DE915528C - Hydraulic speed controller for steam, gas or water turbines - Google Patents

Description

The invention relates to a hydraulic speed controller for steam, gas or water turbines, in which a constant pressure source # fed liquid jet exiting freely from a nozzle from a counter nozzle is caught, which converts its speed back into pressure that is applied to the Piston of a control valve for changing the amount of propellant supplied to the turbine acts.

The invention aims to provide an advantageous and compact design such speed controller, which is achieved according to the main feature of the invention becomes that a rotating body rotating around the liquid jet -the position the nozzle with reference to the counter nozzle or the position of one between the nozzle and the counter nozzle arranged aperture determined.

These and other features are explained in more detail in the following description of two exemplary embodiments of the invention shown in the drawing. It shows Fig. I is a schematically illustrated sectional view of a speed controller with an adjustable orifice between the jet nozzle and Gegendüse, Fig. 2 a of FIG. I similar view of a speed controller, in which the jet nozzle with respect to Gegendüse is adjustable, Fig. 3 shows the path of the Liquid jet from the jet nozzle to the counter or collecting nozzle in the embodiment according to FIG. 1 on an enlarged scale, FIG. 4 shows a representation of the liquid path similar to FIG. 3 in the embodiment according to FIG. 2.

In the embodiment of the invention according to FIG. I, i is the jet pipe which is rigidly connected to the housing 2 and the drive wheel 3. The speed of the wheel 3 depends on the turbine speed. In the housing 2, the flywheel 4 is rotatably mounted about the joint 5. With increasing speed, the flywheel moves outwards against the pressure of a spring 6 and moves a diaphragm 7 rigidly connected to the flywheel into the path of the oil or another liquid emerging from the jet pipe i.

The oil is fed under pressure through the stationary line 8. In the direction of flow of the oil, behind the diaphragm 7, there is the collecting nozzle 9, which opens into the space io of the control cylinder ii, in which a piston 12 can be displaced against the pressure of the spring 13. The position of the piston 1: 2 is determined by the oil pressure prevailing in the cylinder chamber, which is dependent on the strength of the oil jet hitting the collecting nozzle, which is determined by the aperture setting (see also FIG. 3). Oil drainage openings 14 are provided in the housing 2.

The embodiment of the invention shown in FIG. 2 differs differs from that shown in Fig. i in that the jet nozzle i around the joint 15 is pivotable and connected to the flywheel 4.

The aperture 7 of the embodiment of FIG. I is omitted because the intensity of the impinging on the collector nozzle 9 beam is determined i by the particular on the rotational speed of the wheel 3 attitude of the swing body 4 and the jet nozzle with respect to the collector nozzle 9 ( see also Fig. 4).

The invention is not bound to the embodiment shown. So z. B. - also think of other arrangements of the flywheel and its training. It is essential for the invention that a compact and simple design of the hydraulic speed controller is achieved through the arrangement of a flywheel rotating around the liquid jet for setting the liquid jet.

Claims (2)

PATENT CLAIMS.-i. Hydraulic speed controller for steam, gas or water turbines, in which a jet of liquid, fed by a constant pressure source and emerging freely from a nozzle, is caught by a counter-nozzle, which converts its speed back into pressure, which is applied to the piston of a control valve to change the Turbine supplied propellant acts, characterized in that a rotating body (4) rotating around the liquid jet determines the position of the nozzle (i) with respect to the counter-nozzle (9) or the position of a diaphragm (7) arranged between the nozzle and the counter-nozzle. 2. Hydraulic speed controller according to claim i, characterized in that the flywheel (4) is mounted in a rotating housing (2) surrounding the jet nozzle (i) and the counter nozzle (9). 3. Hydraulic speed controller according to claim 2-, characterized in that the rotating housing (2) is rigidly connected to the cylinder (ii) of the control piston.