DE331991C - Central lubrication device with oil pot and precipitation device - Google Patents

Description

Central lubrication device with oil pot and precipitation device. The invention relates to a central lubrication device that is primarily used for this purpose is intended to serve to add lubricating oil to the steam. The device can also be used for mixing used by liquids. As an oil lubrication device, it gives to the steam a quantity of oil, which depends on the quantity of steam flowing through a pipe, so that all steam cylinders which are connected to this feed line are absolutely be evenly lubricated.

The subject of the invention consists of an oil pot filled with water and oil. The lines for oil and water, which are connected to this pot, both open into the steam line, namely the oil line opens into a narrower part of the steam line than the water line, so that the pressure on the water is higher than the pressure on the oil as a result of the increasing speed of the steam in a narrowing tube. The pressure difference is used according to the invention to press the oil into the steam. This ensures that the amount of oil added corresponds to the amount of steam flowing through the line, namely because the amount of oil which flows through the control valve of the oil pot corresponds to the root of the pressure on the oil (Torricelli's law v - V @gh ', where h means the pressure difference). The amount of steam that flows through the line is corresponding to the pressure difference of the steam in the largest and smallest cross-section of the tapering piece of the steam line. This results from the following: If v = steam speed in the steam line, v, = steam speed in the narrowest cross-section of the taper, A = steam pressure in the narrowest cross-section of the taper, P = steam pressure in the steam line, C = a constant number, then For a certain taper there is a certain ratio between v1 and v, which is dependent on the largest and smallest cross-section of the taper, so that the steam speed in the steam pipe is also proportional to the root of the pressure difference. It follows from this that the amount of oil that flows into the taper always corresponds to the amount of steam flowing through the steam line. The oil enters the taper at the narrowest point, where the speed is highest. The atomization of the oil droplet is therefore guaranteed.

So that the pressure difference alone affects the amount of oil supplied, disruptive influences must be eliminated. As a result of the different specific weights of water (and steam) and oil in the connecting pipe and the tapering piece with the oil pot, a pressure is created that has a disruptive effect. The steam line between the oil pot and the tapering piece is therefore composed of two parts according to the invention; in the first part there may only be steam, while in the second part there may only be water. The lengths of the oil and water connection pipes, measured in the vertical direction, are selected in such a way that the lengths behave like the specific weights of water and oil. For this purpose, the water (and steam) pipe is provided with a long horizontal part, for example in the form of a spiral, in which the rainwater forms. If a lot of steam precipitates, i.e. with low oil consumption, only water forms in this horizontal part. By isolating the part above the spiral it can be achieved that water rises in this part only with very little steam consumption. Furthermore, the horizontal part of the water pipe should be so long that the water always comes into the oil pot at approximately the same temperature with large and small oil consumption, because otherwise the temperature of the oil and thereby its viscosity will be significantly changed, which has a strong influence on the oil consumption .

The drawing shows an exemplary embodiment of the subject matter of the invention - illustrates.

Fig, z is a side view of the device, Fig. 2 is a plan view.

The oil pot a is by means of a pipe b with the widest part of the tapering piece c built into the steam line. The horizontal part d of the tube is designed as a spiral in the example chosen.

The part of the pipe b2 between the tapered piece c and the spiral d is filled with steam, as is part of the spiral itself. The remaining part b1 of the connecting pipe b is filled with rainwater. The pipe e, which is connected to the oil floating on the water in the oil pot, is on the other hand connected to the narrowest part of the taper. The length Hw of the water pipe, measured in the vertical direction, is related to the length Ho of the oil pipe, measured in the vertical direction, like the specific weights of 01 and water.

The pressure difference in the steam delivery pipe could instead of by means of a Tapering achieved in a known manner by installing two pitot tubes will; however, eddy currents would then arise which impair the pressure drop would.

Claims (3)

PATENT CLAIMS. _. Centralized lubrication device with oil pot and deposition apparatus, characterized in that the, is provided with water and 01 filled oil pot (a) so connected to one in the main steam line (f) built taper portion (c) by means of tubes (b and e) that the 01 through which a Tube (b) is connected to the narrowest part of the tapering piece (c) and the water through the other tube (b) is connected to the widest part of the tapering piece (c). 2. Oil lubrication device according to claim =, characterized in that the tube (b) is provided with a horizontal part (spiral d) of such a length that the liquefaction only takes place in this part (d) at the highest steam consumption, so that the Part (b1) of the tube (b) between the spiral (d) and the oil pot (a) is filled with water and the part between the spiral (d) and the taper (c) is filled with steam. 3. Oil lubrication device according to app. Proverbs z and 2, characterized in that, measured in the vertical direction, the length (Hw) of the water pipe from the spiral (d) to the point of entry into the oil pot (a) is related to the length (Ho) of the oil pipe (e) how the specific gravity of 01 to the specific gravity of water.