DE2301443B2 - Bearing for a piston rod in a hydraulic loading cylinder - Google Patents

Description

Storage for a piston rod in a hydraulic Loading cylinder.

The invention relates to a mounting for a reciprocating piston rod in a hydraulic one Load cylinder for dynamic and static loads on material samples or components.

lei such bearings can, especially with Bending of the material samples, high lateral forces occur on the piston rod, which affect the piston rod bend. This can cause the piston rod to rest against the bearings or to rest of the piston on the cylinder come what to seize This leads to the destruction of the bearing or the loading cylinder and possibly the testing machine leads.

Bearings are known in which the bearings allow the angle of the stored parts to be adjusted (DT-PS 8 49 336. OE-PS 1 75 428). These bearings are for rotating movements, but not for reciprocating movements Movements suitable. Such a storage would, for example, when a The piston rod of the piston come to rest against the cylinder walls.

Weilerhin is known to support the rod of a thrust piston with a sealingly surrounding the piston rod Sockets, compensated for manufacturing tolerances when assembling the device (DT-OS 19 27 753). With this storage, however, deflections occur during operation of the piston rod to edge pressures on the bearings and / or to the piston resting against the Cylinder wall.

Furthermore, there is a device for eliminating or reducing the frictional forces between pistons Lind cylinder of a hydraulic testing machine under load known (US-PS 30 15 315). With this device is used to avoid friction in the gaps between piston and cylinder or between Static pressure built up on the piston rod and bearings. If the piston is bent, length however, even with this device, edge pressures on the bearings and / or the contact of the piston Do not avoid the cylinder walls a

The object of the present invention is to provide a storage in particular a low-friction hydrostatic bearing for the piston rod in a hydraulic one To create load cylinders that absorb high transverse forces, for example through material pro ben introduced into the piston rod, allows Avoids edge pressure on the bearing by adapting to the deflection of the piston rod and affects the deflection of the piston rod such that the piston does not hit the wall of the loading cylinder comes to the point.

According to the invention, this object is achieved in that, in addition to the force application point The bearing facing the piston rod is an elastically flexible bearing towards the point of application of force on the piston rod axially offset bearing is provided.

A storage according to the basic concept of the invention adapts to the deflection of the piston rod due to the resilience of the elastic bearing. Under the effect of transverse forces, the elastic bearing can both give way to the side and also assume an angle to the original setting in the unloaded state. In this way, it is possible to absorb significantly higher transverse forces than be. a simple bearing, whereby damaging edge pressures, which can result with conventional bearings, are avoided. The elasticity of the connection between the two bearings can be adapted to the elasticity of the piston rod. The elastic connection member can be designed in its spring characteristic so that an optimal design of the bearing (z. B. bearing load of the two bearings, deflection and angular position of the elastic bearing, deflection of the piston rod) is possible.

The storage according to the invention also results in an advantageous reduction in deflection the piston rod and thus a smaller deviation of the bending line from the longitudinal axis of the cylinder inside as well as outside the loading cylinder. The bending line of the piston rod is inside of the loading cylinder is almost a straight line. There is thus no risk of the on the piston rod seated piston comes to rest on the wall of the loading cylinder. Hence there are narrower gaps possible between piston and cylinder wall or no or less flexible seals are necessary.

The friction between piston and cylinder wall is reduced to a minimum (only fluid friction. Elimination of mixed friction and dry friction Friction), which is particularly advantageous in the case of high-speed, regulated load cylinders with constant reversal of the direction of movement. It also occurs on pistons. Cylinders and bearings no ver wear on, so that the storage according to the invention is particularly suitable for long-term investigations.

One embodiment of the invention results from that the additional bearing is elastically connected to the loading cylinder via a flexible tube is. Such a spring is available in the present application, for example, for reasons of simplicity Manufacture on.

The storage according to the invention can also be carried out so that the additional camp has a The membrane is elastically connected to the loading cylinder. Furthermore, it can be useful that the

The bearing attached to the loading cylinder is designed as a rigid bearing

In the drawings, exemplary embodiments of the inventive concept are shown schematically

F i g. 1 a cylinder with an additional, over a flexible tube spring bearing elastically connected to the cylinder,

F i g. 2 a cylinder in which the additional bearing is elastically connected to the cylinder via a membrane is ίο

In the one shown in FIG. 1 shown example, a piston I and a piston rod 2 is moved in a cylinder 3 in a manner not shown here. The piston rod 2 is ge.'ägert on one side in a hydrostatic bearing 4. B. a plain bearing can be used, only hydrostatic bearings are shown in the exemplary embodiments, since these are particularly suitable for absorbing high transverse forces. Another advantage of hydrostatic bearings is that the piston and piston rod only run in oil and therefore pure viscosity friction occurs, which also prevents the considerably higher static friction from occurring at the reversal points. On the other side of the piston t, the piston rod 2 runs in a hydrostatic bearing 5a and in an additional hydrostatic bearing 5b, which is connected to the cylinder 3 via a flexible tube spring 6

Storage has a dual function. If the piston rod 2 occurs on the material sample If lateral forces are deflected, the bearing 56 can be resiliently deformed by elastic deformation of the flexible tube spring 6 adjust to the bending line of the piston rod. In this way, the lateral force absorption capacity of the bearing 5a and 56 increased considerably. In addition, the bending line of the piston rod is so influenced that they almost a straight line becomes within the cylinder and thus the piston 1 is not on the wall of the cylinder 3 comes into play The elasticity of the bending tube and the piston rod must be coordinated with one another be that when the piston rod 2 is loaded by transverse forces, the inclination and deflection both to match.

In the embodiment of FIG. 2 is the piston 1 provided with hydrostatically mounted sealing rings 10 and guided in the cylinder 3. The cylinder 3 is with equipped with a diaphragm bearing 51. The bearing consists of the hydrostatic bearings 56 and 5c. That Diaphragm bearing 51 is connected to part 20 of cylinder 3 via an elastic diaphragm 11. In order to • the diaphragm bearing 51 can match the piston rod 2, the diaphragm 11 must be designed so that a deflection of the diaphragm bearing 51 proportional to the deflection of the piston rod 2 takes place The rotary movement of this diaphragm bearing is caused by a couple of forces that act in the two parallel hydrostatic Storage pockets 13 or 14 is created, initiated. The sealing of the diaphragm bearing 51 against the internal pressure of the cylinder 3 takes place through a hydrostatically mounted sealing ring 12.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Storage for a reciprocating piston rod in a hydraulic loading cylinder S samples for static and dynamic loads of material or component, characterized in that in addition to the point of application of force on the piston rod facing bearing (5a) an elastically resilient, for Force application point on the piston rod (2) axially offset bearing (5b) is provided 2. Storage according to claim 1, characterized in that that the additional bearing (56) is elastic with the load cylinder via a flexible tube spring (6) (3) is connected 1 bearing according to claim I. characterized in that the additional bearing (5b ) is elastically connected to the loading cylinder (3) via a membrane (It) 4. Storage according to claim J, characterized that the bearing (5a) attached to the loading cylinder (3) is designed as a rigid bearing.