DE297362C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVi 297362 CLASS 4 c. GROUP

Regulator for gas pipes. Patented in the German Empire on January 18, 1914.

Gas pressure regulators and safety devices that lock when the pressure drops each known for itself; but it is necessary that for the regulation as well as for the backup one device is installed each, i.e. two devices together. The invention is now based on achieving both through a single device.

The gas pressure regulator is controlled by the pressure behind the apparatus, while the safety device is affected by the pressure in front the device is operated. This results in the need for the pressure control line to switch beneath the membrane, bell or the like at the given moment, automatically. The invention now sees such a switching device before; the same comes into force when the pressure regulator or the Security apparatus has reached the largest opening, i.e. the middle position. It does not matter here whether the apparatus in question is equipped with valves, slides, throttle valve or the like is; the main thing that matters is the direction of influence at the appropriate moment to switch from the pressure regulator to the safety device or vice versa.

"The drawing shows an example, namely a regulator with a throttle valve. The throttle valve d built into the line is connected to a roller c around which a steel band S ₁ provided with a weight e is placed; the steel band S ₁ is with A membrane m (bell or the like) located in the housing q is connected. Above the housing q there are rollers r ₁ and r 2, over which a steel band s _a connected to the membrane rod f runs, at the free end of which relief weights g hang A weight is also suspended from the roller Y ₁ , which actuates the contacts ■ a _v a ₂ , e ₃ , by means of which the position of the throttle valve can be identified by remote signaling. On both sides of the throttle valve d, the Influence lines O ₁ and 5 ₂ , which lead to the valves ^ ₁ and V ₂ mounted in the switch box u ; these are attached to the ends of a two-armed lever h , the pivot point of which is under the influence a tilting weight k is available. The lever h has an extension which leads to the outside so that the lever can be adjusted by a driver attached to the cable s or the weight g.

The mode of action is as follows:

When the throttle valve is in the position shown, the space below the membrane m is connected to the pipeline behind the throttle valve, valve V ₁ is open, valve V _{2 is} closed. In this position, the apparatus works as a pressure regulator, i.e. it maintains the pressure of the gas downstream of the throttle valve at the same level P ₁ . If the pressure p _{2 of} the gas in front of the flap d now falls, it must open further in order to maintain the same pressure P ₁ behind the flap, until finally the flap is at the same pressure p ₂ equal to P _{1 in} front of and behind the apparatus has received its full opening; the flap lies in the axis of the pipeline. The two valves V ₁ and V ₂ can be opened to the same extent until the driver or the weight g hits the lever h and so the tilting weight k

throws around, whereby the valve ^ _{1 is} closed and the valve V ₂ is opened. The space below the membrane m is now connected to the pipeline in front of the throttle valve, so that the pressure prevailing in front of the valve influences the membrane. If the pressure p ₂ falls further, the diaphragm loses its load-bearing capacity, the valve continues to turn down from the middle position and throttles the

ίο pressure p _{2 of} the gas so that it cannot drop below a certain limit; If there is no gas completely, the flap continues to rotate until it completely closes the pipeline after a rotation of almost 180 ° in relation to the position shown in the drawing.

If the pressure p _{% in} front of the flap rises again, the membrane m is raised again and the rope S ₁ causes the roller c to rotate in the opposite direction. As a result, the flap opens again until it switches over the lever h _{when passing through the middle position (when fi 2} equals P ₁ ). This opens V ₁ and V ₂ closes, and the apparatus works again as a pressure regulator.

The same type of switching is also available for apparatus with valves that each have two seats, and similar shut-off devices «! executable.

The switch is also z. B. so conceivable

that the axis of the throttle valve is hollow and has openings on one side. In the Drawing this would be the side behind the flap. Depending on the position of the flap then are the openings in front of or behind the flap. Duixh the hollow axis can then the Pressure in front of or behind the valve can be transferred to the space under the membrane.

The switchover can also be made by interposing electrical relays or other power transmissions be effected.

The apparatus can also be reversed, i.e. H. first as a security apparatus and then as a regulator, to be used.

Claims (3)

Patent Claims: 1. Regulator for gas pipes, the movable member of which is alternately under the Influence of the supply line or consumption line is, characterized in that a Flap (valve or the like) by moving over the middle position in one or the other in the other direction the influencing line of the movable organ with the supply line or consumption line connects. 2. Apparatus according to claim I, characterized in that the throttle valve by means of a cable (S ₁ , S ₂ ) which is connected to the movable member, switches a rocker arm, which the connection between the influencing line of the movable member and the supply line or two the consumption line mediating valves (^ ₁ , V ₂ ) controls. 3. Apparatus according to claim 1, characterized in that the axis of the throttle valve is designed as a hollow spindle, the side openings with the influencing line of the movable member are connected, while radial openings of the spindle on one side of the throttle valve the supply line or consumption line through the hollow spindle with the influencing line of the movable organ. 1 sheet of drawings,