DE295776C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

When operating gas generating systems, especially those that use gas for feeding of ovens, they deal with switching gas consumption points on and off associated gas pressure fluctuations to the extent that they are uncomfortably noticeable as those fluctuations require readjustment of the gas or air valves. One can eliminate the problem by doing that in a known way

ίο a controller is arranged, which - under the influence of the pressure prevailing in the gas collection pipe - that to the gas generator system adjusts the flowing wind so that the pressure is maintained at a constant level.

The generator system shown schematically in Fig. Ι is z. B. equipped with such a controller .. The blower α sends the necessary for the formation of gas wind by the c from the gas pressure regulator b influenced throttle valve to the gas generators Ci ₁ d _{2 s} d (I. ₁ rises due to shutdown of ovens, the pressure in the gas collecting tube e, So the bell f of the regulator rises and throttles the wind by means of the flap c until the original gas pressure is reached again. The operating team now only needs to close the wind control slide g in front of each gas generator accordingly ensure that all gas generators participate equally in the gas delivery.

In order to make the actuation of this wind slide superfluous, one could switch on regulators at g , which keep the wind volume set at a constant level. The design of such flow regulators is known: one arranges some constriction in the wind pipes leading to the individual gas generators, lets the pressure prevailing in front of the constriction act on a membrane from above and the pressure behind the constriction on the membrane from below, like this that it is therefore always under the influence of the pressure difference, ie also the amount of wind. A valve connected to the wind pipe is connected to the membrane; It follows all the movements of the membrane and keeps the amount of wind flowing to the gas generator at the same height. Lets ζ. B. the gas delivery of a gas generator due to slagging, the abandonment of finer fuel or for some other reason, so the amount of wind flowing through decreases, the pressure difference at the constriction in the wind pipe is smaller, the membrane starts to move and opens the regulator valve far until the original pressure difference and thus the original amount of wind and gas is available again. By means of an additional load to be achieved with weights or in some other way, the regulator can be set from the outset to a certain flow rate, ie gas generator output.

The invention now consists in making this manual setting of the wind flow regulator unnecessary and transferring it to the gas pressure regulator b , but making the arrangement so that each of the flow regulators present at g in FIG.

ren) to a constant amount of wind.

In the gas generator system shown in FIG. 2, c is the gas collection pipe for the gas generator. The pressure in the gas collecting duct is passed under the bell / gas pressure regulator b by means of line i . The bell is connected by means of rods to the cock or slide k , which allows compressed air to flow into the boiler m from a compressed air line. A discharge valve η and also the pipes O ₁ o ₂ etc. are connected to this boiler ". By means of this, the boiler pressure is directed to the top membrane of the flow regulator If ₁ g ₂ , etc. In the drawing, only the gas generator d ₂ associated wind flow regulator g represented _2. This consists of a valve p _2, the spindle, the two membranes q ₂ and transmits r ". the pressure upstream of the constriction s ₂ (orifice plate) is by means of the tube t ₂ passed over the membrane q _a, the pressure downstream of the constriction acts from below against said membrane, so that it is so under the influence of the pressure difference of the constriction and thus also of the through-flowing quantity of wind. the spring U ₂ raises the weight of the valve stem (including cone and membranes) and holds the valve is opened when the system is turned off due to the closed gate valve V _2, that is no wind flows through the regulator.

The operation of the entire arrangement can be seen from the following: If z. B. as a result of switching off gas consumption points, the gas pressure in the gas collection tube e increases, the bell of the regulator b rises and opens the tap k further. As a result, more compressed air flows into the boiler m, the pressure prevailing in it increases and is evenly transferred through the lines O ₁ O ₂ etc. to the individual flow regulators, their uppermost membranes 1 \ r ₂ etc. including spindles and valves P ₁ p ₂ etc. are depressed. The resulting throttling of the wind causes a reduction in the performance of all gas generators, so that the pressure in the gas collection tube e drops until the pressure that was originally present before the individual gas consumers were switched off has been restored. The discharge valve η is throttled from the outset so far that the pressure prevailing in the boiler m is sufficient to influence the regulator sufficiently quickly.

Now the supply of gas is varied by slagging or for some other reason, any of the gas generator, the changing quantity of wind is immediately associated controller g independently of the other regulators g affect so that the original (before the slagging) available BEEN quantity of wind, and thus also stops the original gas generation. Because of the large boiler volume m and the outflow at η , the movement of the upper membrane r of the regulator g is not in any way noticeably transferred to the regulator g of the other gas generators.

By loading or unloading the gas pressure regulator b, z. B. by moving the weight v, the pressure prevailing in the gas collection tube e can be adjusted to a certain level. If one intends to load one or the other gas generator differently than the others, only the weights w of the regulator g or the tension of the springs u need to be dimensioned accordingly.

The compressed air flowing to the boiler m can of course also be taken from the blower line of the gas generator system.

Instead of having the inlet valve k actuated by the regulator b , this can also be done with the outlet valve η .

In the case of a gas generator system equipped with such regulators, however, another circumstance can arise that has harmful effects. Are z. B. shut down some gas generators by the operator, so take over as a result of the intervention of the gas pressure regulator b, the other automatically the gas delivery to the decommissioned. In order to switch on further gas generators in good time before reaching the maximum output, it is advisable to provide a whistle, electric bell or other signal device for each gas generator, which by the flow regulator g - z. B. by its spindle · - is then put into action when a certain largest. Pressure difference. (Amount of wind) sweeps through the apparatus. Instead of the controller b , other devices such. B. use differential leg manometers filled with mercury, which are connected to the narrowing of the wind lines, and whose mercury closes the electrical current required to operate the signaling device in a certain position.

In a similar way, signaling and shut-off devices could also be installed in the wind lines provide that at a certain smallest continuous amount of wind in Effectiveness (minimum switch).

Nothing stands in the way - at least with cooled and purified gases - the line regulators g and the signaling devices instead of in the wind line in that of everyone

Install the gas generator to the manifold e branching gas line.

Claims (2)

Patent-to sayings:
5 i. Process for regulating gas generating plants, with a gas pressure regulator operated by the generated gas and with. Regulators to maintain ίο are equipped with the amount of gas released by each gas generator, thereby characterized in that the flow rate of the latter regulator is set by the gas pressure regulator. 2. Apparatus for performing the method according to claim 1, characterized by upstream of a common large boiler (m) with outflow (n) in front of the individual _{lines (O 1} , O ₂ , etc.) leading to the volume regulators (g ^, g _{2, etc.)} .), which prevents the movement of one of the controllers (g) from influencing the other controllers (g) . 1 sheet of drawings. Berlin, printed in the Reichsdruckerei.