DE120598C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

- Λ! 120598 CLASS 4 c.

in BRAUNSCHWEIG.

City pressure regulator.

The pressure regulator consists of two communicating vessels, a closed a, and an open b, in which water or some other liquid is contained. The speed of the level change can be regulated by a cock ρ. The vessel a is divided into two parts m and η , which are connected to one another through an opening d in the dividing wall. The gas is diverted into compartment m through pipe e , and out of compartment η through pipe f. In the section η there is a float z, on whose vertical guide rod the shut-off cone ν , which more or less narrows or closes the flow opening ^ d , is attached. The continuation of the valve rod guided through a water connection k forms a chain / guided over rollers on which a displacer c hangs. This is immersed in the liquid in the vessel b .

The gas pressure in the gas discharge pipe f acts on the liquid surface of the vessel a and determines the height difference between the two liquid levels in the vessels α and b (e.g. x). By pouring water into vessel b, by weighing down or relieving the displacer c , the state of equilibrium can be brought about for a certain amount of use under certain pressure.

If the consumption of gas increases, the pressure in part η of the vessel a decreases; as a result, the liquid level in α rises and that in b decreases, since the water column χ tries to adapt to the changed pressure. As a result, the float i rises, the valve ν continues to open, more gas passes through the opening d and the pressure rises again. Now this increased gas pressure would in turn force water from the vessel α back into the vessel b , since the water column χ adapts to the gas pressure. As a result, the float i and the valve cone ν would sink again and the control that had occurred would be canceled again. Preventing this is the task of the displacer c.

Since when the pressure drops, the liquid in vessel b falls (e.g. by Δ ₂ ), but rises in vessel α (e.g. by A ₁ ), the gas pressure brought back to its previous level would find a water column around A ₁ + Δ _{2 is} less than it was before. If the valve cone i>, that is, the float i, is to remain at rest, it must be ensured that, despite the changed float and valve position, the water column is at least restored to its previous height. The level in the vessel b must therefore be raised by A ₁ + A ₂ -. This happens because the displacer c , by virtue of its connection with the valve cone ν and the float i, lowers itself by as much as they are levered (A ₁ ). The arrangement can now be made in such a way that he can do this. so much water is displaced that the level in the vessel b rises by A ₁ -j- A ₂ . By certain dimensioning of the diameter of the float c

compared to the diameters of the vessels a and b, this process can easily be brought about by means of a simple calculation.

The exact regulation could be impaired by the fact that the displacer c is relieved by immersing it deeper in the liquid and therefore the float i is given a different immersion depth. However, this influence can be eliminated by the fact that the chain / increases the tension in the sense of the displacer weight when the displacer is immersed deeper. The two effects can therefore be precisely balanced out by means of a simple calculation.

If one does not want the gas pressure to be the same for different amounts of consumption, but rather to be greater in the case of high consumption than in the case of small amounts, the device described provides the necessary regulation for this also without further ado. When calculating the profile of the shut-off cone, due consideration must be given to this, so that the respective passage cross-sections d correspond to the requirement, and furthermore the diameter of the displacer c must be calculated in such a way that the water displacement when sinking is not only A ₁ - | - Δ ₂ , but A ₁ - \ - Δ ₂ plus the pressure increase desired for the increased amount of use. In this way you can see the free passage cross section d

can be changed in any relation to the gas pressure.

Claims (2)

Patent Claims: ι. City pressure regulator, characterized by two communicating liquid containers, in one of which the liquid is under the pressure of the outflowing gas and carries a float (i) which controls the shut-off cone (v) which widens the gas flow opening (d) when it rises but narrows it when it sinks at the same time raises or lowers the second water level by immersing or lifting a displacer (c) in such a way that the difference in height between the two water levels either remains the same in all positions of the shut-off cone (v) or changes according to the gas pressure sought. 2. Embodiment of a ■ city pressure regulator according to claim ι, characterized in that the second liquid container (b) or the displacer (c) is given such a cross section that a change in the height difference between the two water levels causes a change in the position of the gas flow valve (v) in order to be able to produce an intentionally changing gas pressure in the city line. . For this purpose ι sheet of drawings.