DE569996C - Hollow shaft - Google Patents

Description

The invention relates to hollow shafts which are primarily subject to bending become, such as B. the axles of the rail vehicles. Its purpose is the lifespan to lengthen such rotating machine parts known per se or to utilize the cross section of the shaft better than before and so to lessen the weight. Rotating axes that are subjected to bending stress are usually symmetrical Cross-section, so that in the fibers located symmetrically to the center line equally high tensile and compressive stresses prevail, which over the entire cross-section with each revolution run by alternately pulling and pushing each fiber. The long-term stresses reach the maximum values, especially in the edge fibers, so that each at Edge of the mostly cylindrical body

The material fiber that lies in this way has to endure tensions which are constantly changing all levels between a maximum pressure above zero up to the maximum pressure Run through train. For the cross-section

In order to determine such machine parts that are subject to vibrations, it is not just the static strength of the material that is decisive, but also its vibration strength.

With the previous designs one has the knowledge that the fatigue strength on train a much lower one than the fatigue strength under pressure is not taken into account. According to the invention is to take advantage of these different fatigue strength values the hollow shaft body is axially pretensioned under pressure, so that in all cross-sectional fibers Axially directed compressive stresses prevail in the unloaded state of the machine part. In the operating state, these pressure biases have the effect that the from the Bending stresses resulting tensile stresses are reduced and the compressive stresses increase. According to the invention, the pre-stressing on pressure has to be carried out in such a way that the actually prevailing Stresses corresponding to the ratio of fatigue strength under tension to fatigue strength on pressure approximated until adjusted.

Generating pre-stresses in structural members and machine parts is a known, widespread measure. So it is z. B. common, in designs composed of different materials, for. B. in reinforced concrete construction, the reinforcing iron serving to stiffen and also to absorb the tensile stresses to tension, which is done, for example, to account for the different expansions caused by thermal fluctuations. It is also ⁶ <> often occurred that caused in composite components by the required connection of the various structural members in individual tensile stresses, but these, even if they occur with hollow shafts to secure, for example at the ends of journals, of negligible Meaning.

In the drawing is an exemplary embodiment for the idea of the invention illustrated.

A hollow axle α intended for rail vehicles is axially pressed by a bolt b, which is under axial tensile stress, so that compressive stresses prevail in all of its fibers in the unbent condition of the axle a. If the axis is now replaced by *

bent to the wagon load, so the experience the. Tensile stresses caused by the initial compressive stress Reduction, while the compressive stresses caused by the bending and the initial compressive stress add up. In this way it is possible to adjust the relationship between tensile and compressive stresses accordingly the ratio of tensile and compressive fatigue strengths of the one used for the shaft To regulate building material.

Of course, the structural design of the central pull rod b can be very different. For example, this rod b can be shrunk warm into the hollow shaft α or welded to the shaft a in the warm state. Likewise, a tube can also be used for the bolt b , which is connected to the ends of the axis α by screwing, clamping or welding.

Claims (2)

Patent claims: 1. Hollow shaft subjected to bending stress, in particular axle for rail vehicles, characterized in that the axially directed compressive prestressing of the shaft (α) results from the bending stresses resulting tensile or compressive stresses on the ratio of the fatigue strength of the material Train or pressure approximated to adapted by reducing the tensile stresses and increasing the compressive stresses are. 2. Hollow shaft according to claim 1, characterized in that a tension member (b) arranged in the shaft (a) biases the shaft body axially under pressure. 1 sheet of drawings