DE201105C - - Google Patents

Description

Century i

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 88 «. GROUP

KARL KIRMESZ in JONSDORF b. ZITTAU.

Patented in the German Empire on September 18, 1907.

In order to use overpressure turbines with axial

Water leakage to achieve a good efficiency with each exposure, it is necessary that both the inlet and the outlet cross-section of the impeller is changed.

For this reason one has tried

To find constructions in which both cross-sections when the amount of water changes to be influenced. However, the previous constructions do not correspond to the requirements to be made of a good regulation, since they reduce the shock losses during Try to prevent entry and also the tearing off of the water column upon exit, have the disadvantage, however, that the axial exit velocity with all loads remains constant. This results in the disadvantage that even with decreasing In addition, the amount of water the leakage loss is just as great as with full admission occur at the transition from the impeller to the suction pipe when the amount of water decreases, shock losses occur, which reduce the efficiency have to. The present invention avoids all of these disadvantages; .she has with each application, only those axial exit velocities that are necessary are to pull the water out of the turbine; so it has smaller amounts of water a steadily increasing efficiency, in addition, there can be no shock losses when Transition from the impeller to the suction pipe occur, since the water always comes with the same Speed from the impeller occurs, which it finds in the suction pipe. '

The accompanying drawing illustrates the present invention by means of FIGS. 1 to 3 in one embodiment in section, FIG. 3 being a detail on an enlarged scale. In Fig. 4 illustrates a further embodiment.

The control shaft α moves at 'its rotation once by means of the rods b, b in a known manner the ring c, which adjusts the rotating blades e of the stator f through the joints d , such that according to the rotation of the ring c in the sense of two arrows, the outlet cross-section of the stator is increased or decreased. Furthermore, when the shaft α rotates, the nut g seated on its pin, which is designed as a screw, is shifted back and forth depending on the direction of rotation of the shaft, whereby the lever h, the slip ring i, the hollow shaft k, as well as the one with this and the rotating blades / of the impeller in connected joints η the impeller blades / are adjusted in such a way that changes in cross-section at the inlet also occur at the water outlet.

These changes are made to the and outlet cross-sections of the impeller thus in a mutual dependency relationship, depending on the changed power consumption of the

ty

Turbine or the changed water volume, in such a way that with decreasing amounts of water the absolute exit velocity and thus the exit loss becomes smaller.
As can be seen from the schematic illustration in FIG. 3, the rotating blades I form parts of the impeller blades, or they form the ends of these blades. The adjustment could, however, also affect the

ίο Extend the entire surface of the blades. the Rotary blades Z could also be used as a third blade system.

According to the embodiment shown in the Fig. 4 embodiment, the transmission of movement of the shaft takes α to the hollow shaft k by means of an angle lever h using a on a pin t of the shaft a attacking drawbar u. The hollow shaft k again transmits its movement to the impeller blades / using of joints v. The water pressure resting on the ends of the impeller blades can e.g. B. by a spiral spring w, which lies against an annular groove or nut χ of the turbine shaft, and acts on the hollow shaft k , are approximately compensated. In this embodiment, too, the direction of the relative speed to the circumferential speed changes, and the absolute exit speed becomes smaller when there is less application, whereby the efficiency increases.

The joints ν in connection with the spring w are arranged in such a way that in every position the pressure on the ring i is very close to zero, whereby friction losses are avoided.

Claims (3)

Patent-to sayings: 1. Control device with simultaneous control of the outlet cross-sections of the Guide wheel and the impeller for overpressure turbines with an axial water outlet, characterized in that these Regulation of the stator blades on the one hand and the impeller blades on the other - or a third blade system connected to the impeller blades - simultaneously or in quick succession adjusting shaft takes place in such a way that with decreasing amounts of water, the axial component the exit speed and thus the exit loss becomes smaller. 2. Device according to claim 1, characterized in that the movement of the shaft (a) is transmitted to the hollow shaft (k) by an angle lever (h) and a slip ring (i) , while the hollow shaft moves its movement to the impeller blades through joints (v " or n) transmits. 3. Apparatus according to claim 1, characterized in that the pressure transmitted by the blades (I) to the hollow shaft (k) is carried out by a spring (w) which is arranged in the hollow shaft and is supported against a collar (x) of the main shaft to avoid pressure on the slip ring (i). 1 sheet of drawings.