DE19606622A1 - Reciprocating combustion engine with adjustable-length connecting rod - Google Patents

Abstract

The internal combustion engine has a reciprocating piston with a connecting rod, which is joined to a crank pin on a crankshaft (5) by a split head (3,6). Each part of the latter has a cylinder (1,8), with a piston (2,7) which has a bearing shell casing on its opposite end.The bearing shells (4) are supported on the crank pin, and both hydraulic cylinders may have a hydraulic connection to one another via a pressure regulator which is fixed to the head. The latter may have a cylinder (19) with a grooved (23) piston (16) and an adjusting screw (13), and may have spring-loaded valves (18,21) and pipes (15,17,20,22)

Description

The variation of the compression space from. Described in the literature (Automobil Revue, No. 49/4, Dec. 1986) Internal combustion engines are achieved by an adjustable piston. The larger moving masses require larger crankshaft and connecting rod bearings and more to cope with the acceleration forces Inertia for the concentricity of the motor.

In the internal combustion engine according to main claim 1 of this patent application (P 44 44 555.5) there is also Problem of large inertial forces on the crankshaft and flywheel.

This problem is solved by the features listed in claim 1 of this invention.

In the drawing ( Fig. 8) an embodiment of this invention is shown and will be described in more detail below.

The hydraulics and the control, which are housed in the split connecting rod head ( 3 , 6 Fig. 8) on the crank pin of the crankshaft ( 5 ), cause the connecting rod ( 3 ) to change in length depending on the load on the internal combustion engine. The compression ratio thus adapts to the load.

It works like this:
If the pressure in the cylinders ( 1 , 19 ) increases during the working stroke of the internal combustion engine above the value set with the adjusting screw and the spring ( 13 ), the piston ( 16 ) moves in the direction of the spring ( 14 ) and releases the line ( 20 ) . The hydraulic oil now flows from the cylinder ( 1 ) through the lines ( 15 , 20 , 22 ) and the spring-loaded valve ( 21 ) into the cylinder ( 8 ). The connecting rod ( 3 ) lowers and becomes shorter. That is, each working stroke of the internal combustion engine that generates a higher pressure in the cylinder ( 1 ) than that specified by the spring ( 14 ) in the cylinder ( 19 ) pumps hydraulic oil from the cylinder ( 1 ) through the lines ( 15 , 20 , 22 ) and the spring-loaded valve ( 21 ) to the cylinder ( 8 ).

At a lower load on the internal combustion engine, the pressure in the cylinders ( 1 , 19 ) is lower than that specified by the spring ( 14 ). The spring now pushes the piston ( 16 ) into the cylinder ( 19 ) until the flow of line ( 17 ) through the slot ( 23 ) of the piston ( 16 ) is free. Now, with each revolution of the crankshaft, hydraulic oil is pumped from the cylinder ( 8 ) through the lines ( 22 , 17 , 15 ) and the spring-loaded valve ( 18 ) into the cylinder ( 1 ) until the spring and the pressure force are balanced again.

The flow resistances in the lines, in particular at the flow cross sections released from the piston ( 16 ) to the lines ( 17 , 20 ), cause a delayed reaction of the piston ( 16 ) to pressure fluctuations in the cylinders ( 1 , 8 ), so that the equilibrium between the pressure force on the piston ( 16 ) and the spring force ( 14 ) gradually adjusts.

The piston ( 16 ) must be arranged so that the acceleration and deceleration forces of the mass of the piston increase the force of the spring ( 14 ) at higher speeds.

In the lower part of the connecting rod head ( 6 ) there is an additional cylinder ( 9 ) with a piston ( 10 ), a spring ( 11 ) and an adjusting screw ( 12 ). This cylinder serves as an expansion vessel for the change in volume of the hydraulic oil in the event of temperature fluctuations.

With the adjusting screw ( 12 ), the spring ( 11 ) and the piston ( 10 ), the pre-pressure in the cylinders ( 1 , 8 ) is also set.

The cylinders are filled with hydraulic oil via a bore ( 24 ) in the crankshaft, a groove on the circumference of the inside of the bearing shells ( 4 ), in which a bore leads to the cavity ( 25 ).

The cavity ( 25 ) is equipped with spring-loaded valves ( 26 ), so that in the event of a lack of hydraulic oil in the cylinders ( 1 , 8 ) there is a pumping action which pumps hydraulic oil out of the cavity ( 25 ).

Openings for venting the hydraulics when filling with hydraulic oil are not shown in the drawing.

To reduce the pressure in the cylinder ( 1 ), by extending both sides of the bearing shell and the split connecting rod head ( 3 , 6 ), several pistons ( 2 ) and cylinders ( 1 ) can be arranged parallel to each other.

Advantages over the solutions listed in the literature are that the proportion of translational movement of the mass of the parts used to solve the problem (variation of the Compression space) are required, is significantly less. This results in better concentricity and less Strain on the bearings of the internal combustion engine. The construction of this invention is not technically so as complex as that in the given literature.

The purpose of this invention is to increase the efficiency of internal combustion engines by varying the Compression space depending on the engine load.

The internal combustion engine of this invention can be used in automobiles and in other engines and work machines be used.

Claims (3)

1. Internal combustion engine as a reciprocating piston machine, characterized in that in the divided rod head ( 3 , 6 , Fig. 8) of the connecting rod on the crank pin of the crankshaft ( 5 ) in both parts ( 3 , 6 ) a cylinder ( 1 , 8 ) is arranged, whose pistons ( 2 , 7 ) are designed in the opposite direction at their ends as bearing shell housings and are supported on the crank pin of the crankshaft ( 5 ) via the bearing shells ( 4 ). 2. Internal combustion engine according to claim 1, characterized in that both hydraulic cylinders ( 1 , 8 ) via a pressure regulator consisting of an adjusting screw ( 13 ), spring ( 14 ), piston ( 16 ) with groove ( 23 ), cylinder ( 19 ), spring-loaded Valves ( 18 , 21 ) and the lines ( 15 , 17 , 20 , 22 ), which is attached to the connecting rod head ( 3 ), are hydraulically connected to one another. 3. Internal combustion engine according to claim 1, characterized in that at least in the piston ( 7 ) a cavity ( 25 ) is provided, in the inlet and outlet lines of which spring-loaded valves ( 26 ) are arranged.