that the spiral band ( 6 ) at the radially inner end ( 13 ) of the tension spring ( 5 ) is fixed and continues with the same winding direction radially inwards. 3. Temperature-dependent clamping device according to claim 1 or 2, characterized in that the clamping device has a sleeve-shaped section ( 7 ), with a radially inner tension spring ( 5 ) and arranged on the lateral surface spiral band ( 6 ) with its radially inner end ( 10 ) is connected to the outer end ( 12 ) of the spiral spring ( 5 ) by an adjusting opening ( 11 ) extending in the circumferential direction.