DE668876C - Rotary piston machine with annular working space - Google Patents

Description

Rotary piston machine with an annular working space is the subject of the invention is a rotary piston machine with an annular working space in which each wheel is at the same time The working wheel and abutment are and where the meshing teeth of the rotary piston have different heights.

Rotary piston machines with a Ying-shaped working space in which the working wheel is at the same time abutment, are known in the most varied versions. However, their way of working comes from the theoretical working method of rotary piston machines with an annular working space only imperfectly close.

Rotary piston machines with annular; em work space that has a similar Structure like the subject of the invention, work according to a pulsating working process and all have a zero position, which is reached when the rotary lobes with their Contact point of the flanks on the center plane laid by the axes of the rotating bodies lie. From this position the work process begins in such a way that the through the removal of the rotary lobes from this plane between the rotary lobes The working area is immediately filled with fuel, which is after completion of the filling expands and escapes into the open after the stretch. To use this working method to make the best possible use of the available energy, it is important to that the fuel that has been let in works right from the start.

In known rotary piston machines, the fuel is only supplied when when the rotary lobes have migrated beyond the intersection of their tip circles and a larger work space has already formed. There are also facilities in which the fuel is held between two rotary pistons with constant pressure and can only expand partially or not at all. Other known bodies have the disadvantage that a large gap is created when combing the rotary lobes, through which the fuel can escape uselessly.

The present invention avoids these disadvantages and the Reduced losses to a minimum. The subject of the invention is shown in the drawing shown schematically, namely Fig. i show the example of an internally toothed Rotary piston machine and FIGS. 2 and 3 a rotary piston machine with external toothing.

It means a the teeth on the rotary piston carrier disks with corresponding mating gaps are attached, d the outlet, e the inlet, c the working spaces and i the case.

In order to fully carry out a lossless working process, is the combing of the rotary piston a shown in Fig. i on the housing wall! to strive, in such a way that at the moment of separation of the tooth flanks the flank end of the rotary piston and the housing tip touch.

In Fig. Z, the rotary pistons with normal tooth flanks are of the same height shown. This normal design and tooth shape creates home Combing the rotary piston between these and the housing wall of the gap b, whereby introduced through the inlet e, which is placed in a known manner at the central position Fuel can escape uselessly. To reduce this gap b and the gap losses to reduce, according to the invention, the rotary piston teeth a with different heights executed over pitch circle. This leaves the one that arises between the rotary lobes Space closed except for an inevitable gap, so that the losses through Escape of fuel can be held in tolerable grips and the ability to work of the fuel is used to the full.

Claims (1)

PATI'NTANSPt, UCII: Rotary piston machine with an annular working space and intermeshing tooth flanks, characterized in that the head height of a rotary piston tooth greater than the head height of the rotary piston tooth meshing with it is.