DE354943C - Regulator for gas pipes, the moving part of which is under the influence of the supply pipe or the consumption pipe - Google Patents

Description

GERMAN EMPIRE

ISSUED JUNE 17, 1922

REICH PATENT OFFICE

PATENT LETTERING

CLASS 4c GROUP

(A 36044 VIj4 cj

General Vergasungs-Gesellschaft m.b.H. in Berlin-Halensee.

Regulator for gas pipes, the moving part of which is under the influence of the supply pipe

or the consumption line.

Addendum to patent 297362.

Patented in the German Empire on August 7, 1921. Longest duration: January 17, 1929.

According to the main patent, the regulator

mechanically controlled. It has now proven advantageous for many purposes, the Controlling the regulator not mechanically, but electrically. The subject of the present additional invention is therefore an embodiment of the controller according to the main patent, which allows the electrical control, including the controller in detail is to be designed a little differently.

One of the possible designs is

in that one uses two contactors, one of which is to be regulated by the one Gas flow in front of the regulated part, and the second of the gas flow behind the regulating part Part, seen in the direction of the gas flow, is affected. The gas enters through suitable Nozzles on the contactors, which are set to a certain pressure, and depending after this fluctuates, ίο they raise and lower themselves and turn on the circuit, which an electric motor is driven, the regulating part located in the line rotates in one direction or the other and so through greater or lesser opening of the Line regulates the gas flow.

The parts that are affected by the gas can be designed in various ways be, for example as a membrane. The embodiment has proven to be particularly useful Float bell shown. The gas lines in question are placed under the float bell led, and the displacement of the float then actuates the contacts that set to a certain pressure by adjusting the float bells accordingly be balanced.

In the drawing, such an embodiment is shown, namely here in Current flow the two contactors connected in series. So the electricity must first flow through one contactor before it can get to the other.

The contactor α is to the gas line in front of the control element - z. B. a throttle valve - δ, connected by influencing line c. If the pressure is high enough, the diving bell d of the contactor α is in its highest position. Thereby, the right-lying contacts are closed β. The current can therefore pass through these contacts to the second contactor f . This is connected to the gas line χ via line g behind the flap δ and thus transmits the pressure behind the flap δ to the diving bell h of the contactor f. The diving bell is set up so that it is at a certain pressure that corresponds to the regulated pressure , is in the middle position, i.e. no contact is closed. In the drawing, the diving bell h is shown in its lowest position, ie the set pressure would not have its desired level. As a result, the contacts t are closed, so the current can pass through the contacts e of the first contactor and the contacts i of the second contactor to the motor m and put it into action, in the sense that the throttle valve δ opens further until the pressure behind it has risen so far that the float bell h reaches its central position. If the pressure rises higher below h , the contacts k are closed. The current flows through the contacts e and k after the motor m and has the effect that the flap δ is actuated in the opposite direction as before, that is to say is further closed. If the pressure in the gas line χ now remains below the setting limit of the contactor a, the bell lowers and the contacts? will be closed. This also closes flap δ until the set pressure in gas line # is reached again.

The facility can also be designed as a communal diving bell is used, and through a switch valve, which is then actuated by the diving bell, the bell chamber either with the main gas line in front of the control unit or with the gas line behind be connected to the same. As long as the connection of the diving bell with the form is established, the controller then works as a safety device; in the other case works he as a regulator. The specified contacts then sit on a common wave.

Claims (4)

Patent Claims: 1. Regulator for gas lines according to Patent 297362, characterized in that the Flap is controlled electrically, for example ■ by an electric motor. 2. Regulator according to claim 1, characterized by two contactors, of which the one influenced by the gas in the supply line, the other influenced by the gas in the consumption line will. 3. Regulator according to claim 1 and 2, characterized in that the contactor are designed as float bells that open and close contacts by rising and lowering. 4. Regulator according to claim 1 and 2, characterized in that the contactors are designed as a common diving bell which is alternately connected, for example by a switching valve, to the supply line or the consumption line. 1 sheet of drawings.