DE579989C - No-head blading for axially loaded steam or gas turbines - Google Patents

Description

In gyroscopic machines the efficiency the energy conversion is essential, influenced by the gap losses. These losses have their cause in the fact that fixed and rotating parts are while of the company are not allowed to touch. There are always gaps, gaps between these parts are present, which have a disruptive effect on the flow in the blade channels.

In the overpressure turbines, in which the gradient of a stage is on the impeller and guide device distributed, the loss of the gap plays a particularly important role if it is about the processing of small amounts of steam in steps with a small blade height. A Part of the working steam flows through the gap, in which it is not directed, withdrawn thereby the work performance and also has a disruptive effect on the neighboring Working steam on. Attaching head rings to the blades tries to reduce these losses without causing vortex laps and the possibility of beam separation be avoided.

Better guidance of the steam jet and thus more favorable flow and conversion conditions can be achieved by installing guide plates that are not on the blades themselves, but on the Shovel head can be attached to the opposite wall. With the previous proposals for this purpose, angular sheet metal strips are placed in the groove together with the blades attached. However, this version "is not appropriate because of sudden deviations can be brought about from the flow velocity.

Better guidance of the steam can be achieved if according to the invention against the direction of steam inclined or curved guide plates and spacers used to guide the steam jet on its inner and outer surface , whereby this steam duct is designed in the manner of a Venturi tube. By the fact that on the narrowing of the steam jet followed by a gradual expansion, the energy loss associated with the leadership becomes small. It stays except that unavoidable channel losses in the guide device and in the impeller only the gap loss left as energy loss.

The guide plates are useful in .plastischem building material, z. B. nickel, produced and fastened together with the adjacent blade shell in the grooves provided for them. Because of the flexible shape, they can be installed with the smallest clearance or without clearance, so that the Schaufehl during start-up. make the required game yourself. ¹ Since the blades are considerably stronger than the thin sheet metal, they are not endangered and the gaps are as small as possible. The shape of the plates and 'the intermediate pieces is chosen such that the steam hits slightly inclined surfaces in order to then be fed past the next row of blades on surfaces of opposite inclination. Experience has shown that the energy conversions that occur are associated with small losses. '

In the figure, an embodiment of the invention is shown. Here, the blades are designated with α and the guide surfaces with b, V , c, cf are the intermediate pieces; the guide surfaces and intermediate pieces are, as can be seen from the figure, shaped in such a way that an effect similar to that in a Venturi tube occurs. The gaps can be made much smaller than with the usual blading, since the surface, made for example of nickel, yields when rubbed, without the blade defects suffering.

Claims (2)

Patent claims: ι. Head ringless blading for axially loaded steam or gas turbines, characterized by guide plates inclined or curved against the steam direction and spacers for guiding the steam jet on its inner and outer surface in the manner of a Venturi tube. 2. Blading for steam and gas turbines according to claim 1, characterized in that that the guide plates are made of heat-resistant, tough and plastic building material. 1 sheet of drawings