DE563896C - Turbine system - Google Patents

Description

Turbine system For steam or gas turbine systems that consist of two or multiple turbines with or. without power generators directly connected to it exist, the individual turbines are usually set up separately from each other, each turbine having its own inlet and control devices.

It has also already been proposed to design the turbine systems in such a way that that within a coherent turbine housing the impellers of different Step groups were attached to common or separate shafts. The invention aims at a further development of such turbine systems, and accordingly are according to the invention a turbine or several thereof in the vacuum chamber of a condensation turbine installed and through pipes provided within this chamber for the purpose of transmission of the propellant is connected to the condensing turbine between the turbines.

This arrangement achieves a substantial saving in space, and moreover, by installing a turbine or several in the vacuum chamber a condensation turbine not so easily displacements and accordingly dangerous Tensions occur in the building material. Furthermore, there is only an inlet device and a control device necessary.

The drawing shows, for example, some embodiments of the subject matter of the invention, namely, Figure i is an end view of a two-turbine turbine system and Fig.2 is a plan view of the system after removing the upper part of the common Housing.

Figs. 3 to 5 show schematic vertical sections through the Housing in various designs of the pipelines arranged between the turbines represent.

The turbine system shown schematically in Figs. I and z consists of two counter-rotating turbines 1, 2 with radial loading, both of which are connected to power generators 3, 3 and 4, 4 connected directly to them. The two turbines are arranged side by side within a common housing 5, and the housings or stands of the power generators are fastened to the turbine housing 5 by bolts. The turbine housing 5 rests on the condensers 6 with the interposition of an intermediate piece 7. The two turbines are connected to one another by pipelines 8, namely these pipelines connect the outlet of one turbine 2 with the inlet of the other turbine i, so that the propellant after it has done work in the turbine 2 and is thereby relaxed up to a certain pressure, can be further relaxed in the turbine i and does further work in this turbine. For example, the turbine 2 can have a speed of 3000 revolutions per minute and the turbine i a speed of 500 revolutions per minute.

Since the turbines work in series, there is only a single inlet device and only a single control device is required for the entire machine unit. The installation of the turbines within a common housing has in comparison with the previously customary separate installation of the turbines, a reduction in the Space requirement. Furthermore, the same vacuum is achieved for both turbines as well as the same temperature, and there are also the displacements in perpendicular Direction due to temperature or load fluctuations on both turbines the same. The required short pipelines 8 cause only a small amount Pressure gradient of the propellant during its transition from one turbine to the other, and the small amount of propellant present in the pipelines enables a rapid drop in load when it is shut down.

In Figures 3 to 5 are some different embodiments of the Pipe connections between the turbines are shown for example.

Fig.3 and ¢ show a plurality of tubes 8, which are curved, so that they can withstand the elongations and contractions as a result of temperature fluctuations Can take into account.

Fig. 5 shows a single straight pipe 9. This pipe can be a contain resilient part or so connected at its ends to the turbines be that it can lengthen or unhindered as a result of temperature fluctuations can contract without. the tight seal of the connection is endangered.

In Fig. 5 the upper part of the turbine housing is also designed in such a way that that the secondary turbine is accessible without the entire upper part of the housing must be removed. The part of the upper located above the secondary turbine 2 Part of the housing is designed for this purpose as a special cover io, the can be removed for itself. In Fig. 5 there are also longitudinal stiffeners i i, 12 shown in the upper and lower part of the turbine housing.

The turbine system can also contain more than two turbines, e.g. B. three turbines, the third of which is suitably the same size as the turbine 2 and is set up on the opposite side of turbine i, as in Fig. I is indicated by dash-dotted lines. In this list, the order between high pressure turbine, low pressure turbine and, if necessary, intermediate pressure turbine can be chosen at will.

It goes without saying that counter-rotating turbines can be used instead of radially loaded counter-rotating turbines also other turbines with directly connected power generators according to of the invention are arranged. The turbines can be further instead of side by side also in other ways, e.g. B. one above the other, placed in the common housing will.

Claims (7)

PATENT CLAIMS: i. Turbine system, characterized in that a Turbine or several built into the vacuum chamber of a condensing turbine and through pipes provided within this chamber for the purpose of transmitting the Propellant between the turbines are connected to the condensation turbine. 2. Turbine system according to claim i, characterized in that one is used as a high-pressure turbine working turbine or several of them in the vacuum chamber of the condensation turbine are arranged, the condensation turbine in such a way by pipelines with the High pressure turbine or the high pressure turbines is connected that they are called low pressure turbine is working. 3. Turbine system according to claim i, characterized in that, two. radially acted counter-rotating turbines provided within the common vacuum chamber are, one of which is a high-pressure turbine and the other is a turbine Low pressure turbine works. 4. Turbine system according to claim i and 3, characterized in that that the system three installed side by side within the common vacuum chamber, radially acted counter-rotating turbines, of which the two outer turbines as High-pressure turbines and the turbine in between as a low-pressure turbine or work in reverse, contains. 5. Turbine system according to claim i and 2, characterized in that that the connecting pipes between the turbines are simple or curved in turns are so that they change according to the temperature fluctuations that occur be able to extend or contract freely. 6. turbine system according to claim i and 2, characterized in that the turbines are interconnected by a single pipe are connected, which is designed such that it is according to the occurring Can prolong or contract temperature fluctuations unhindered. 7. Turbine system according to claims i to 3 or q., characterized in that the common chamber is provided with a special removable cover for each individual turbine.