DE2345637A1 - Turbine with centrifugal stage(s) - has distributor duct(s), housing attached within turbine housing - Google Patents

Abstract

Turbine for compressible medium has the drive medium flowing centripetally at least through the impeller of the first stage, which operates at constant press. and is surrounded by distributor duct(s) with regulating valve(s), in which an enthalpy difference is converted into velocity, with the outlet opening directly adjoining the duct(s) inlet side. The duct(s) have a gradually decreasing passage from the inlet end, and adjoin the centripetal runner directly along its whole inner periphery. Within the horizontally divided turbine housing, the horizontally divided housing embracing the distributor ducts of the centripetal stage is fastened, and a housing of a regulator valve is attached to each of the halves of the turbine housing. For each regulating valve, the housing part which determines the flow passage along the valve body is an interchangeable part.

Description

Patenonwäl'e * τ Ü

S Si / dF 416 ^D1 P '·' ng. C. Wallach

Dipl. Ing. G. Koch / 0. Sep

Dr. T. Haibach
8 Munich 2 2345637

Klttflngarstr. 8, TiI. 24 02 78

Koninklijke Machinefabriek Stork B.V., Hengelo, Netherlands

turbine

The application relates to a turbine for a compressible Medium with one or more impellers, one of which at least the impeller of the first stage is traversed by the drive medium in the centripetal direction and afterwards the constant pressure principle works which stage of one or more distribution lines surrounding the centripetal impeller is surrounded, with one or more control valves in which an entalpiedifferenz of the medium in speed is converted, with the outlet opening directly on the inlet side of the distribution line (s) connect and the line (s) from your entry end from, has (have) a gradually decreasing flow passage and extends directly over the entire inner circumference connect to the centripetal impeller.

The invention aims to create a turbine of this type, in which normalization can be carried out in a simple manner, which is expressed in the cost price. According to the invention is within the horizontally divided turbine housing that is also horizontally divided, the distribution lines The housing of the centripetal wheel encompasses the housing, the housing is one on each of the halves of the turbine housing Control valve and is the one that determines the flow passage along the valve body for each control valve Part of the housing designed in the form of an exchangeable part. Should different inlet and outlet ratios and a different one be used in such an embodiment of a turbine Power can be used, the same turbine housing and the same closing element can still be used.

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housing with connections can be used. It is only necessary to attach the housing of the centripetal stage to the parts of the Adjust control valves, which determine the flow passage. The largest parts can thus be broken down into larger ones Create and save rows. The described embodiment also has the advantage that the parts are in pairs are identical.

Since the housing with the distributor lines is fastened in the turbine housing, higher levels of pressure can be achieved when using media Temperature complications as a result of thermal stresses occur as the medium is in direct contact with the inside of the medium Housing of the centripetal stage and not with the turbine housing lying around.

In an expedient embodiment, therefore, according to According to the invention, the housing of the first stage comprising the distribution lines made of a material with a lower coefficient of expansion manufactured as the. Material of the turbine housing. In particular, the housing becomes the centripetal stage made of austenitic, riodular cast iron and the turbine housing is made of neat cast steel.

According to the invention, it is also particularly expedient to attach the control valves to the housing through a narrow leakage gap to be connected to the centripetal step without direct contact. When using different types of Materials and due to the possibility of large temperature differences occurring in different Parts could be expected to have high thermal stresses if they were firmly connected. A flexible connection is difficult feasible. In the case of a permanent connection, a statically indeterminate state would also arise. The under-

different parts would then be connected to one another in two ways. If a leakage gap is used, the

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different parts independently movable and after a certain amount of pressure medium into the chamber If there is a leak between the two housings, a state of equilibrium occurs one that prevents further discharge.

If steam is used as the pressure medium, according to the invention the space formed between the turbine housing and the housing of the centripetal housing at the lowest point be provided with a closable tapping stub.

According to the invention, there is a special embodiment when the distribution lines are given a rectangular cross-section and the shape of the passage of the housing of the control valve is not round but rectangular in accordance with the distribution lines. The round shape of the passage of the housing is necessary to enable a good closure when closed. The housing containing the distribution lines can then be machined in a simple manner if this housing is clamped eccentrically. It is surprising that there is no reduction in efficiency compared to distribution lines with a round cross-section. In certain cases, even a slight improvement in efficiency has resulted ,, while the reverse is just could be expected because of the rectangular cross-section, a larger wet "has ¹¹ surface as a round Querschnitt.gleichen passage .. '

Because the housing of the control valves is attached to the outside of the turbine housing and the flow passage regulating part has to connect to the distribution channels, a very long guide is necessary for the actuating rod of the valve body. The valve body is subject to changing pressure and shock

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load due to the influence of the reaction of the blades. There could therefore be a risk that the valve body and the operating rod guide start to vibrate. According to the invention, this risk can thereby be eliminated that a guide bush for the actuating rod of the valve body on the one near the valve body lying end is connected to the valve housing by radially extending backs.

The invention is described below with reference to an in.der drawing illustrated embodiment explained in more detail. It demonstrate:

1 shows a section perpendicular to the axis of the centripetal stage of a turbine according to the invention,

FIG. 2 shows a longitudinal section corresponding to that of FIG. 1, FIG. 3 shows, on an enlarged scale, a detail of FIG.

The Tu £> ine shown has a housing 1 in which a rotor 2 is mounted with the axle journals 3 and 4. The bearings and the associated seals are denoted by 5 and 6. Of the Rotor 2 has an impeller 7 and 7 through which there is a centripetal flow three axial impellers 8 and 9. The housing 1 has in front of the axial impellers 8 and 9 attached, stationary Guide vane rings 10 and 11. The housing 1 is divided horizontally into two halves 12 and 13. Means Flanges are used to attach these halves together. Inside the housing formed by the two HSIften 12 and 13 1, a separate housing is provided for the centripetal stage, which consists of two halves 14 and 15 which are attached to each other by flanges. The halves 14 and 15 are in the housing 1 on that shown in FIG Way hung up. Inside the by the halves 14 and

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15 formed housing for the centripetal stage, the distribution channels 16 and 17 are formed, which in this case have a rectangular cross-section. This can be clearly seen from FIGS. 2 and 3. Through flanges 18, a control valve with a housing 19 is attached to the half 13 of the housing 1. The housing 19 is with a feed connection 20 is provided. In the housing 19 a guide bush 21 is arranged for an operating rod 22, which carries the valve body 23. The valve body 23 acts with an exchangeable part 24 accommodated in the housing 19. The valve body 23 and the part 24 determine the passage of the control valve and are dimensioned such that in the open state of the valve body 23 a very high speed of the medium supplied to the control valve is achieved. On half 12 of the Housing 1, a correspondingly designed control valve is attached to a housing 25. The different Parts of this valve are not shown individually. The guide sleeve 21 for the valve rod 22 is through radially extending back 26 connected to the housing 19. Between the interchangeable part 24 and the part 15 of the There is no direct contact with the housing of the centripetal stage, since a gap 27 is formed. The space 28 between the housing 1 and the housing 14, 15 of the centripetal stage stands through the gap 27 with the supply of the pressure medium Drive the turbine in connection. If a condensable medium is used, the space 28 is lockable with a Tap stub 29 provided. The drainage of condensate is particularly important with regard to the Commissioning of the turbine, since in this case no liquid may be present in the channels.

Thanks to the two-part embodiment, the separate one Housing of the centripetal stage and the exchangeable part

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the control valves can while maintaining the same dimensions of the housing 19 and 25 of the control valves and the Halves 12 and 13 of the turbine housing an adaptation to certain conditions can be achieved by another Housing 14,15 and another replaceable part 24 can be used. The heavy parts can thus be broken down into large Create rows and save them as a supply. Since when using a medium of high temperature, e.g. high pressure steam Complications can occur as a result of thermal stresses, the housing 14, 15 can be made of one material with another Expansion coefficients are manufactured as the casing 1. The turbine casing 1 can for example consist of cast steel, while the housing 14, 15 could be made of austenitic nodular cast iron. Thanks to the gap 27 between the Exchangeable part 24 and the housing 14,15 of the centripetal stage, the thermal stresses that occur are likewise limited. This results in a particularly simple connection since the space 28 can be designed to be closed. An additional advantage consists in the fact that the medium leaking through the gap 27 already results in a strong pressure reduction has learned, so that the housing 1 does not need to be resistant to high pressure. The distribution channels 16 and 17 have one rectangular cross-section, which makes machining very easy with an eccentric clamping of the two housing halves 14 and 15 is feasible. In the exchangeable handle 24 there is a transition from the round cross-section at the location of the closure part of the valve body 23 in the rectangular cross section at the location of the connection to the manifold 17. The round cross-section of the replaceable part 24 of the housing is to achieve a Good closure of the control valve when closed is necessary. The chosen type of turbine requires a very long guide for the valve rod 22. Thanks to the support ribs 26 it is prevented that the valve body 23 and the guide bush 21 with variable pressure and shock

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start to swing. Such a variable load can result from the retroactive effect of the The blades of the impeller 7 easily enter the valve body.

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Claims (6)

Expectations . wherein one or more control valves, in which an entalpiedifferenz of the medium is converted into speed, connect with the outlet opening directly to the inlet side of the distributor line (s) and the line (s) have a gradually decreasing flow passage from the inlet end and become connect directly to the centripetal impeller along the entire inner circumference, characterized in that inside the horizontally divided turbine housing (1) the housing (14, 15) of the centripetal stage, which is also horizontally divided and encompasses the distribution lines (16, 17), is attached that on each of the halves (12,13) of the turbine housing (1) a housing (19,25) of a control valve is attached and that for each control valve the housing part determining the flow passage along the valve body (23) is designed in the form of an exchangeable part (24). 2. Turbine according to claim 1, characterized in that the housing (14,15) comprising the distributor lines (16,17) of the first stage is made of a material which has a lower coefficient of expansion than the material of the turbine housing (1) and in particular that the housing (14, 15) of the centripetal stage consists of austenitic, nodular cast iron and the turbine housing (1) consists of ordinary cast steel. 509813/0077 3. Turbine according to claim 1 or 2, characterized / that the control valves (19,24,25) connect through a narrow leakage gap (27) to the housing (14,15) of the centripetal stage without direct contact occurring, 4. Turbine according to one of the preceding claims, characterized in that the space (28) formed between the turbine housing (1) and the housing of the centripetal stage (14, 15) is provided at the lowest point with a lockable tap stub (29). 5. Turbine according to one or more of the preceding claims, characterized in that the distributor lines (16, 17) have a rectangular cross-section and that the passage of the housing (24) of a control valve changes from the round shape into one of the shape of the distributor lines (16 , 17) passes over the corresponding rectangular shape. 6. Turbine according to claim 1, characterized in that a guide bush (21) for the actuating rod (22) of the valve body (23) at the end lying close to the valve body (22) by radially extending back (26) with the valve housing (19) connected is. 5 09813/0077 Blank page