DE547854C - Pressure reducer - Google Patents

Description

GERMAN EMPIRE

ISSUED ON APRIL 6, 1932

REICH PATENT OFFICE

PATENT LETTERING

CLASS 47g GROUP

Henry Seeler in Hamburg pressure reducer

Patented in the German Empire on October 16, 1930

In the case of pressure reducing valves that are in the standard steel cylinders reduce the high gas pressure to the required operating pressure is located on At the end of the gas supply line, an outlet nozzle, which by means of a spring-loaded hard rubber valve is kept locked. This valve body is connected to one arm of a double-armed lever second arm can be influenced by a tension spring. Between the means of a Manual adjusting screw to be operated tension spring and the end of the second lever arm a diaphragm is clamped in, which exerts the force of the tension spring on the valve control lever transmits. The control diaphragm is made of rubber or another elastic material and has the disadvantage that it is easily brittle and then in elasticity and

so it loses elasticity and thus its effectiveness.

. In the subject matter of the invention, the common control diaphragm comes with coil spring loading in failure. Instead, there are between the manually operated pressure adjusting screw and the valve control lever arranged one or more rigidly interconnected tubular springs closed on both sides. Through these tube springs which have a great resistance and durability, the movements of the adjusting screw are directly on the Transfer valve control lever and through the changed state of equilibrium between the forces of the valve spring and the tube springs open or close the valve.

In the drawing, the subject of the invention is shown in an exemplary embodiment * - shows, namely:

Fig. Ι and 2 each a pressure reducer in side and rear view, partially cut,

Fig. 3 the valve seat in horizontal cross-section.

ι is the valve housing, which by means of the Connect the union nut 21 to the cylinder valve * 5 is screwed. 2 is the discharge nozzle at the end of the gas supply line and 3 is the with a hard rubber cone 4 provided valve flap, which is fixed by a tension spring 5 ' is pressed against the nozzle 2. In the valve housing 1 is located at 6 rotatable mounted double-armed valve control lever 7, 8, the arm 7 of which is connected to the valve cap 3 is, while the second arm 8 protrudes freely into the lower housing space. This Arm 8 is rigidly connected to one another at its end by the abutment 9 or more connected, semicircular bent tubular springs 10 attacked, the other end is connected to a displaceable by the manual screw 11 piston 12, the is slidably arranged in a suitable sliding guide of the housing sleeve 22. The move this piston 12 takes place by a seated in the piston 12, with the by a Packttng 13 sealed against the socket wall.

ended spindle 14 connected screw spindle 15 of the adjusting screw 11. The tubular springs 10 are closed at both ends so that the gas cannot penetrate them.
18 is the safety valve and 19 is the gas tap provided with a shut-off valve 20.

The valve flap 3 is on the one hand by the tension spring 5, on the other hand by mediation of the lever 7, 8 held by the tube springs 10 in a state of equilibrium. After opening the cylinder valve, the high pressure manometer 16 shows the cylinder pressure at. The valve flap 3 is pressed against the nozzle 2 by the action of the spring 5 and keeps it closed. Will If the adjusting screw 11 is now turned, it is displaced by the screw spindle 15 the piston 12 in its sliding guide, whereby by means of the tube springs 10 the lever 7, 8 is made to vibrate.

This opens the valve flap 3 under tension of the spring 5, and the gas

he flows out of the bottle into the valve housing 1 where it is set to the operating pressure on the pressure gauge 17. As soon as the needed Operating pressure is exceeded, d. H. the adjusting screw 11 is incorrectly regulated, arises an overpressure in the valve housing.

As a result of the curvature of the tubular springs io, whose cross-section is advantageously a horizontal Forms a rectangle, its outer pressure perimeter is greater than its inner pressure perimeter, so that the gas pressure on the outer periphery has a larger surface area than on the inner one Find scope. The pressure load is consequently greater on the outer circumference than on the inner circumference of the tube springs, so that the latter bend together, so one get greater curvature. As a result, the lever arm 8 is relieved and the valve 3 throttled or closed by the action of the spring 5 depending on the overpressure. By When the shut-off valve 20 is opened, the gas can be discharged through the nozzle 19.

After an overpressure has been released, the tube springs 10 bend into their normal position back and open the valve 3.

Claims (1)

Claim: Pressure reducer with valve flap held closed by a tension spring, which is controlled by a double-armed lever, characterized in that one or more interconnected, curved tubular springs closed at both ends are arranged between the pressure adjusting screw (11) and the valve control lever (7, 8). 1 sheet of drawings