CH128969A - Roller bearings on curved spreader rollers. - Google Patents

Description

  

  Roller bearings on curved spreader rollers. The storage of rotatable rollers on curved axes ge on spreader rolls for fabric offers significant difficulties, once because of the curvature of the shaft and then because of the lubrication, there. these stretching rollers have to work partly hot and dry, partly immersed in dirty waste liquor. It is a main requirement that the individual roles, which often run in large numbers, for example 200 and more, can be rotated easily despite the opposing forces generated by the material and not quickly worn away.



  The many previously known roller bearings do not meet all requirements. In practice, for example, the ball bearing, which is probably suitable for dust-free, dry-running stretch rollers due to its economical use of lubricant, showed serious defects in the fleet, such as the balls becoming blocked by mud, oxidation, etc. The usual bearing of the rollers directly Curved axles, on the other hand, are the main evils that cause the curved axles and rollers to wear and tear, resulting in poor running of them.



  The present invention is a roller bearing on curved wide stretch rollers, which is intended to avoid these disadvantages ver. In the drawing, the state of the art of the invention is shown in exemplary embodiments.



       1 shows a longitudinal section of a curved stretching roller with three unpowered, loosely running stretching rollers; Fig. 2 shows a variant of a barrel on a larger scale in longitudinal section and Fig. 3 the same in cross section; Fig. 4 shows another example in longitudinal section and Fig. 5 the same in cross section.



  In Fig. 1, the curved axis is shown with a, on which, depending on the roller length, a certain number of liners b sit with stretching rollers c rotating on them. A snap ring d or an adjusting ring with a screw and a flange o prevent the sleeve b from slipping out of the roller c and thus connect the sleeve and roller to a whole that can easily be attached to the axle t! can be attached. To prevent the liner from rotating on its own on the axis, a short pin e is inserted radially into the liner in such a way that it engages in a continuous longitudinal groove on the axis a.

   Instead of the pin e, according to FIGS. 2 and 3, a groove f can also be arranged in the bore of the bushing, in which a wedge h of the axle engages. In order to give the liner b the necessary adjustability according to the roller axis, which always forms a certain angle to the axis a, the same sits with the center to tapering holes .x, y of the curved axis a, as in Fig. 1 is a bit exaggerated.



  In the exemplary embodiment according to FIGS. 4 and 5, a semicircular groove g is arranged in the raceway b and, corresponding to it, a round rod <I> i. </I> in the axis <I> a </I>



  As a result of this pivotability, each role b must be given a suitable support point. This is achieved in that the liner b in the roller c is moved on one side against the one end of the roller to such an extent that its pivot point for the adjustment movement comes to the end of the roller surface. There, each roller has a Zenherrand 7c in the form of a spherical zone, on which the neighboring stretching roller c with a corresponding edge ia is supported.

   In this way, each stretching roller c receives two well-dimensioned, correctly working bearing points as a result of their setting at the greatest possible distance, which excludes a harmful tilting of the rollers.



  It should be noted here again that the curvature of the axis is somewhat exaggerated in the representation and the support is therefore in reality much more favorable and possible without large sliding paths on the spherical zone 7e.



  Bushings b and stretching rollers c can be made of various materials suitable for sliding friction and chemical influences, depending on the intended use and stress, while a construction material is selected for the mechanical wear and tear and bending stressed axis a, which is suitable for strength is cheap.



  Advantages of the storage described above are that the most stressed wearing parts are easily exchangeable, that the stretch rollers rotate on large bearing surfaces which, due to the adjustability, distribute the pressure evenly, so that the individual elements can be easily cleaned and assembled Let it pull up and down and the axis remains intact.



       The axial displaceability is also valuable because it relieves the liners of lateral pressures that are created by the stretching effect and are taken up by the pressure edges.



  The stretching rollers could also have coupling claws: connected to one another and provided with a common mechanical drive, as for example in patent nos. 98068, 114092.

 

Claims (1)

PATENT CLAIM: Roller bearings on curved pulp stretching rollers, characterized in that the rollers are rotatably seated on bushings, the center of which is tapered bores! sit on the curved axes in the longitudinal plane pivotable. SUB-CLAIMS: 1. Roller bearing according to claim, characterized in that the bushings are slidable along the curved axes and insured against rotation. 2. Roller bearing according to patent claim, characterized in that the bushings are arranged on one side on the stretching rollers, and the latter lead with one-sided spherical zones in the adjacent stretching rollers. Ä. Roller bearing according to claim, characterized in that the bushings are secured in their position on the stretch rollers by removable holding means and can be pulled off with the latter as a whole from the curved shafts.