DE375246C - Device for testing lubricants - Google Patents

Description

Device for testing lubricants. The subject of the invention forms a device for testing lubricants, by means of which it is possible is, the lubricant by measuring devices for the heat and amount of the lubricant on the shaft and bearing in their correct, ready-to-use version and under the exact conditions of operation without being influenced by support bearings check. There are already manifold designs of devices for testing Lubricants known in which bearings or bearing parts with adjustable pressure are used will. However, all of these devices are more or less dependent on the necessary auxiliary storage affected.

According to the invention, the support bearings for the test shaft with the test bearing exchangeable and coolable set up in such a way that they are in terms of temperature and Friction can be obtained in a steady state. By measuring the temperature the bearing and lubricant, - the lubricant consumption and effort the values required for testing the lubricant can be determined. That Bearings with the shaft to be used for the test correspond exactly to the ready-to-use ones Pieces. A special design of the test shaft makes it possible to do the same to make heatable or coolable without influencing the support bearing, so that too Bearings that are exposed to very high temperatures, e.g. B. roller cups, calenders, Hot rolling, etc., can be tested while maintaining the condition of persistence. The device can also be used to test bearings.

The drawing shows an exemplary embodiment of the subject matter of the invention shown with heatable shaft and support ball bearings, namely Fig. z show a Front view, Fig. 2 a longitudinal section through the test shaft, Fig. 3 a support bearing of the test shaft, partly in section.

The frame of the test device consists of side stands i and 2, which are connected by a head piece 3. The two ball bearings q. and 5 mounted test shaft 6 can through the gearbox 7 and a drive machine be set in rotation at different speeds. Instead of the illustrated gear transmission 7 a bevel gear can also be used, which allows the setting of any Pivot allowed.

The test bearing pushed onto the shaft 6 or placed around the same 8 stands by a jig 9 with an interposed dynamometer with the The frame is connected in such a way that the bearing pressure can be applied from above or below can be adjusted. The gap losses caused by this compressive stress and flow velocities due to eccentric displacement between bearings and shaft become full in the test; come into account.

The test shaft 6 is connected to the gear train 7 by a flange io tied together. This flange connection allows the test shafts to be exchanged easily and the testing of shafts with different diameters. i The ball bearings, ¢ and 5 (Fig. 2 and 3) are inserted interchangeably in a housing 1i and set up so that that they can be washed around by a coolant to endanger their operation To prevent heating and to bring about a steady state that does not affect the test bearing. The outer steel race of the ball bearing is equipped with ribs 12 drilled through. The space between the ribs is used to hold the coolant, so that a too strong Heating of the entire ball bearing under heavy use is avoided. With to- and outlet 1q., 15 bottles i3 provided for the coolant seal the one to be cooled Annular space to the outside. When changing test shafts of different diameters With this arrangement it is only necessary to use ball bearings with larger or smaller rib lengths insert into the housing and appropriate sealing washers for this use. Instead of being on the steel raceway of the ball bearing, the ribs can also be arranged on a ring to be inserted into the housing ix, which has the in Usually smoothly executed outer race of the ball bearing fits. It is then only necessary to have appropriate sizes for different sizes of the ball bearings of the ribbed retaining rings. In this case, ball bearings can be used of the current version.

In order to be able to heat the test shaft 6 for testing bearings for hot rollers and the like, it is expediently provided with a heating device in that both ends are provided with suitably large bores up to the running point of the test bearing. These holes are lined with heat protection compound. The part of the test shaft remaining full between the bores at the running point of the test bearing is provided with a number of small longitudinal channels r6 through which a jet flame can be blown by means of the pipe 17 of a compressed air blower or the like. When the hot gases flow through the channels 16, heat is mainly given off to the running point of the test bearing. The hot gases are discharged through exhaust pipes 1ß. The lateral ball bearings only have to dissipate the conduction heat from the frame of the test shaft by means of their cooling device.

The measurement of the oil supplied to the test center itself is carried out, as indicated in the drawing, in a known manner by the temperature and quantity measurements, while the energy consumed comes from that supplied to the prime mover after calibration of the other moving parts is measured.

Claims (2)

PATENT CLAIMS: x. Device for testing lubricants with Jig for the test bearing and measuring devices for the heat and quantity of the lubricant, characterized in that the support bearings (4, 5) for the test shaft (6) with the test bearing (8) are set up to be exchangeable and coolable, and the clamping device of the latter (8) an eccentric mounting of the test shaft (6) according to the real operating conditions. 2. Apparatus according to claim i, characterized characterized that for the purpose of heating or cooling the support bearing and the test bearing the outer race of the support bearing (q., 5) or a special insert ring with drilled holes Ribs and the test shaft at both ends up to the test point with large holes Diameter and inner clothing is provided with heat protection compound, during the Full part of the shaft remaining at the bearing point of heating gases or coolants.