DE544362C - Hydraulic control, especially for turbines - Google Patents

Description

Hydraulic control, especially for turbines. They are hydraulic Known control systems in which the speed pulses of a centrifugal governor through Pressure or quantity impulses of the conveying means of a constantly running, with the to centrifugal pump coupled to the regulating machine. It is particular been proposed, the pulses directly from the delivery pressure or from the delivery rate the main oil pump of a turbine and the regulator in that of the main oil pump to switch on the supplied Mstrom, be it that the Sanzen Ölstrom is passed through it, be it that one arranges the control elements in shunt to the main oil flow.

A turbine has to be filled with oil for the Bearing lubrication and often also for the control are supplied. It's about this Purpose to provide a special auxiliary oil pump, which during the start-up process takes its drive power from an independent power source. Main oil pump and Auxiliary oil pumps supply the same distribution network with pressurized oil. From this result in the case of hydraulic controls of the type mentioned, difficulties insofar as it it can happen that the auxiliary oil pump counteracts this during the start-up process. According to the invention, the auxiliary oil pump should therefore be dimensioned so that the of their Delivery pressure or the impulses emanating from its delivery rate are smaller than the smallest, control pulses emanating from the main oil pump.

The relationships are shown on the basis of the circuit diagram in the figure, which shows a hydraulic control of a special kind.

The scheme works on the principle that not changing Delivery pressures give the impulses for the regulation, but that rather the delivery pressure is kept constant and therefor the changes in the delivery rate to trigger Regular movements are exploited.

The main oil pump i supplies the various bearings in the diagram under the part i i are summarized, as well as the control elements 7 of the turbine with Pressure oil. In the main oil flow, the control element is switched on, which is the essential Part contains a slide 2 and a slide 5. The through opening 2 i in the oil flow entering the regulating element splits, and the larger part flows through an opening 22, while the smaller part flows through slots ¢ whose Size is given by the position of a plate 2. Combine the two partial flows themselves in space 23 and then divide again into a partial flow, which is a borehole 2 ¢ flows through and a partial flow which is passed through the cross section 25. Those reuniting behind the control device Partial flows first flow through an oil cooler io and then spread over the bearings. Of the with 5 designated part of these control organs represents a pressure regulator that the Keeps the delivery pressure of pump i constant. If the delivery rate increases as a result of increased speed on, the pressure regulator 5 releases a larger cross section 25 and reduces it vice versa when the speed drops. The ones that change with changing speed Delivery rates cause an adjustment of the plate 2 in such a way that the plate 2 is moved downwards with increased delivery rate, so that the passage slot at 4. it increases, and vice versa. The control piston 26 is connected to the plate 2 connected, which in a known manner together with a return sleeve 27 the oil inflow to control cylinder 7 for valve g regulates.

To start up the system, an auxiliary oil pump 16 is provided, which over a check valve 1 ¢ the line 28 connected to the main oil pump i Oil supplied. The oil delivered by the auxiliary oil pump is once used to supply the Bearing points, then to open the valves 9 and i g, which are closed at a standstill second hand.

The oil flow to the servomotor of the shut-off valve i g is via the switchover slide 18 out, which only establishes a connection with the ülzuflußleitung when he is brought into the position shown. It is held in this position by the oil pressure. Since the auxiliary oil pump is the control oil for the control processes required during the starting process is to deliver, it must convey into the line 28 in front of the control apparatus, there behind where the oil pressure is limited to the lubrication pressure by valve 2o. While During the start-up process, the pump i initially does not deliver any oil, and the slide 2 takes its top position. If the auxiliary oil pump is now running and in the Line 28 promotes, the case could arise that the flow rate of the Auxiliary oil pump of plate 2 gradually pulled down, so valve 9 always more is closed. The auxiliary oil pump would therefore counteract the start-up process. Then according to the invention, the auxiliary oil pump is dimensioned such that its highest Delivery pressure or the impulse emanating from their delivery rate is smaller than the lowest control pulse of the pump i, an adjustment of the plate 2, the is only possible with the lowest control pulse mentioned, does not occur. Much more the delivery flow of the auxiliary oil pump flows directly through the cross section 22. An overflow valve 15 behind the auxiliary oil pump 16 ensures that the pump pressure does not exceed a certain amount.

Claims (1)

PATENT CLAIM: Hydraulic control, especially for steam turbines, with a switched on in the flow of the main oil pump, on pressure or volume changes of the pumped oil responsive control element tmd to the feed line of the main oil pump Auxiliary oil pump connected upstream of the regulating member, characterized in that the Auxiliary oil pump is dimensioned so that it depends on its delivery pressure or its delivery rate outgoing impulses are smaller than the smallest, outgoing from the main oil pump Control impulses.