DE2520653A1 - DEVICE FOR CARRYING OUT THE PROCESS FOR INCREASING THE DYNAMIC CAPACITY LIMIT OF STEAM OR GAS FLOW TURBINES OR COMPRESSORS - Google Patents

Description

Maschinenfabrik Augsburg-Nürnberg
Corporation

Nuremberg, April 30, 1975

Device for carrying out the method for increasing the dynamic performance limit of steam or turbines or compressors through which gas flows. Addendum to patent ... (patent application P 24 13 655.8)

The invention relates to a device for performing the method for increasing the dynamic Performance limit of steam or gas flow turbines or compressors with in gaps between rotating and fixed components arranged non-contact seals, whereby by a in the gap area of the non-contact Seals introduced mixed medium with low, without or with negative circumferential component a In the direction of rotation of the oscillation vector of the natural oscillation, the circumferential component of the gap flow is positively defined correspondingly reduced or a circumferential component that is positively defined against the direction of rotation of the vibration vector the gap flow is increased accordingly.

The invention is based on the object of a constructive simple implementation of what is specified in the main application to create a general solution principle.

This object is achieved according to the invention in that

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in the ring carrying the throttle elements of the seals radially or approximately radially directed bores in front of the active part of the seal and after one or more upstream throttle elements are provided, and that the dimensions of the bores and the or the upstream Throttle elements are chosen so that most of the leakage flow is fed to the gap via the bores will.

The invention is shown schematically in the drawings. It shows:

Pig. I the arrangement according to the invention in use the seal in the gap between the impeller shroud and a stationary wall, with a cutout shown from the longitudinal center section through the rotor axis

2 shows the arrangement according to the invention in use the seal in the gap between the rotor shaft and the inner housing, with a cutout from the longitudinal center section through the rotor axis is shown.

According to the illustration of FIG. 1 is in the gap I. between a non-rotating wall in the form of a two-part, supported by the stator structure Ring 10 and the shroud 3 of an impeller 4 located on the shaft of the rotor of a turbine is more common Design a non-contact seal in the form of a labyrinth seal with mortised in the ring 10, in a sheet metal 11a, b, c, d lying perpendicular to the rotor axis plane. - As a labyrinth seal but any other known labyrinth seal can also be used.

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The ring 10 is arranged so that between it and the surrounding, non-rotating part 12, a part the stator construction or the inner or outer housing, an axial gap 13 remains. In the ring 10 are in the area between the first plate Ha and the second plate Hb - seen in the direction of flow, which thus represents the beginning of the active part of the seal, radial bores 14 are provided. The tin Ha has the task of increasing the gap flow S- originating from an upstream guide vane grid To divert part to the outside and thereby prevent this part immediately in the gap 1 or in the seal flows in. The derived part of the leakage flow is through the axial gap 13 and the holes 14 in the Inserted the area of the seal.

The active sealing part Hb, c ... can also have several metal sheets (throttling points) acting as deflectors may be connected upstream; in this case the holes 14 are in To arrange area between the innermost sheet and the beginning of the active part of the seal.

If a counter-twist is to be generated, then the bores 14 are also with their axes in the vertical Plane lying through the rotor axis, but to be arranged inclined to the radial, which is not shown further is.

This means that most of the leakage flow through the holes .l4 is supplied to the seals, the conditions be chosen so that the flow resistance of the upstream plate (throttle point) or the upstream Sheet metal (throttling points) is greater than the flow resistance on the bypass route via the bores l4.

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On the bypass via the bores 14, the Influencing the circumferential component in the desired sense, i.e. reducing a circumferential component positively defined in the direction of rotation of the oscillation vector of the natural oscillation the gap flow or increase in a positive definition against the direction of rotation of the oscillation vector Circumferential component of the gap flow. (The degree of influence depends on the design data of the respective a specific fluid flow machine abj this dimension can be made by a fluid machine specialist without any inventive considerations be determined.)

The final circumferential component before the active part of the seal is the pulse averaged circumferential component from the two partial flows, namely the larger flow entering via the bores 14 and the one immediately between the gap between the upstream sheet Ha (or the upstream metal sheets) and the shroud 3 in stream entering the seal.

The measure described above can also be used with the measure described in more detail in the main application Combine the arrangement of flow-guiding components in the area of the seal.

The representation according to FIG. 2 differs from the embodiment described above in that the measure serving to increase the dynamic performance limit (upstream throttle point (s); boreholes) provided in the gap between the shaft 16 of the rotor and the sealing segment 17 of the inner housing shaft seal is. The gap flow S «coming from the guide vane grid of the first stage is - because of the upstream acting as a throttle sheet Ha - forced to one

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mostly over the axial gap Ι} 'and the holes 14 - the same as in the example according to Pig. I arranged and - to enter the sealing area in front of the active part (lib, lic ...) of the seal.

• 609847/0173 ongjnal inspected

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Claims (1)

sk / kr Maschinenfabrik Augsburg-Nürnberg Aktiengesellschaft Nuremberg, April 30, 1975 Claims Device for carrying out the method for increasing the dynamic performance limit of steam or gas flow turbines or compressors, with non-contact seals arranged in gaps between rotating and stationary components, with a mixed medium introduced in the gap area of the non-contact seals with low, no or negative circumferential components a circumferential component of the gap flow defined positively in the direction of rotation of the oscillation vector of the natural oscillation is correspondingly reduced or a circumferential component of the gap flow defined positively against the direction of rotation of the oscillation vector is increased accordingly, according to patent ... (patent application P 24 XJ, 655.8), characterized in that in the ring (10; 17) carrying the throttle elements of the seal is provided radially or approximately radially, directed bores (l4) in front of the active part (lib, Hc ...) of the seal and after one or more upstream throttle elements (Ha) are, and that the dimensions of the bores (14) and the or the upstream throttle element (Ha) are chosen so that the largest part of the leakage flow (S ₁ or S «) is fed to the gap (1) via the bores. 03.8418, 609847/0173 Blank page