DE1941531U - ROLLING BEARING ARRANGEMENT ON SHAFTS THAT ARE UNDER THE EFFECT OF AN AXIAL THRUST. - Google Patents

Description

10

When storing shafts that are under the action of a thrust force acting in the axial direction, for example shafts of axial fans, one goes in general in such a way that one of the bearings is designed as a floating bearing and the other as a fixed bearing * The axial thrust completely absorbed by the plague camp. This! Fixed bearing is therefore more heavily loaded than the floating bearing. To for The fixed bearing in general has to guarantee both bearings approximately the same calculated service life larger than the floating bearing can be selected.

Sometimes the expansion of a warehouse is not only opposed to spatial and structural reasons, also due to the permissible maximum speed of such bearings there are limits to an enlargement «,

The present invention shows a way by a special constructive measure, the plague camp at to relieve the bearing of shafts that are under the action of an axial thrust force considerably. The invention is characterized in that one roller bearing is designed as a plague bearing and a second roller bearing is supported with its outer ring against a peder, which with about half the force of the entire occurring axial thrust counteracts this.

- 2nd

An additional effect of the invention is that the bearings are given a backlash-free run and so the vibration excitations from these bearings cease to exist »It is already known 5 to achieve a play-free run of bearings by using support springs, but such Never springs after the force of the axial thrust have been calculated j they are designed to be considerably weaker in practice

The invention has proven particularly useful when moving the shafts of large axial fans. By the invention Load absorption of the thrust force by both is, for example, the calculated service life of the fixed bearing from two to ten years.

In the accompanying drawings is an axial fan shaft chosen as an example to explain the invention; of course, the invention does not stay on waves limited by axial fans, it can be used on all machines whose shafts are axially stressed.

Fig. 1 shows a longitudinal section through a ventilator.

The thrust P acts against the air direction L. The impeller 2 with the blades 3 sits on the shaft 1 The spherical roller bearing 4 is designed as a fixed bearing, while the spherical roller bearing is otherwise usually designed as a floating bearing 5 acts as a pseudo fixed bearing by the compression spring 7 acting against the outer ring 6 of this bearing. The force of the spring 7 is approximately P / 2.

In the example shown, the bearings 4 and 5 are of the same size chosen; it is within the scope of the invention to choose roller bearings of different sizes. Force constructive

Reasons for making the plague camp larger or smaller than the pseudo plague camp, for example By adapting the spring force, it is possible to ensure that both bearings have a calculated service life of almost the same size reach.

The Pig. 2 schematically shows the same arrangement as Mg. 1, specifically for the use of angular contact ball bearings.

In I ¹ Ig. 3 the arrangement with university camps is finally shown schematically. Camp 8 is the plague camp, while camp 9 is designed as the pseudo-fixed camp according to the invention under the action of the peder 10. Bearing is a normal floating bearing.

So far it has been with relocations according to the Pig. 2 and 3 It is necessary to select and / or select the bearings that are arranged in relation to one another with regard to their axial tolerances. adapt. Due to the idea of the invention, this is no longer necessary, rather bearings can be used, whose tolerances are in the range of the manufacturing tolerances.

Claims (1)

RA, 603 878-20.9.63 \ | Arrangement of rolling bearings, ζ "Β. of spherical roller bearings, for the storage of shafts that are under the action of a thrust force acting in the axial direction, characterized in that one roller bearing (4) is designed as a fixed bearing and a second roller bearing (5) is supported with its outer ring against a spring (7), which occurs with about half the force of the entire Axial thrust counteracts this »