DE321122C - Method and device for adjusting devices for regulating the mixture of gases - Google Patents

Description

Method and device for adjusting devices for regulation the mixture of gases.

It is known to adjust devices for controlling the Mixing gases from the mixing chamber to remove an auxiliary gas stream and the control devices to adjust the auxiliary gas flow automatically by the pressure change experiences through the absorption of a part of the mixture. It is also known, the auxiliary gas flow to divide into two parts and the regulating devices according to the difference of the To adjust the speed of rotation of two gas meters, one of which is the unchanged, the other is the part of the auxiliary gas that has changed due to the absorption of a mixture Stromes measures. According to the invention, a removed from the mixing chamber, but split auxiliary gas flow partly through absorption of one or more gases changed The parts steepen the devices for regulating the gas mixture their pressure difference and act on each other continuously. Before the They can split under a higher pressure suitable for absorption be set. The increase in pressure also causes an increase in the pressure difference, so that the forces available for adjusting the control device are more desirable Way to be enlarged. The two parts of the auxiliary gas flow are applied to the two Sides of a piston that is movable in a cylinder, the piston rod of which is guided the control devices, directly or indirectly influenced. In the supply and Liquid resistances are attached to both sides of the cylinder, one too rapid equalization of the pressure of the two parts of the auxiliary gas stream impede.

The procedure is carried out in the following way: From the mixing room is withdrawn by means of a pump 0. like in uninterrupted streams of gas and for the purpose lively absorption under higher or lower pressure in an absorption vessel fed, the one to the gases to be absorbed or the gaseous to be absorbed chemical compound contains appropriate absorption liquid. In short The auxiliary gas stream withdrawn from the mixing chamber passes into the absorption vessel a liquid resistance, which also serves to purify the gas, and in soft a division of this gas flow - is made. Half of the auxiliary gas flow is passed through the interior of the absorption vessel for the purpose of absorption. Of the Interior of the absorption vessel is pon the upper part of the same by a piston or the like. Separately As long as there is no absorption in the interior of the absorption vessel takes place, there is the same pressure on both sides of the piston, and the piston is held in a certain position by spring force 0. Enter the interior of Absorption vessel an absorption, it causes this initially within the absorption vessel and thus a pressure reduction under the piston, while above the piston the original print has not changed. The resulting pressure difference causes the piston to move downward; closes by this downward movement the piston has an electrical circuit that controls the adjustment of the actual regulating devices, z. B. the nozzles, valves, slide 0. Like. Concerned for the main gas supply. Simultaneously the plunger can carry writing utensils and an alarm device during its movement Set activity. The liquid resistance built in in front of the absorption vessel, which also divides the auxiliary gas flow, has the purpose of speeding you up Pressure equalization between the gas supply and the interior of the absorption vessel to prevent; for the same purpose is in the gas exhaust for the upper part and a liquid resistance each for the actual absorption space built-in; through these fluid resistances, which devices if necessary for the pressure control can contain, at the same time a longer stay of the the amount of gas between the resistors is reached in the absorption vessel, d. H. this creates the time necessary for the actual regulation; these The length of time can again be determined accordingly by the fluid resistances themselves influence. If the absorption has stopped inside the absorption vessel, so the pressure above and below the piston is again the same and the The piston returns to its original position. For every control device The main gas line requires two absorption vessels, one of which is the t the other takes care of the closing.

Should z. B. for regulating a combustion process of the carbonic acid content the combustion gases are used, this closes an absorptiops vessel in one permitted maximum level, the other with an approved minimum level of carbonic acid the circuit and thereby causes a reduction or increase in the air supply or the like

Is used to regulate a combustion process of the carbon dioxide and Based on the oxygen content of the combustion gases, there are also two absorption gradients to provide; the Kobleno.ydabsorption works on an increase, the oxygen absorption to a reduction in the air supply or the like. And this is achieved by opening respectively.

Closing the relevant control device.

In the extraction of nitrogen from the atmospheric air in the medium Copper and copper oxide can control the air flow and air flow Stream of the reducing gases, as well as to regulate the possibly supplied gaseous Fuels or heating gases are used.

The drawing shows one suitable for carrying out the method Contraption. Fig. I shows the front elevation, Fig. 2 shows the plan view of the same Fig. 2 is a vertical section of Fig. 2 along line A-B. Fig. 3 is a horizontal section the Fig. I according to line C-D a and b form the lower part, c and d the upper part of the Absorption vessel, e is the absorption liquid, f and g are gas inlet and outlet for the actual absorption space, h is one connected to the gas inlet Spiral pipe, which has a series of holes that allow the gas to exit allow the absorption liquid e. This is located above the spiral pipe Ji Sieve i, which carries a series of glass tubes k, thereby accelerating the absorption will. list the pistons. This is held in place by a spring 7n; the rest tension of the spring ni is attached to the piston rod p with the aid of the The spring plate n and the adjusting screw o are set, the spring has its support in the upper part c of the absorption vessel. The piston rod p is gas-tight by the Adjusting screw o passed through and carries a nut that can be rerstdlbaren in its height position q, which holds in position a plate r which can be easily displaced along the rod p; s and t are electrodes on which the one insulated against the rod p and the nut q Plate r rests on the downward movement of piston l. u and v are gas inlet and outlet for the upper part of the absorption vessel.

4 and 5 show the execution of the front of the absorption vessel in the gas supply line built-in liquid resistance in elevation and plan. Same consists of the housing I, the liquid 2, a partition wall 3, a supply pipe 4 with the legs 5 and 6 and two outlet nozzles 7 and 8, which are marked with f and fW are to be connected.

-Fig. 6 and 7 illustrate the fluid resistances used in FIGS Gas exhausts of the absorption vessel are arranged. 9 is the housing, IO the Liquid, II the gas inlet, 12 the gas outlet; 11 is to be connected with g and v.

The device works as follows: By means of a pump or the like, the auxiliary gas stream withdrawn from the mixing space becomes that in FIGS. 4 and 5 The fluid resistance shown is fed through the inlet pipe 4. and through the legs 5 and 6 divided. One part passes through the pipes 7, f and lt in the lower part of the absorption vessel and thus under the piston I, the other part through the tubes 8 and, t into the top of the absorption vessel and thus over the piston l. As long as between the lower part a and b and the upper part c and d of the absorption vessel if there is no pressure difference, the flask becomes l obtained in its position by means of the spring sn. The gas passes through the pipe connections g and v from the absorption vessel and from there on to that in FIG. 6 and 7 shown fluid resistance, one of which through its nozzle II is to be connected to lines g and v. The gas leaves the latter two Fluid resistance through the nozzle 12 and can from there back into the mixing chamber to be led back. Find one in the lower part a and b of the absorption vessel Absorption takes place, so this is with a pressure reduction in the interior of the absorption vessel verbtmden, because a sudden. or too rapid pressure equalization between the absorption vessel and the pipelines arranged upstream and downstream of the fluid resistances as a result this resistance cannot take place. The pressure reduction in the real Absorption chamber causes as soon as the pressure above the piston the counter pressure of the spring m predominates, a downward movement of the piston I, which turns out to be larger, the larger it is the pressure difference that arises above and below the piston.

As a result of the downward movement of the piston, the plate r lies on top the two RI electrodes s and t and thereby causes the closure of the external circuit, while the piston can continue its downward movement unhindered. The short circuit causes an adjustment of the control device for the main gas flow and thereby a change in the gas or air supply for the mixing or combustion process. The # current circuit lasts until the pressure of the spring is greater again is, as the [jerk difference above and below the Kolbein; then the piston returns back to its original position, lifting the plate r from the electrodes s and t from, whereby the circuit is interrupted again, so that another Adjustment of the control device may take place more.

Claims (4)

PATENT CLAIMS: 1. Method for adjusting devices for regulating the mixture of gases with the help of a taken from the mixing room and in a part of the auxiliary gas flow changed by absorption of one or more gases, characterized in that the control devices by the pressure difference of the adjusted both parts of the auxiliary gas flow and thereby uninterruptedly influenced by it will. 2. The method according to claim 1, characterized in that the auxiliary gas stream before division by means of a pump or the like under one suitable for absorption higher pressure is set. 3 device for carrying out the method according to claim I, characterized characterized in that a piston (1), whose piston rod (ins) effects the regulation, is movable in a cylinder (c), one side of which is connected to the line (u, v) of the unchanged part of the auxiliary gas flow, and its other side with the absorption space (a, b) is connected. 4. Apparatus according to claim 3, characterized in that in the Inlets and outlets (f, g, n, v) of the auxiliary gas flow to and from the cylinder (c) fluid resistances are arranged.