DE302376C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVs 302376 CLASS 14 c. GROUP

Control device for two-pressure steam turbines.

Patented in the German Empire on May 23, 1916.

The subject matter of the invention relates to a control device for two-pressure steam turbines, d. H. for steam turbines that use exhaust steam from a piston engine that works with an exhaust pipe primarily recycle, but if the amount of evaporation available in each case is no longer sufficient to deliver the required power, also use live steam, but with full utilization of the "

ίο total exhaust steam. Replacing Now since each \ ^r erfügbare exhaust steam must always be completely used up, and the lack of power to achieve the specified amount of live steam, so must the

15 'Fresh steam supply depends on the one hand on the degree of load on the machine, but on the other hand also from of the available amount of exhaust steam

~ be made pending. ■

Known regulators are used for regulation and as power transmission means between 'the control device and the steam inlet organs is, as usual, pressurized oil used.

The subject of the invention differs from others, however, for the same purpose Serving versions' in that the organ which the oil flow to the power piston the steam inlet valve regulates, axially adjusted by the speed controller and by the Exhaust steam pressure regulator is rotated around its axis, the regulator moves the individual valves caused by more or less strong throttling of the pressure oil be, with this throttling as a result of shifts in the immediate regulating body before .the openings of the oil lines in the throttle housing is effected, and that there is no contact between the immediate throttle organs, that rather they always slide past each other at a certain minimum distance.

The drawing represents the subject matter of the invention schematically in one embodiment shows, namely:

Fig. Ι the control device in view, ' partly in the cut,

2 and 3 parts of the control device in section along the line AA and BB 'of FIG. 1, and

Fig. 4 shows the development of the inner man by means of the valve housing.

The regulator rod 1 (Fig. 1) is supported with its lower end to the speed controller 30, the other end 20 of the rod is loaded by a spring 19. Throttle plates 2 and 4, which are rigidly connected to the rod 1 are located inside the housing 18, the connecting pieces 17, 33 and Throttle openings 3, 5 contains. The parts on the left (Fig. 1) are used for adjustment of the main steam valve 11, the parts on the right side are correspondingly off " formed and are used to adjust the exhaust steam valve 12. A pump 14 promotes Oil in the line 6, which then through the connecting piece 17 and opening 3 in the interior of the housing 18 and discharged through a drain pipe 15 (Fig. 2) is. That Throttle plate 2 moves in front of the opening. tion 3 so; ' that it is from the opening 3 emerging and after the interior of the housing 18 striving oil smaller or larger Releases pressure flow cross-sections. "This creates a higher in line 6" or lower pressure. . The main steam valve 11 is by means of valve rod 10 with the Auxiliary piston. 8 connected, which is housed in the housing 9 and is connected by an

adjustable spring 41 is loaded; Under the Piston 8 opens into the housing 9, a connecting line 7, which the space 42 between The piston 8 and the housing 9 are connected to the oil line 6. So in room 42 there is the same pressure as in line 6 and the pressure changes that occur in line 6 as a result of Flow changes occur between opening 3 and plate 2, plant themselves in the Space 42 and thus bring about the axial displacement which is the purpose of the regulation . Of the piston 8 and the live steam valve rigidly connected to it 11. In in a corresponding manner the exhaust valve 12 is adjusted by the rod 37 with piston 36, which is loaded in the housing 39 by means of a spring 40. The space 43 of the latter is connected by line 35 to the pipe 34, which is followed by an oil pump 32 after the nozzle 33 leads. The control rod 1 still carries a longitudinal wedge in its central part (FIG. 3) 29. A head 28 is seated on this wedge 29, which when the control rod is rotated ι a piston rod 25 adjusted by means of rod 27. The latter is by means of a pin 26 hinged to the rod 27 and carries a piston 22 of an auxiliary engine 21. The Piston 22 (Fig. 3) is on one side under the pressure of the exhaust steam collector (Heat storage), which is connected by means of tube 31, but on the other side below atmospheric pressure and is supported on both sides by springs 23 and 24. With increasing The pressure of the exhaust steam moves the piston 22 downwards (FIG. 3) and with it Rod 25 and joint 26, whereby rod 27 ■ and with her'Reglerstange 1 around the longitudinal axis of the latter are twisted, seen from above in the sense of Clockwise.

The shape of the orifice plates 2 and 4 and the orifice 3 and 5 'in the building 18 depends entirely on the regulations regarding the relationship between the degree of pollution and the amount of steam available on the one hand and the required fresh and exhaust steam volume on the other will. Fig. 4 provides information about the entire control process. Increases while remaining the same Turbine load increases the available exhaust steam volume (or the exhaust steam pressure) in the A heat storage tank, the control rod rotates ι clockwise. 4 shows schematically the development of the inner jacket of the housing 18 with the two throttle openings 3 and 5, in front of which the platelets 2 and 4 are located. The rotation of the rod ι clockwise corresponds to one Shifting both plates after. right (Fig. 4). This creates opening 3, which leads to the Regulation of the main steam valve is used, more uncovered, to regulate the exhaust steam valve serving opening 5 more covered; in lines 6 and 7 and in room 42 (Fig. 1) the oil pressure decreases, the KoI-ben 8 sinks, the main steam valve π gives the steam a smaller flow cross-section free, less live steam enters. On the other hand, the Oil pressure in lines 34 and 35 to; the piston 36 rises, the exhaust valve 12 is the steam releases a larger cross-section, more exhaust steam enters.

In the event of partial or total relief of the turbine, the regulator 30 pushes the plates 2 and 4 upwards, openings 3 and 5 are more uncovered, the oil pressures in both Lines sink, both steam valves begin their closing movement.

In the present invention, changes in the amount of evaporation available affect no change in the number of revolutions of the steady state, so that therefore 'the turbine in Steady state with pure live steam operation with the same number of revolutions can, as in the steady state with pure steam operation. '

Claims (2)

Patent Claims: 1. Control device for two-pressure steam turbines, at which the changes in turbine power. and the currently available amount of evaporation are brought to action directly by one and the same organ, characterized in that this organ gan, which regulates the flow of oil to the power pistons of the steam inlet valves, from Speed regulator axially adjusted and the exhaust steam pressure regulator around his Axis is rotated around. 2. Control device according to claim i, characterized in that the Control movements of the individual valves (11, 12) by more or less strong throttling of the pressure oil caused, this throttling as a result of shifts of the immediate Control element (2, 4) is caused in front of the orifices (3, 5) of the oil lines in the throttle housing (18), and that between the immediate 'throttle organs (2, 3 or 4, 5) no contact it takes place that rather they always slide past each other at a certain minimum distance. ' 1 sheet of drawings.