DE526056C - Pressure regulator - Google Patents

Description

GERMAN EMPIRE

ISSUED ON JUNE 1, 1931

REICH PATENT OFFICE

PATENT LETTERING

CLASS 47g GROUP

^s 73537 XIIl47g Date of publication of the patent grant: May 7th

Siemens-Schuckertwerke Akt-Ges. in Berlin-Siemensstadt ^! )

Pressure regulator patented in the German Empire on February 19, 1926

In the construction of pressure regulators, membranes are often used, i. H. plate-shaped structures with certain spring properties on which the pressure to be regulated acts and whose suspension keeps the pressure change in balance. The membrane has opposite the spring-loaded piston has the advantage that the seal can be produced more easily can and that the constructive

to structure simplified.

The size of the membrane and its strength are dependent on the regular pressures. Ever the higher the pressure, the smaller and stiffer the membrane becomes. But hers suffers as a result Sensitivity, and the scope of the pressure regulator is limited. One is therefore at higher pressures forced either the pressure before acting on the To reduce the membrane or by a counter-load, e.g. B. through a column of liquid, to balance up to a certain normal value, so that as free force only one Differential force comes into play. Both approaches to increase the control sensitivity at high pressures are relatively intricate. The hydraulic compensation also finds its limit in the permissible one Height of the liquid column.

The present invention is intended to create the possibility of resilient To be able to use membranes for any high pressure without the entanglements in the structure of the older proposals to have to take. This is achieved by the attack of the transmitted Force through a metal bellows smaller than the diaphragm diameter opposite the membrane has no appreciable suspension on a smaller part of the membrane surface is restricted. The load on the membrane is then the product of the specific pressure and the area of attack of the metal bellows. That way you have it in your hand, even with very soft ones and pressure sensitive diaphragms to build pressure regulators even for very high pressures. In addition, you win the possibility of using one and the same pressure regulator for a wide variety of pressure areas to be able to use, since you only need to change the attack surface of the metal bellows.

Two possible embodiments of the invention are shown in the figures.

In the device according to Fig. 1, the resilient membrane 1 is a soft metal bellows 2 connected, into which the work equipment to be controlled is directed. With this arrangement the pressure is only applied Transfer an area of the membrane that corresponds to the diameter of the bellows. Because the bellows even made of soft copper, for example

*) The patent seeker stated as the inventor:

Dipl.-Ing. Kurt Halle in Berlin-Siena City,

is established, it does not absorb spring forces or at least only to a very small extent Dimensions. Rather, this effect is only taken over by the membrane ι. Of the The pressure of the working medium can therefore be very high without the membrane being excessively large Forces.

Another type of arrangement is shown in Fig. 2, namely the pulse pressure passed through line 3 with branches 4 and 5 on both sides of the membrane. With the membrane 1, however, a bellows 2 is again firmly connected, with which the transmission lever 6 communicates. The bellows 2 becomes part of the membrane area relieved of the impulse pressure, so that a force comes into play, which is again the effective one Corresponds to the piston area of the bellows. If the agent to be regulated is in the case of the Fig. 2 has the same pressure as in the case of Fig. I, so in both cases are those to be transmitted Control forces are the same.

In addition to the great sensitivity despite high pressures, the device also has the Advantage that a very easy sealing of the high tension means can be achieved, since the bellows can be firmly connected to the diaphragm housing, so that no moving Part needs to be led out with seals from the diaphragm housing.

Claims (3)

Patent claims: 1. Device for the transmission of pressure pulses on a resilient Act membrane, characterized in that these pulses through a metal bellows (2) of smaller than that Diaphragm diameter and without appreciable suspension are transferred to the resilient diaphragm (1), which generates the impulse passes through a linkage (6). 2. Device according to claim 1, characterized in that the pulse dispensing agent is directed into the interior of the metal bellows (2) (Fig. ij. 3. Device according to claim i, characterized characterized in that the resilient membrane (1) on both sides under the pressure of the impulse-giving means stands, the impulse from the resilient membrane (1) through the inside of the metal bellows (2) arranged linkage (6) is passed on. 1 sheet of drawings