DE460423C - Control device for live steam storage steam, live steam exhaust steam or bleed turbines - Google Patents

Description

In steam engines, such as live steam storage steam, Live steam exhaust or extraction turbines, where the Steam inlet organs through a capacity regulator in the same and through a pressure regulator are set in the opposite sense, the case may arise that in live steam storage steam turbines with falling Storage steam pressure, in the case of live steam exhaust steam or bleed turbines, when it is falling Live steam pressure ensures that the performance is maintained in spite of an unchangeable load the system cannot be reached, since these pressure fluctuations from the existing one Pressure regulator cannot be monitored.

So goes z. B. in live steam storage steam turbines, in which one of the boiler pressure influenced pressure regulator the performance share of the boiler and the storage independent of the Centrifugal governor adjusts when the storage vapor pressure drops by a small amount, at which the existing limit pressure regulator does not yet come into operation, the performance back so that the Gesckwinidigkeitsreg - ler must readjust. The consequence of this is that when several machines are working, the others Turbines not set up for storage steam get a higher load, though the output of the storage steam turbine drops. This makes the boiler system higher claimed, and the fresh steam pitch continues to fall instead of being caused by the LTmführung of the memory is kept constant.

The same situation occurs with live steam exhaust steam or bleed turbines, when the live steam pressure is variable.

The invention consists in that, apart from the usual pressure regulator and the power regulator, a further pressure regulator is provided ₅ with fresh steam memory steam operation for decreasing memory vapor pressure, the storage steam inlet organs, the live steam inlet organs opens at live steam exhaust steam or Anzapfdampfbetrieb with decreasing steam, the relevant with increasing vapor pressure, however, Steam inlet organs closes.

In the drawing, the control device is illustrated in its application to a live steam memory steam turbine ,, namely show Fig. 1 is a section through the control organs _j Fig. 2 is a perspective and Figure 3 is a schematic representation of the control device Fig..

Rs denote 1 the live steam pressure regulator and 2 the limit pressure regulator, of which the former permanently influences the live steam and storage steam inlet organs 3, 4,

*) The patent seeker stated as the inventor:

Arthur Rosch in Brieselang.

the latter, on the other hand, only switches from storage operation to live steam operation when a certain minimum storage pressure is not reached. The two inlet organs 3, 4, which are adjusted in opposite directions by the pressure regulators 1 and 2, are also influenced by the centrifugal regulator 5 in the same sense. The movements of the centrifugal governor 5 are controlled by the lever 7, lever 8, linkage 9, 10, ii, 12, rotary shafts 13, 14, linkage 15, 16, 17, 18, 19, 20, control slide 21, 22, which can swing around point 6 , Rotary power piston 23, 24, camshafts 25, 26, valve lever 27 ,. 28 transferred to the steam inlet members 3, 4. The live steam pressure regulator 1 engages the double-armed lever 8 through linkage 29, 30, 31, 12, 10 and adjusts the rotary shafts 13, 14 and thereby the inlet organs 3, 4 in opposite directions to one another. The limit pressure regulator 2 also acts on the lever 30 with the interaction of the rods 32, 33 and, through the intermediary of the rods 31, 12, 10, 8, 9 _; 11, the rotating shafts 13, 14 operated a switch from storage steam operation to Fris did amp f as soon as the storage pressure has fallen below a certain minimum. In order to prevent minor fluctuations in the accumulator steam pressure during storage steam operation or during mixed operation from making the centrifugal governor necessary, in addition to the usual pressure regulators 1, 2, which both act on the live steam and accumulator steam inlet organs, only the accumulator steam inlet organ is used 4 influencing accumulator pressure regulator 34 is provided. This storage steam pressure regulator 34 is articulated by its connecting rod 35 to a lever 37 oscillating about the pivot point 36, which in turn is articulated to the lever 39 pivotable about the point 38 at the point 40. The levers 39, 41 and 20 provided with loops are connected to one another by a pin 42. The lever 41, which carries the connecting rod of the control slide 22, has its pivot point at 43. The control slide 22 mediates the adjustment of the storage steam inlet element 4 via the rotary power piston 24 of the control shaft 2 (1) the lever 37 is pivoted about its pivot point ± 36 and its pivot point 40 is raised.

The consequence of this is that the lever 39 is rotated about point 38 in the clockwise direction. The pin 42 is here with its sliding blocks in the initially stationary lever

20 shifted to the left, pressing the lever 4i downwards. As a result, the control slide 22 is moved downwards, which results in the storage steam valve opening. The return of the control slide 22 to its central position takes place by means of a cam-shaped return disk 44 arranged with the rotary force piston 24 on the shaft 26 _; which engages through a connecting rod 45 on the right end of the lever 41 carrying the control slide 22. The return of the control spool

21 takes place in the same way by a corresponding, on the control shaft 25 arranged return disc.

The invention can also be applied analogously to live steam exhaust steam or bleed turbines are used, but the pressure regulator 34 is not applied to the storage steam inlet organs, but works on the live steam inlet organs when the live steam pressure is changeable. The limit pressure regulator 2 is omitted in these machines, \ and the pressure regulator 1 is then operated by the changing exhaust pressure or tap pressure influences and adjusts the exhaust steam inlet organs or the overflow valve.

Claims (4)

Patent claims: i. Control device for live steam storage steam, Live steam exhaust steam or bleeding turbines, in which in addition to a power controller for live steam storage steam operation, a boiler pressure and a limit pressure regulator, an exhaust steam regulator for live steam operation and on for tap operation Tap control is present ^ characterized by that a pressure regulator is also provided, which evaporates storage steam operation at Fris when the storage steam pressure falls, the storage steam inlet organs, in the case of live steam exhaust steam or Extraction steam operation when the main steam falls, the main steam inlet device opens ^ when the steam pressure rises on the other hand closes the relevant steam inlet organs, 2. Control device for live steam storage steam turbines according to claim i, characterized in that the under the influence of the variable Storage steam pressure constant pressure regulator (34) with simultaneous adjustment of the storage steam inlet organs a shift of the pivot point (42) the through linkage with the power regulator (5), the boiler pressure (i) and the control lever (20) connected to the limit pressure regulator (2). 3. Control device for live steam - exhaust steam turbines according to claim I _3, characterized in that the under the influence of the variable live steam pressure regulator (34) with simultaneous adjustment of the live steam inlet organs a shift of the pivot point (42) of the intermediate linkage with the power regulator (5) and the control lever (20) connected to the exhaust steam regulator (1). 4. Control device for bleeding turbines according to claim 1, characterized in that that the under the influence of the variable live steam pressure regulator (34) with simultaneous Adjustment of the live steam inlet organs a shift of the pivot point (42) of the intermediate linkage with the Capacity regulator (5; and the tap pressure regulator (1) connected regulator lever (20) causes. 1 sheet of drawings.