DE2137114A1 - HYDROSTATIC TRANSMISSION - Google Patents

Description

Hydrostatic transmission The invention relates to a hydrostatic transmission Gear for converting the reciprocating movement of at least one working piston a prime mover in a rotational movement of the downstream drive shaft, wherein one with a piston rod of at least one associated working piston firmly connected Pressure piston a pressure chamber filled with hydraulic fluid into two pressure chambers subdivide with variable volumes in the sense of the working piston movement, and a Eccentric eccentric of the drive shaft rotating off-center is provided in a working chamber is, in cooperation with the sealing elements fixed on the working chamber Work chamber in two work rooms also filled with hydraulic fluid with variable volume in the sense of the movement of the eccentric of the drive shaft divided, each of which with an associated pressure chamber through a pressure line is connected such that a dependent on the stroke volume of the pressure piston amount of Hydraulic fluid with each work cycle between each pressure chamber and the associated one Work area is moved.

Such an arrangement is in principle from the German Offenlegungsschrift 1 903 851, in particular Figure 2a is known.

It is the object of the present invention to provide a transmission of the initially designated type for internal combustion engines with arranged opposite one another on an axis To create cylinders in which the compression ratio of the two working pistons can be changed in a simple manner.

According to the invention, this object is achieved in that the pressure piston is divided into two sub-pistons, each of which has a piston rod with a associated working piston running in the same direction in coaxially opposing cylinders is connected, and that the axial distance between the two Oruckl-aumen in the Partial piston arranged in the pressure chamber can be changed. This allows during operation or when switching to a different type of fuel, the compression ratio of the Working piston to be adapted to the changed circumstances.

In a particularly preferred embodiment of the invention is between a fluid cushion of variable volume is provided for both partial pistons. In a very simple way, who can use it to remove liquid from the Liquid cushions can be removed or added back, which in the effect practically a change in the length of the piston rods between the working pistons and equals the partial piston.

Using the information from German Offenlegungsschrift 1 903 851 further known method for influencing the movement of the working piston can to achieve this in the present application means for periodic Removal or return of hydraulic fluid from the fluid cushion is provided will.

Further features and advantages of the invention emerge from the following Description of an embodiment based on the schematic drawing in conjunction with the subclaims.

On a common axis A - A are two working cylinders 1 and 2 arranged opposite one another, in which working pistons 3 and 4 run in the same direction. Via piston rods 5 and 6, each working piston 3 or 4 is in two sub-pistons 7 or 8 subdivided pressure piston firmly connected, which corresponds to the movement of the Working pistons 3 and 4 work in one pressure chamber 9 and the pressure chamber 9 in two pressure chambers 10 and 11 filled with llydrauiikiquid. Every print room 10 or 11 is via a pressure line 12 or 13, each with a work space 14 or 15 connected. The work spaces 14, 15 are delimited by the wall of a work chamber 16, in which an eccentric 17 of a drive shaft rotates off-center, with two in the wall of the working chamber 16 mounted sealing slide 18 and 19 to seal the Working spaces 14 and 15 pressed against one another against the surface of the eccentric 17 will. The storage of the eccentric 17 in the working chamber 16 could for example corresponding to one from the German Offenlegungsschrift 1 928 363 in detail known arrangement are executed.

Between the two sub-pistons 7 and 8 is a liquid cushion 20 is provided, the volume of hydraulic fluid in the fluid cushion 20 and thereby the axial distance a of the two pressure pistons 7 and 8 by a at 21 indicated control line through the wall of the pressure chamber 9 through in a simple manner Way can be changed. This can easily during operation or when changing to another type of fuel, the compression ratio of the machine to be changed.

It is also possible to measure the volume in the liquid cushion 20 by a known control loop as a function of the maximum pressure occurring to be controlled in the working cylinder 1 or 2, so that the maximum also in the overload range permissible peak pressure in cylinders 1 or 2 cannot be exceeded.

An additional application of the by the German Offenlegungsschrift 1 903 851 known method is also possible without difficulty if by one of the control line 21 corresponding line from the liq sigkeitspolster periodically Hydraulic fluid is removed and then fed back.

As the above description shows, the invention is not limited the illustrated embodiment is limited.

Claims (3)

Expectations Hydrostatic transmission for converting the reciprocating motion at least one working piston of an engine in a rotary movement of the downstream Drive shaft, one with a piston rod at least one associated working piston firmly connected pressure piston a pressure chamber filled with hydraulic fluid into two pressure chambers with variable volumes in the sense of the working piston movement subdivide, and an eccentric of the eccentric rotating in a working chamber Drive shaft is provided, which is fixed in cooperation with the working chamber Sealing organs the working chamber in two also filled with hydraulic fluid Working spaces with variable in the sense of the movement of the eccentric of the drive shaft Volume divided, each of which with an associated pressure space through a pressure line is connected such that a dependent on the stroke volume of the pressure piston amount of Hydraulic fluid with each work cycle between each pressure chamber and the associated one Working space is moved, characterized in that the pressure piston is divided into two sub-pistons (7, 8), each of which has a piston rod (5, 6) with an associated> working piston running in the same direction in coaxially opposing cylinders (1, 2) (3, 4) is connected, and that the axial distance (a) between the two DruckräulIlen (1 (), 11) in the pressure chamber (9) arranged partial piston (7> t3) verjtn (ier3ar is. 2. Hydrostatic transmission according to claim 1, characterized in that that between the two partial pistons (7> 8) a fluid cushion (20) of variable Volume is provided. 3. Hydrostatic transmission according to claim 2, characterized in that that means for the periodic removal and return of llydraulic fluid the liquid cushion (20) are provided.