DE315873C - - Google Patents

Description

ISSUED NOVEMBER 14, 1919

CLASS 14 b GROUP

The subject of the present invention is a machine with rotating pistons and interconnected work rooms.

For machines with rotating pistons and working spaces one inside the other, the volume ratio of the working spaces to one another, narrowly limited, so that only small Changes are possible. The diameter of the cylinder and piston of the inner working space are determined by the diameter the shaft, the selected machine stroke and the thickness of the face seal ring of the piston certainly. So they are set within narrow limits towards the bottom. The size of the The outside space results from the required machine performance. So that are the essentials Given the dimensions of the machine, there is no change in the dimensions easily possible. In the case of multi-cylinder machines, however, the greatest possible Profitability or for certain operational reasons, such as B. with intermediate steam extraction or in other circumstances, compliance with a certain size ratio of the Z3'linder contents is required, which requirement, however, for machines with rotating pistons and cylinders lying one inside the other, to the ones listed Encounters difficulties.

The inconvenience is eliminated by the present invention.

Exemplary embodiments of the invention are shown in the drawing.

Fig. Ι is a section through an example selected machine in known design.

Figures 2 to 4 are sections through the same machine with the device described.

The pistons b and d, which are fixedly connected to the shaft α and rotatable in and around the stationary cylinder c, touch with the bars g and h constantly sealing the circumference of the cylinder c and form with it the working spaces i and k, their contents These working spaces i and k are divided into effective working chambers by the abutment e.

For the working method described below, the machine is intended as a compressor, the direction of rotation of the same is indicated in the drawing by the direction of the arrow. With analogous Conversion, what has been said also applies to power machines.

The piston d sucks in the agent through the channel I and presses it out through the channel m in a compressed manner on the opposite side of the outer space k. The agent is now fed through the channel η to the inner space i , where it is further compressed by the piston b and finally leaves the machine through the channel 0. So there is a two-stage compression; the pressure of the medium between the two working spaces i and k is now determined according to the known fundamental laws from the relationship between these two spaces.

The present invention allows the exact maintenance of the desired ratio by arranging recesses in the wall of the stationary cylinder c, depending on the intended enlargement.

tion or reduction in the inner or outer wall. Depending on the circumstances, these recesses can be made in the low-pressure or in the high-pressure sides individually or in both cylinders. In Fig. 2, for example, the recess ρ is indicated in the inner wall of the cylinder c. The sealing strip g closes the inner compression chamber only at I, so that

ίο the remaining working space i is smaller and the ratio k: i is correspondingly larger. Fig. 3 shows the same machine as before, but with recess r in the outer wall of cylinder c. Here the sealing strip h of the outer piston d closes the compression chamber only at II, which means that the working chamber k becomes smaller and the ratio k: i smaller.

By arranging plates ί and the like, which can be adjusted by devices t of any type, the possibility of changing the volume ratio and thus regulating the machine output is given. This makes it possible, for example, to remove the agent between the two working spaces at different pressure levels.

Claims (2)

P A T E N T - A N S P R Ü C H E: 1.Machine with rotating pistons and working spaces one inside the other, characterized in that for the purpose of changing the volume ratio of the working spaces Recesses are arranged in the cylinder walls, the length of which is determined by the size of the piston of the work rooms. 2. Machine according to claim 1, characterized in that to change the Volume ratio the effect of the recesses can be changed by adjustable plates therein. 1 sheet of drawings.