DE19529608C1 - Tensioning roller axis adjustment at its end mounting on a lever arm - Google Patents

Abstract

The appts. to set the axis of a tensioning roller in a loom belt drive, where the axis is mounted at one end to a moving lever arm, has one or more discs (7, 7a) between the lever arm (1) and the end side of a bush forming the axis (4). The angular setting of the axis (4) is adjusted by rotating the discs (7, 7a) which are coaxial to it (4). Their bearing surfaces (8, 9) are at an angle ( alpha ) to each other.

Description

The present invention relates to a device for setting a a tensioning roller bearing, one-sided axle on a weaving machine, wherein the device equally for tensioning one carried by the tensioning roller Belt, preferably timing belt is used.

In the case of weaving machines, various units are usually made up of one motor driven and connected by a chain or a belt. This saves costs since only one drive motor has to be used. At the same time Synchronization of the aggregates achieved.

Chain drives, e.g. B. with a roller chain, are due to the high Noise development and the required lubrication are not suitable. It will therefore timing belt used. These run quietly, can one due to their teeth reliable synchronization results in and require no lubrication.

While chain drives do not place too great demands on the mutual position setting the pinion is a high degree of parallelism of the axes of rotation for toothed belt drives of roles required.

Otherwise, the timing belt will gradually move to the side and can move from the or fall off the rolls. Flanged wheels on the rollers limit the Displacement, but lead to this when the timing belt starts up Flanged wheels for its rapid wear.

It is therefore necessary to hike the timing belt through suitable ones Exclude precautions.

A solution is described in CH 610 633. Here is one Tensioning device used, which is usually used in belt drives to prevent the timing belt from moving. This is done in that the Axis of the role of the tensioning device in a specific, empirical or other  Position to be determined is brought and thereby the offset of the axis of rotation is counteracted.

A disadvantage of the solution according to CH 610 633 is the very complicated Embodiment. A spherical body is provided for adjusting the axis. In a first embodiment, this is a cylindrical bore recorded and clamped in this by means of screws. A second Embodiment sees the creation of the spherical body in one hollow spherical adapted recess.

A disadvantage of both embodiments is that only one non-positive There is a connection and an adjustment occurs when the clamping forces are exceeded. Another disadvantage is the very complex assembly, as three over the scope distributed screws must be tightened in a controlled manner. A simple and rapid readjustment is not possible.

It is therefore an object of the present invention to provide a device according to the Develop the preamble of claim 1 so that a reliable adjustment the axis is quickly and easily possible in a desired position.

According to the invention, this object is achieved through the technical teaching of characterizing part of claims 1 or 2 solved.

It is essential that the adjustment of the axis by rotating one or several disks takes place, the contact surfaces of the disks against each other are inclined. The axis is penetrated by a screw without contact connects with a lever arm on the weaving machine. By turning the discs the axis is in its angular position when the screw connection is partially loosened changed.

It is preferred to use the disks in pairs, then usually identically designed discs are used. If the Contact surfaces of each disc by an angle α against each other results in the Using n disks an adjustment range of n × α. When using only of a disc is a beveling of the face of the axis for angle adjustment required, which contacted the contact surface of the disc.  

To facilitate adjustment, the washers are in the form of regular ones Polygons trained. Here, hexagons with the usual wrench sizes are used preferred adjustment preferred; however, other shapes are also possible. The more Corners the disc has, the more accurate the adjustment can be made because the subdivision perceptible by the adjuster is more precise.

In a preferred embodiment, each disc is marked Mistake. This marking provides information about the inclination of the contact surface the disc. These are particularly useful when the discs are arranged in pairs Markers for this, a zero point of the adjustment, d. H. an angular offset of the Axis.

The connection between the axis to be adjusted, the washers and the Lever arm is detachable and lockable again, e.g. B. in the form of a clamping device educated. If the clamp connection is loosened slightly, the axis can can be adjusted and remains in the set location. Then the clamp connection is complete again manufactured.

The relevant face of the axle can also be beveled itself be provided; in this case one of the disks is virtually integrated in the axis. There can also be a fixed connection between the axle and one of the disks be provided.

This clamping device is preferably designed as a screw that the axis and reaches through the disks without contact and connects to the lever arm.

In the embodiment of the invention according to claim 2 there is provided a Attach the disc directly to the machine. When attaching directly to the The adjustment device described above is directly on a machine Attachment of the machine attached and not on the movable lever arm.

In the following, the invention is explained in more detail using an exemplary embodiment explained.

It shows:  

Fig. 1 shows a cross section through an inventive apparatus;

Fig. 2 is a view in the direction of arrow II of FIG. 1;

Figure 3 is a sectional view of the disc with an inclined contact surface.

Fig. 4 is a plan view of the disc and

Fig. 5 is a schematic representation of the geometry when using two disks, each with an inclined contact surface.

Referring to FIGS. 1 and 2, a lever arm 1 is provided, which is either fixedly attached to a loom, or is part of a clamping device. The lever arm 1 has a bore 2 and a clamping screw 3 and can be attached to a pin (not shown) with these two elements.

At the end of the lever arm 1 opposite the bore 2 , an axle 4 is fastened with a screw 5 . The axis 4 is provided with a through hole for this purpose.

A roller 6 is rotatably mounted on the axis 4 . The details of the storage are known to the person skilled in the art and are sufficiently clear from the drawing without further explanation.

Between the axis 4 and the lever arm 1 , two disks 7 , 7 a with mutually inclined contact surfaces are installed in the exemplary embodiment shown. The angular adjustment of the axis of rotation of the roller 6 by adjusting the axis 4 is effected by rotating these disks 7 , 7 a.

One disc or both discs serve as an abutment of one end of the socket that forms the axis 4 .

Referring to FIGS. 3 and 4, the disc is designed as a hexagon. 7 The two contact surfaces 8 , 9 are inclined relative to one another by an angle α. The disc 7 is provided with a bore 10 through which the screw 5 passes. In order to facilitate the adjustment, the disk is provided with one or more markings, which can be designed, for example, in the form of a recess 11 . There are also grooves, notches, splashes of paint and the like, which are provided in or on the outer surface of the disks 7 , 7 a.

The angular position of the axis 4 with respect to the lever arm 1 is adjusted as follows:

First the screw 5 is loosened a little. Thereafter, at least one of the disks 7 , 7 a is rotated relative to the other disk, whereby the size of the angular adjustment of the axis 4 relative to the central axis 2 a of a machine element received in the bore 2 is determined. The position of the axis 4 is determined by rotating the disks 7 , 7 a together. This twisting can preferably be done by means of a wrench, in particular with a suitable hexagonal configuration of the disk. Then screw 5 is tightened again.

The use of several disks 7 , 7 a or a corresponding beveling of the relevant end face of the axis 4 in connection with one of the disks 7 , 7 a is possible.

Fig. 5 shows the maximum size of the inclination when using two identical discs 7 , 7 a. The maximum possible inclination results from the sum of the helix angle α of the disks 7 , 7 a used, that is to say with two identical disks at an angle of 2 α.

Overall, there is a much better and easier fixation of the axis in the desired position than is the case with the prior art mentioned is.

Reference list

1 lever arm
2 holes
2 a center axis
3 clamping screw
4 axis
5 screw
6 roll
7 disc
7 a disc
8 contact surface
9 contact surface
10 hole
11 mark

Claims (7)

1. Device for adjusting an axle carrying a tensioning roller, the tensioning roller being wrapped by a belt and the axle being connected to a movable lever arm of a weaving machine, and wherein the axle and the tensioning roller rotatably mounted on the axle for correction and / or adjustment a certain angular offset with respect to a parallel central axis of a machine element receiving the lever arm is adjustable, characterized in that the angular adjustment of the axis ( 4 ) by turning one or more coaxial to the axis ( 4 ) between the lever arm ( 1 ) and the end face of a socket , which forms the axis ( 4 ), arranged disks ( 7 , 7 a), the respective contact surfaces ( 8 , 9 ) of which are inclined at an angle (α) to one another. 2. Device according to claim 1, characterized in that the disks ( 7 , 7 a) are designed as regular polygons. 3. Device according to one of claims 1-2, characterized in that the disks ( 7 , 7 a) are provided with a marking ( 11 ) representing the angular position of the axis ( 4 ). 4. Device according to one of claims 1-3, characterized in that the connection between the axis ( 4 ), the disks ( 7 , 7 a) and the lever arm ( 1 ) by means of a releasable and re-ascertainable clamping device ( 5 ). 5. Device according to one of claims 1-4, characterized in that when using two disks ( 7 , 7 a), the two disks ( 7 , 7 a) in the type of material, in the dimensions and the design are identical. 6. Device according to one of claims 1-5, characterized in that when using only one disc ( 7 a) the disc ( 7 a) facing the end of the axis ( 4 ) has a contact surface which corresponds to the contact surface of the disc ( 7 ) corresponds. 7. Device according to one of claims 1-6, characterized in that the clamping device is designed as a screw ( 5 ) which passes through the axis ( 4 ) and the disks ( 7 , 7 a) without contact and screwed into the lever arm ( 1 ) is.