DE546495C - Control of overflow valves - Google Patents

Description

The invention relates to the control of overflow valves in steam systems, at which excess steam by means of long-distance pipeline over the distant the overflow valve arranged by the boiler is to be discharged. The overflow valve opens, as usual, under the influence of the excess steam generation characteristic increase in pressure. The control pulse can either be given directly at the boiler or at the end of the long-distance line or connection line leading to the overflow valve decrease. It should be noted, however, that as soon as the overflow valve opens and in the connecting line a steam flow occurs, the pressure in the line at the momentum pick-up point sinks. The overflow valve will close again immediately to then under the

■ 20 Influence of the rising pressure to open again and so on. To this back and forth To avoid going play of the overflow valve, the boiler pressure would have to be increased so much be that when opening the overflow valve the resulting pressure loss is compensated at the connection point of the impulse line. As a result, it would be used as a connection point for the impulse line only the point on the boiler come into question. Apart from the fact that one even then, with long-distance pipelines, it is not possible to manage without undesirable pressure increases could, the impulse line would also have to cover the entire length of the line leading to the overflow valve Have long-distance line.

The invention aims to overcome these difficulties. You achieved this with the help of several pulse generators, which, as is known per se, the pressures, which at different Make the line occur, transferred to a common control device for the hydraulic fluid of a servo motor, which actuates the overflow valve. The invention consists in that on the overflow valve in addition to the pressure pulse resulting from the increase in pressure, a second pressure pulse acting on opening with the aid of the when opening resulting steam flow generated, on pressure drop immediately before and behind a throttle point based control pulse through handlebars and levers so for immediate effect is brought that this contrary to the effect of the Keeps the overflow valve open when the pressure drops.

The second control pulse based on pressure drop can be z. B. with the help of a Generate accumulation flange, which in the line leading to the overflow valve behind the To arrange acceptance point of the pressure pulse

*) The patent seeker stated as the inventor:

Dr.-Ing. Frit \ Englert in Nuremberg.

and at which the second pulse based on the decrease in pressure is picked up. When the overflow valve is opened, a greater pressure drop occurs behind the stoppage flange than before the same one, and the pressure decrease in the Staufiansch is, for. B. by means of known Diaphragm encoder, on the regulator linkage of the first, which is also operated by a diaphragm Pulse generator through a lever system to act brought. By means of a suitable translation of the lever systems, it is possible in this way to close the overflow valve cancel the aiming effect of the pressure reduction at the pressure pulse take-off point and the overflow valve according to the to keep the amount of steam flowing through it open. The decrease in momentum may as a result now easily at any point, so z. B. on long-distance lines in the immediate vicinity * o near the overflow valve located far from the boiler, take place.

In the drawing, a controller according to the invention is shown schematically as an example.

The built-α overflow valve in the steam line b o in a known manner by changing the pressure of pressure oil. Like. Controlled flows Leitungc d provided in a cash with a control · lateral opening. The width of the · opening ^ and thus the pressure of the oil depend on the position of a non-uniform lever /, / ', which is mounted at the end of the longer arm / of a fixed angle lever h, i . The shorter arm h of this angle lever is supported against a membrane g, on which the vapor pressure rests, which is transmitted from the line through the line k. The shorter arm / _X of the lever controlling the opening ^ is connected to a link /, the other end of which is hinged to the end of a fixed lever m. This carries a two-armed lever between the fixed joint and the end joint. With one arm of the latter - a fixed angle lever ρ is connected via a link 0 , which is actuated by a membrane q. The latter is connected through the line s to a damming flange / - located in the line in front of the overflow valve b and behind the connection point of the line k on the side opposite to the direction of flow of the steam. With the second arm of the lever η a fixed angle lever u is connected by a link t , which is actuated by a membrane. This membrane is connected by line w to the baffle flange r on the side of the flow direction.

The lever system tn, n, o, p, t, u is arranged in such a way that the membranes q, ν when responding influence the lever m and through this via the handlebar / the lever /, Z ₁ in the same sense.

The operation of the control is as follows:

When the pressure rises in the line, the membrane g causes the lever A, / to oscillate so that the arm / in the drawing swings to the left and the lever /, /! 7c is moved in this direction about the upper hinge point acting as a fixed point, whereby the side outlet d of the line c is expanded. As a result, the overflow valve opens b. In this case, a pressure drop occurs at the connection point of the line k in the line β, so that the membrane g recedes and tries to close the opening d again. In the damming flange / ·, however, there is a pressure drop that goes further than the pressure drop in front of it, and. the pressure behind the damming flange is lower, the greater the amount of steam passing through. This pressure drop resulting from the steam flow causes the diaphragms q, ν to respond, so that the angle levers p, u swing out and move the lever m to the right. This causes the handlebar /, J _1, acting on the upper arm Z _{1 of} the lever /, / _x , to swing out, the adjustment effect achieved thereby being combined with the adjustment effect emanating from the membrane g .

Claims (2)

Patent claims: i. Control of overflow valves, especially in steam pipelines, through * several pulse generators, which, as is known per se, the pressures, which at two different Make the line occur on a common control device for the hydraulic fluid of a servo motor transmitted, which actuates the overflow valve, characterized in that on the overflow valve apart from the one resulting from the pressure increase Opening acting pressure impulse a second with the help of the opening itself resulting steam flow generated control pulse based on the pressure drop immediately at and after a throttle point is brought to direct action by handlebars and levers in such a way that this counteracts the effect of the the pressure drop occurring at the pressure pulse pick-up point the overflow valve keeps open. 2. Control according to claim 1, characterized in that in the overflow valve leading steam line behind iao the take-off point of the pressure pulse Accumulation flange is arranged and behind This is a second pulse generator that responds to a pressure drop in the accumulation flange is connected, which z. B. from two immediately in front of and behind the storage flange connected diaphragms, which with the control linkage of the first pulse generator, z. B. by a lever system, are connected in such a way that they follow the closing effect of the pressure pulse generator when the pressure drops Counteract the amount of steam flowing through. For this purpose ι sheet of drawings