DE548355C - Gas pressure regulator - Google Patents

Description

GERMAN EMPIRE

ISSUED ON APRIL 13, 1932

REICH PATENT OFFICE

PATENT LETTERING

JVl 548355 CLASS 4c GROUP

4C ² Sch 272.30 Date of the announcement about the grant of the patent: 24 Mar.

Switzerland. Locomotive & machine factory in Winterthur, Switzerland

Gas pressure regulator

Patented in the German Empire on December 28, 1930

In the case of automatically acting valves with large passage cross-sections and high, open the operating pressures acting on the valve disc is to create a pressure equalization Relief of the valve associated with difficulties. They are strong weight or Spring loads required, in many cases even complicated leverage necessary. The previously common installation

to of elastic membranes makes the situation even more unfavorable, since the one on the Diaphragm burdening gas pressure causes an additional load on the control organ.

The present invention now effects

»5 easy ways to get a partial or full Pressure equalization. A cylindrical membrane arranged coaxially to the valve spindle, can be made of metal, leather, rubber, etc., is connected directly to the valve disc

ao bind. The connection of the membrane to the valve disk also has a simplification of installation and a reduction in the overall height of the controller. The high pressure acts on the outside the diaphragm and will therefore generally not exert any load on the valve head. While the space below the Valve disk communicates with gas of low consumption pressure, prevails the atmospheric pressure in the interior of the cylinder membrane. It is not there

necessary that the room is always connected to the atmosphere. This arrangement but only grants complete pressure relief when the membrane is on its Fastening points both on the housing and on the valve disk have the same clear width. A spring or a low weight load is used in a known manner to close the valve necessary. The organs of load can be with advantage inside the arrange the cylindrical membrane coaxially to the valve spindle. One achieves a further shortening the overall height and has the option of extending the valve housing to the outside +5 seal gas-tight except for a fine breathing opening. One turn of the valve stem with this type of construction would lead to torsional stress on the membrane. Therefore a special device is attached to the valve plate or to the spindle, which prevents the valve from rotating.

If there is a large pressure difference between the inside and outside of the membrane, so there is a risk of the same being pressed in from the side, thereby equalizing the pressure would be called into question again. In such cases, between the valve seat and the Diaphragm fastening point is a small ring area on the valve disc after the inlet pressure side too turned on, which causes an additional compensation load due to the gas pressure. It

however, it is also possible to dispense with a complete pressure equalization and the occurring Pressure difference can be used directly to control the valve, according to the formation of the cylindrical membrane shortens it when the pressure increases and thereby the valve is raised.

Are supposed to have very small pressure differences for actuating one under high pressure If an upright valve is sufficient, in addition to the cylindrical diaphragm for high pressure, a flat auxiliary diaphragm provided for low pressure and with the first through the valve stem get connected. The space between the two membranes can be seen with the consumption line z. B. are in communication through a hole in the valve disk 3.

Fig. Ι and 2 illustrate two examples Execution of the subject of the invention. The valve housing is marked with ι marked. The cylindrical membrane 2 is attached to the valve disk 3. The spring 5 loads the valve and causes the valve to close. To set any »5 spring pressure is used by screw 7. With 8 the device, z. B. a nose, designated, which prevents the VentiJ from turning. As a result of the pressure acting on the annular surface 9 a load on the valve can be achieved. Fig. 2 shows the combination of the cylindri see membrane 2 with a flat auxiliary membrane 10. The space below the flat Auxiliary diaphragm is in communication with gas from the consumption pressure, while the space above the auxiliary diaphragm with the Atmosphere. Closing the valve is done here, for example causes a weight load 6.

Claims (5)

Claims: i. Gas pressure regulator with cylindrical, coaxial ^ to the valve spindle arranged membrane, which is located directly on the valve plate is attached, characterized in that the outside of the membrane is under the high pre-pressure, while on the lower side of the valve disk the Consumption pressure and on the upper side of the valve disk as well as on the inside the outer atmospheric air pressure or the consumption pressure acts on the membrane, and that the cylindrical membrane has the same lidite width at its fastening points both on the housing and on the valve disk. 2. Gas pressure regulator according to claim 1, characterized in that the valve disk is provided between the valve seat and the diaphragm after the inlet pressure side with an annular surface (9), the size of which is according to the amount of the form. 3. Gas pressure regulator according to claim 1 and 2, characterized in that the Valve has a device (8) that rotates the valve spindle and thus preventing the diaphragm. 4. Gas pressure regulator according to claim 1 to 3, characterized in that the for The spring used for loading or the weight inside the cylindrical membrane is arranged coaxially to the valve spindle. 5. Gas pressure regulator according to claim 1 to 4, characterized in that a additional flat auxiliary membrane (10) with the cylindrical membrane through the Valve spindle is connected. 1 sheet of drawings