RU2362887C1 - Labyrinth over-strip sealing for steam turbine - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to labyrinth over-strip sealing for steam turbine, containing compacting annular combs of turbine rotor, sealing segment, including close-meshed cellular units, soldered to cases of cellular units between sealing stator combs, implemented at one with cases of cellular units, annular grooves of turbine's stator, allowing V-shaped in longitudinal section of turbine shape and horizontal longitudinal connector. Sealing segments are implemented separately for each row of turbine rotor combs. Cases of cellular units are implemented of plastic alloyed steel and in cross-section allows V-shaped form. Dimensions provide to insert cases of cellular units in V-shaped groove of turbine's stator with minimal gap. Before mounting cases of cellular units allows in cross-section plate form, which during mounting, implemented by pushing of cases of cellular units from the side of horizontal socket lengthwise V-shaped groove of turbine's stator, assumes a shape curved in longitudinal section. Owing to received during mounting difference of radius of curvature of groove of turbine's stator and cases of cellular units, cases of cellular units are fixed in radial direction ensured by elasticity of cases' material.

EFFECT: such implementation of sealing provides cost reduction of its manufacturing and increase of maintainability.

4 dwg

Description

Technical field

The invention relates to labyrinth over-seal gaskets of steam turbines.

State of the art

In steam turbines, recently, for sealing gaps between the bandage of rotor blades and non-rotating (stator) parts of the steam turbine casing, over-band seals with small-cell honeycomb blocks made of heat-resistant nickel-based sheet alloy with a thickness of 0.05 mm have been used (patent RU No. 2150627 , MKI F16J 15/447; Patent RU No. 224182, MKI F16J 15/447). In the above seal designs, small-cell honeycomb blocks are soldered by high-temperature solder on a nickel base to the holders (cases) of the honeycomb blocks. The necessity of using high-temperature soldering is due to the fact that this is the only reliable way to fasten small-cell cellular blocks to the base of the case. Housings of honeycomb blocks are segments that are cut from an annular blank (a rolled ring) made of highly alloyed corrosion-resistant steel, for example, steel 12Kh11N2V2MF-Sh. This steel has high hardness and strength, therefore, in order to carry out the installation of the housings of the honeycomb blocks, it is necessary to produce a housing for each turbine stage. In addition, the housings have L-shaped or T-shaped locks for their fixation on the turbine stator. Therefore, the workpiece in the form of a rolled ring of highly alloyed stainless steel has a large cross-sectional area and, therefore, a large mass and cost.

Closest to the proposed solution is the labyrinth over-seal for a steam turbine, disclosed in patent RU No. 2287063, MKI F16D 11/08. The labyrinth seal of the aforementioned patent has a housing of honeycomb blocks with a T-shaped lock, annular sealing ridges of the stator and with two tracks of honeycomb blocks. Housings of honeycomb blocks are segments that are cut from an annular blank (a rolled ring) made of highly alloyed stainless steel. The housing segments are inserted into the stator groove having a T-shape in the longitudinal section of the turbine. From circumferential movements, the segments of the housings are fixed with radial pins. In the axial direction, the housing segments are held by the lateral surface of the T-slot of the turbine stator. This design of the seal leads to a large cross-section of the holder (the final size of the body of the holder in the radial direction is not less than 22 mm). For each stage of the turbine, a rolling ring is made with a certain diameter. This leads to the high cost of housing blanks in the form of rolled rings from high alloy corrosion-resistant steel and, therefore, the high cost of manufacturing a set of labyrinth seals for the entire turbine. With such a large cross-sectional area, segments cannot be plastically deformed, and therefore they are made individually for each stage of the turbine, which also increases the cost of manufacturing the segments. If at least one track of the cell blocks is damaged, the seal must be repaired by replacing the segments. In this case, the intact track of the cell blocks is replaced.

Disclosure of invention

The invention solves the problem of reducing the cost of manufacturing seals and improve maintainability.

The labyrinth over-seal for a steam turbine contains o-ring combs mounted on a turbine rotor. Sealing segments include fine-mesh honeycomb blocks that are soldered to the housing of the honeycomb blocks between the sealing ridges, made in one piece with the housing of the honeycomb blocks. In the turbine stator with a horizontal longitudinal connector, annular grooves are made having a V-shape in the longitudinal section of the turbine.

According to the invention, the seal segments are made separately for each row of turbine rotor combs. Housings of honeycomb blocks are made of plastic alloy steel and in cross section are V-shaped with dimensions that allow inserting the housings of honeycomb blocks into the groove of the turbine stator with minimal clearance. Prior to installation, the housings of the cell blocks are flat in longitudinal section. When mounting the honeycomb casing by pushing the casing of the honeycomb blocks from the side of the horizontal stator connector along the V-groove of the turbine stator, the casings acquire a shape curved in longitudinal section. With this installation, the difference between the radii of curvature of the groove of the stator of the turbine and the housings of the cellular blocks is obtained. In this case, the cases of the cellular blocks due to the elasticity of the material of the cases are fixed in the radial direction.

Brief Description of the Drawings

The invention is further illustrated by a specific example of its implementation with reference to the accompanying drawings, which depict:

Figure 1 - patented seal, longitudinal section.

Figure 2 is a longitudinal section of a seal segment.

Figure 3 is a cross section of a patented seal (section AA) in the position when the seal segment is being assembled.

Figure 4 is a view along arrow B on the longitudinal horizontal connector of the turbine stator.

The implementation of the invention

The honeycomb over-seal for a steam turbine comprises a turbine stator 1 with annular grooves 2 having a V-shape in longitudinal section of the turbine. The segments of the honeycomb seal 3 are inserted into the V-shaped annular groove 2 of the turbine stator, each of which includes a honeycomb housing 4 made of alloyed stainless steel, and honeycomb 5 soldered to the housings 4 using a soldered seam 6. Cell housing blocks 4 has a V-shape in cross section and a small cross-sectional area. The combination of a small cross-sectional area and manufacture of ductile steel allows you to deform segments 3 in the cold state. The housing 4 has sealing ridges 7 made integral with the housing 4. The sealing ring combs 8 of the turbine rotor 9 are integral with the band of the working blades 10. Opposite each comb 8 there is a corresponding annular groove 2. The sealing segments 3 have a flat shape in longitudinal section before their installation (Figure 2). For installation, the sealing segment 3 is inserted into the groove 2 from the side of the longitudinal horizontal connector 11 of the turbine stator. Between the housing 4 and the groove 2 there is a minimum clearance 12, which allows mechanical impact on the housing 4 along the arrow B (Figure 3) to move the housing 4 along the groove 2. During such a cold plastic deformation, the radius of curvature of the housing 4 is greater than the radius of curvature of the groove by The "selected" gap 12. In this case, the buildings 4 of the honeycomb blocks due to the elasticity of the material of the buildings are fixed in the radial direction.

The work of the labyrinth over-seal is that when the turbine rotor 9 rotates, the scallops 8, which seal the gap along which the “parasitic” steam flows, can touch the fine-mesh cellular blocks 5 without emergency consequences and reduce the efficiency of the seal. This is due to the fact that the scallop 8 cuts a groove in the fine-meshed honeycomb block 5 without dulling its sharp edge. This is possible due to the fact that the honeycomb blocks are made of thin metal foil. Thus, small-cell honeycomb blocks allow you to automatically set the minimum possible radial clearances of the labyrinth over-seal.

The advantage of the proposed design of the labyrinth over-seal is that the mass of the workpiece of the housing of honeycomb blocks with a V-shaped cross-section has a small cross-sectional area due to the absence of the need to make a T-shaped or L-shaped lock on the housing. This leads to a decrease in the mass of the workpiece for the housing of the cellular blocks and, consequently, to a decrease in the manufacturing cost of the labyrinth over-seal. The manufacture of flat segments of the seals in longitudinal section, i.e. one standard size for all stages of a steam turbine, leads to: a) a reduction in the cost of manufacturing a set of seals for the entire turbine due to the unification of measuring and cutting tools; b) to reduce the cost and reduce the range of spare parts. In addition, if one track of the cellular blocks is damaged, only one row of seal segments is subject to replacement. This reduces the cost of repairs compared with the repair of segments on which two rows of cellular blocks are made.

Claims (1)

A labyrinth over-the-seal seal for a steam turbine, comprising sealing ring combs of the turbine rotor, sealing segments including small-honeycomb honeycomb soldered to the housing of honeycomb blocks between the sealing stator ridges made integrally with the housing of the honeycomb blocks, ring grooves of the turbine stator having a V-shape in the longitudinal section of the turbine, the shape and horizontal longitudinal connector, characterized in that the seal segments are made separately for each row of turbine rotor combs, cor the mustache of the honeycomb blocks is made of plastic alloy steel, in the cross section they are V-shaped, with dimensions allowing insertion of the casings of the honeycomb blocks into the V-groove of the turbine stator with a minimum clearance, and before installation they are flat in longitudinal section, which upon installation the housing of the cellular blocks, by pushing the housing of the cellular blocks from the horizontal connector along the V-shaped groove of the turbine stator, acquires a shape curved in the longitudinal section, moreover, due to the installation Difference radii of curvature of the groove and the turbine stator housings cell blocks housings cell units fixed in the radial direction by the elasticity of the material of cellular towers blocks.

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