DE2125434B2 - Lubricating oil supply for a rotary piston machine - Google Patents

Description

The invention relates to the lubricating oil supply for a rotary piston machine, in particular a rotary piston internal combustion engine in trochoid design, with a piston which runs around inside a housing jacket, the inner wall of which has an inlet opening has, to which an inlet channel is connected, in the front with respect to the direction of rotation of the piston Wall part a lubricating oil channel acted upon by an oil metering pump opens and into which one Pipe piece is used, which with said front wall part of the mouth of the lubricating oil channel in the Inlet channel forms a narrow flow gap up to the inlet opening, according to patent 14 51 730.

The invention is based on the object of determining the amount of lubricating oil delivered by the lubricating oil metering pump To bring not only fine, but also evenly to the lubrication point.

This object is achieved in that the lubricating oil supply through material that between the lubricating oil metering pump and the housing jacket inner wall is arranged, is throttled.

The invention advantageously achieved that a for example, every 30 revolutions of the rotary piston machine dispensed oil droplets are metered and is released so long until the next funding follows again.

In a preferred embodiment of the invention, in the flow gap between the Pipe piece and the front wall part of the inlet channel labyrinthine material such as Felt, needle felt, porous sintered material or a multitude of fine threads or fibers made of steel, Plastic, ceramic, glass or carbon can be arranged.

The labyrinth-like material has a great resistance to the pulsating negative pressure in the inlet channel, so that the oil cannot be sucked out at the oil delivery point. Thus it is achieved that ^r> is capable of very small oil droplets dispersed uniformly to exit at the oil discharge point also. Any smallest irregularities in the production of the flow gap in the inlet channel, which may have caused the oil droplet to choose the path of least resistance, lose their importance, since the oil is now stored in the flow gap, which can be made wider, and also in the supply lines to this is delivered until it is finely dosed with each revolution of the rotary piston machine

I ^ will.

How the concept of the invention can be implemented in detail can be seen from the exemplary embodiment which is shown in the drawing. It shows
F i g. 1 shows a section through a housing jacket

2 <) a rotary piston internal combustion engine in the area of the inlet port and

2 shows a view of the housing jacket in the direction of arrow II from FIG. 1.
In the housing jacket 1 of a rotary piston combustion

2 ") engine (Fig. 1) are an intake port 2 and a Outlet channel 3 is provided. Both the inlet opening 4 and the outlet opening 5 are located in the inner wall of the housing jacket 6, where they are controlled by a piston, not shown. To lubricate the

«Ι housing jacket inner wall 6 opens into the inlet channel 2, a lubricating oil channel 7, to which through a Dosing pump, not shown, is fed oil via a line 8. The mouth of the lubricating oil channel 7 lies in the one with reference to the direction of rotation 9

s ^r > of the piston front wall part of the inlet channel 2.

To the oil exiting from the mouth of the lubricating oil channel 7 without contact with air or fuel to lead to the housing jacket inner wall 6 is

4 <) inserted into the inlet channel 2, a pipe section 10, the extends close to the inlet opening 4 on the housing jacket inner wall 6. From the area the opening 7 up to the inlet opening 4, the outer surface of the pipe section 10 is somewhat in radius

■ i> reset, so that a narrow flow gap Il arises. In the area of the mouth of the lubricating oil channel, the flow gap U is in the circumferential direction of the Pipe section 10 only slightly larger than the diameter of the mouth. Then he takes after the

w inlet opening 4 towards continuously, and at the end of the Pipe section 10, it extends over half the circumference of the inlet channel 2 (Fig. 2). The depth of the Flow gap 11 is adapted so that a thin layer of a labyrinthine material, for example

Vi felt, needle felt, porous sintered material or a multitude of the finest threads or fibers made of steel, plastic, ceramic, glass or carbon can be introduced.

In the area of the flow gap 11 is the inlet opening

w) opening 4 of the inlet channel 2 rounded at 13, so that from the flow gap 11 exiting oil remains bound to the housing jacket inner wall 6 and covers this in its entire width. With the air flowing through the inlet duct 2 or with fuel

·> ■> the oil does not get into the inlet duct 2 itself Contact. It cannot therefore be torn away or washed off.

1 sheet of drawings

Claims (2)

Patent claims: 1. Lubricating oil supply for a rotary piston machine, in particular a rotary piston internal combustion engine in trochoid design, with a piston that rotates within a housing jacket, the Inner wall has an inlet opening to which an inlet channel is connected, in which in relation on the direction of rotation of the piston front wall part acted upon by an oil metering pump Lubricating oil channel opens and in which a piece of pipe is inserted, which with said front wall part from the mouth of the lubricating oil channel in the inlet channel to the inlet opening forms a narrow flow gap, according to Patent 1451 730, characterized in that the lubricating oil supply by material that is arranged between the lubricating oil metering pump and the housing jacket inner wall (6), is throttled. 2. Lubricating oil supply for a rotary piston machine according to claim 1, characterized in that that in the flow gap (11) between the pipe section (10) and the front wall part of the Inlet channel (2) labyrinthine material such as felt, needle felt, porous sintered material or a multitude of the finest threads or fibers made of steel, plastic, ceramic, glass or carbon is arranged.