DE471567C - Lubricating device for the crankshaft bearings of internal combustion engines - Google Patents

Description

Lubricating device for the crankshaft bearings of internal combustion engines For the bearing lubrication in internal combustion engines has so far been particularly In high-speed machines, pressure lubrication has proven to be the most effective however, not completely secured against failure due to clogged oil nozzles and the like is. With slower running shafts ring lubrication is used, with higher However, stress is often not sufficient for its purpose and when the engine is tilted, as they occur in air, land and water vehicles, completely fails because the only Rings moved by the friction of their own weight simply stop, so that the oil production stops.

It is known to lubricate shaft bearings by means of a feeder roller which, driven by friction from the shaft, transfers the oil to it. This type of lubrication has been used especially for wheel axle bearings that are loaded on one side, while for crankshaft bearings the mere application of the oil by a roller in contact with the shaft would not be sufficient in view of the difficult pressure conditions. The invention now overcomes the previously existing deficiencies in crankshaft bearings, by also promotes a partially running in an oil bath feeder role in per se known manner, the 01 against the shaft to be lubricated. From here the oil is picked up by a distribution channel and swept around by the rotating shaft, whereby it is evenly distributed over the entire bearing surface. The excess oil is conveyed from the distribution channel above the shaft into a collecting space and returned through particularly large channels along the outside of the bearing shells. The strong oil circulation obtained in this way ensures intensive cooling of the entire bearing and at the same time prevents the oil from being pressed out at the shaft ends.

The drawing shows an exemplary embodiment of the subject matter of the invention shown, namely the figure shows a cross section through a with the novel Lubricated bearing.

The bearing body is denoted by a. Located in its lower part the oil chamber b, while the shaft c, as usual, runs in the bearing bush d. This bushing is provided with a recess e at the bottom, from which a lubrication groove extends f in the direction of rotation of the shaft to a little over half the circumference of the same extends and preferably terminates in a wedge shape, as indicated at f '. The outlet for the excess oil is at the top of the can g, while the bearing housing with a filler opening h. is provided by a lid, stopper or the like i can be closed.

The role k, made of brass, gunmetal, steel or any other arbitrary Material can exist is stored in a fork l so that it is partially in the Oil in the oil container b immersed and through a in a can m housed springs are pressed upwards in the recess e against the shaft c, by the rotation of which it is carried along as a result of the friction. One in the slot o the bushing m guided pin p the roller fork prevents the roller from moving sideways to twist.

The oil conveyed by the roller through the lubricating groove f emerges from the outlet opening g into the upper collecting space q of the bearing housing, from where it is distributed to the two return channels r, r ' and fed back to the oil container b in the direction of the arrows. A sight glass serves to observe the respective oil level in the bearing housing. The cross-section of the roller h is arbitrary and depends on the liquid of the oil. The role can therefore be cylindrical, conical or curved; in the case of very thin oils, it can have a recess that facilitates the promotion.

The device works in the following way: the chamber b is filled with oil through the filling opening h, so that the roller k is immersed in it. The rotation of the shaft c now causes the rotation of the roller k in the opposite direction to the direction of rotation of the shaft due to the pressure of the spring n. Here, the oil is brought upwards in a thick jet from the oil container and discharged into the recess e to the shaft, which deposits it in front of the inlet opening of the lubrication channel f, thereby sealing it off in an airtight manner. Under the influence of the shaft rotation, a strong suction effect arises in channel f, through which large quantities of oil are torn through it, some of which is distributed over the entire bearing surface, while all excess oil is driven through the outlet opening g and through the return channels r , r 'is returned to the oil reservoir.

When distributing the oil over the friction surfaces, the wedge-shaped one acts The outlet f 'of the lubrication channel is particularly favorable in that the oil on this Place is pressed between the surfaces under relatively strong pressure and as a result, lies between them in the form of a fine oil film.

In addition to ample lubrication of the bearing surfaces, the strong oil production naturally also causes intensive cooling of the bearing, both on the friction surfaces and on the outer circumference of the bearing bush due to the constantly flowing backflow in the channels r and r '. For this reason, the oil consumption is also extremely low.

The invention is not limited to the embodiment shown; in particular, the number and arrangement of the lubrication channels can meet the respective requirements be adjusted, and also .die roles can be initiated by other suction Feeder devices are replaced. With waves that run in both directions are determined, a second lubrication channel can be provided next to the first, the its inlet opening then of course on the other side of the recess e in the bearing bush must receive.

Claims (2)

PATENT CLAIMS: i. Lubricating device for the crankshaft bearings of internal combustion engines with a conveyor roller or the like that brings the oil to the shaft and a drainage channel serving to return the excess oil, characterized by the arrangement of a distribution channel (f) extending approximately over half the circumference of the bearing, which is in communication above the shaft with a collecting space (g) and with return channels (r, r ') extending therefrom and surrounding the bearing shells on the outside. 2. Lubricating device according to .Anspruch i, thereby characterized in that the lower recess (e) receiving the conveyor roller (k) in the bearing shell is only dimensioned so large that the amount of oil delivered by the Recess outgoing distribution channel (f) is able to seal off airtight in order to thereby to cause a negative pressure in the distribution channel (f) during the rotation of the shaft.