CS210889B1 - Self-acting rolling oil lubrication device for rolling bearings - Google Patents

Abstract

The invention relates to a self-operating circulating oil lubrication device for rolling bearings, especially for mounting vertical shafts. The vertical shaft passes through a tank from which a rotating truncated cone, wading in oil, delivers oil to the bearing. This cone is surrounded in its upper part by a stable rotating body, which causes acceleration of the lubrication start. The effectiveness of this lubrication is particularly evident in multi-row bearings.

Description

The present invention relates to a self-circulating oil lubrication device having lubricant spraying means, particularly useful for receiving vertical shafts.

Known oil shafts of vertical shaft rolling bearings are arranged such that oil is pumped into the bearing from a tank located below the bearing by means of a rotating truncated cone. This cone, with its smaller base wading in the lubricating oil, and during rotation, due to different peripheral speeds, the oil is pumped on the inner or outer surface of the cone towards the larger base and sprayed there into the lubricated bearing. The oil, which reaches over the bearing, is returned to the tank via a channel in the bearing housing.

This method is suitable only for lubrication of single row ball or roller bearings, as is evident from literature and practical tests. When using a double bearing, the upper row of rolling elements is no longer reliably lubricated because the oil does not have enough pressure to penetrate the space of the upper row of rolling elements through the curvature of the outer race. Controlling the amount of oil supplied to the bearing is possible by varying the steepness of the cone, which is sometimes difficult due to the limited space under the bearing,

It is an object of the invention to provide a lubrication device so as to ensure lubrication of the entire rolling bearing.

According to the invention, in the lubricating device the rotating truncated cone is surrounded by a coaxial stable rotary body. The clear diameter of the base of the stable rotary body facing the rolling bearing is at least as large as the clear diameter of the outer ring of the rolling bearing.

The stable rotary body may be a hollow truncated cone or a hollow cylinder. Furthermore, the stable rotary body can be extended enough to be partially immersed in the lubricating oil.

The advantage of this solution is that all upwardly pressed oil is led into the space of the actual bearing. A quick start of lubrication is ensured at full power of the machine start. In some cases, the invented device can be replaced by a separate oil pump even where the oil has not only a lubricating function but also a cooling function.

The invention is illustrated in the drawings, wherein Figures 1 to 3 show three exemplary embodiments of the device in cross-section.

According to FIG. 1, the vertical shaft 6 is mounted in a double row roller bearing 2 and surrounded by an oil tank J. A hollow truncated cone 6 rotating with the shaft 6 is arranged below the roller bearing 2 on the shaft. This truncated cone 8 is immersed by its narrow end in the oil of the tank and its wider base is closed by a support plate 2 provided with openings on its edge. Coaxially with the truncated cone 6, a stable rotary body 6 is formed just below the roller bearing 2, consisting of a hollow truncated cone which overlaps the truncated cone 6 with its lower part. The ground clearance of the stable truncated cone base is the same as the outside diameter of the outer ring of the roller bearing 2. In the roller bearing housing 2 3 ^{e, the} oil drainage channel 8 from the space above the roller bearing 2 back to the tank 6.

According to FIG. 2, the lubrication device has such a long stable rotary body 6 that its narrow end reaches below the oil level of the tank 2.

The embodiment according to FIG. 3 has a stable rotary body 6 in the form of a hollow cylinder whose inner diameter coincides with the inner diameter of the inner ring of the bearing 2,

The rotating truncated cone 8 carries the oil contained therein up into the holes of the support plate 6, from where it ejects into the rolling bearing 2. At the same time, the oil is carried up also on the outer surface of the rotating truncated cone 4.

The function of the stable rotary body 6, which in the embodiment of FIG. 1 is a hollow truncated cone, is that the oil which rises on the rotating cone A is pushed upwards after reaching the gap between the rotating body and the stable one The upper edges of the fixed cone must be sprayed away from the bearing 2. From there the oil is pushed over the bearing 2 by the rolling elements and returned through the channel 2 in the bearing housing 2 to the oil tank J under the bearing. This ensures reliable lubrication even in the upper row of rolling elements.

If the oil tank J is filled with at least 2.3 volume, works with lubrication structure according to the first embodiment reliably from 900 rpm ^- 'to 1400 rpm. At higher speeds the lubrication is already too intense and the oil foams.

The structural embodiment shown in Fig. 2 where the stable cone 6 extends to below the oil level, is achieved reliable lubrication from 500 rpm ^- 'at least 2/3 of the oil filling. The upper limit of the applicability of this design is 900 rpm ^- '. At higher speeds the lubrication is again too intense and the oil foams.

To properly lubricate the bearings at speeds above 1400 rpm ^- ', used lubricating device according to the third embodiment. In this arrangement, lubrication begins to operate at 1400 rpm ^- '. In tests and meet at 2240 rpm ^- '.

Claims (4)

An automatic circulating oil lubrication device for rolling bearings, in particular for supporting vertical shafts, having a rotating truncated cone wading in lubricating oil underneath the lubricated bearing, characterized in that the rotating truncated cone (4) is surrounded by a coaxial stable rotary body (6). the diameter at the end facing the matt roller bearing (2) is at least as large as the clear diameter of the outer ring of the roller bearing (2). An automatic circulating oil lubrication device according to claim 1, characterized in that the stable rotary body (6) extends partially below the lubricating oil level. An automatic circulating oil lubrication device according to claim 1 or 2, characterized in that the stable rotary body (6) is a hollow truncated cone. 4. The automatic circulating oil lubrication device according to claim 1 or 2, characterized in that the stable rotary body (6) is a hollow cylinder.