EP1548232A1 - Turbomachine comprising a stator vane support and method of mounting stator vanes to the stator vane support - Google Patents

Abstract

The gas turbine, and especially compressor, has guide vane roots (27) retained on a ring-form guide vane carrier (18), with fastening means provided between the guide vane carrier and guide vane roots and the vane roots pressed into undercuts (24) in circumferential slots (21) in the vane carriers. The fastening means have at least one slot-form recess (26) in the base of the circumferential slot extending along its periphery, and in which fit ring-form pressed segments (30) which under a pretensioning press against the guide vane roots. Independent claims are also included for the following: (A) a gas turbine with a compressor with guide vane roots retained on a ring-form guide vane carrier; (B) a ring-form guide vane carrier for the fastening of guide vanes for especially a gas turbine; and (C) a method for the fitting of guide vanes on a ring-form guide vane carrier of a gas turbine compressor.

Description

The invention relates to a turbomachine, in particular a compressor, according to the preamble of claim 1, a Gas turbine according to the preamble of claim 11, a annular guide vane carrier for a turbomachine for fixing vanes according to the preamble of Claim 12 and a method for mounting vanes on an annular guide vane carrier of a turbomachine according to the preamble of claim 13.

Gas turbines coupled to generators become converters used by fossil energy in electrical energy. A Gas turbine points to along its rotor shaft in the flow direction the gases a compressor, a combustion chamber and a Turbine unit on. During operation of the gas turbine sucks the Compressor ambient air and compresses them. Subsequently the compressor air is mixed with a fuel and the combustion chamber supplied. There, the mixture burns too a hot gaseous working fluid and flows into the Buckets provided turbine unit. The on the housing of Turbine unit attached vanes direct the working fluid on the rotor blades attached to the rotor so that these put the rotor in a rotary motion. The so recorded Rotational energy of the rotor is through the rotor coupled generator converted into electrical energy. Furthermore, it is used to drive the compressor.

From DE 44 36 731 is a compressor with a housing executed guide vane carrier for holding freestanding Known guide vanes. On the inside of the vane carrier a circumferential groove is provided with undercuts. The case is divided into two halves, so when open Housing the vanes for mounting in the split Groove used and moved along this can. It is also described that between the vanes provided intermediate pieces by inserted documents be fixed.

The circumferential groove and the complementary Leitschaufelfüße the vanes are doing with radial play used in the circumferential groove.

However, the radial clearance of the freestanding vanes can lead to flow losses in the air to be compressed.

The object of the invention is to provide a turbomachine, in particular a compressor, with reduced flow losses specify. Furthermore, it is the object of the invention specify a gas turbine and a vane carrier. Another object of the invention is a method of mounting of vanes on an annular vane support a turbomachine.

The solution of the task directed at the turbomachine provides that the fastening means at least one in the groove bottom the circumferential groove extending along its circumference groove-shaped Recess and several arranged therein annular Press segments include, which under bias against the Press vane feet.

The invention is based on the knowledge that everyone Guide vane or each Leitschaufelfuß at least one press segment assigned. To accommodate a press segment is provided in the groove bottom of the circumferential groove a groove-shaped recess. When assembled, the pressing segments create one Preload, which the Leitschaufelfuß to the undercuts the circumferential groove presses, so that the vane one firm and secure fit without play. Furthermore, will achieved by the press segments that no costly manual fitting required during assembly of the guide vanes is. Comparatively large tolerances of the circumferential groove and the Guide vanes are cost-reducing possible.

Particularly advantageous is the development in the groove bottom two groove-shaped recesses are provided, in which each press segments are located. Thus, a vane or a Leitschaufelfuß of a pair of press segments pressed against the undercuts of the circumferential groove. With only one press segment could the Leitschaufelfuß to one Contact surface on which the pressing segment bears against the guide blade root, tilt, or the guide blade foot unevenly to the press both undercuts.

When the pressing segments arranged in a recess in Circumferentially adjacent form a pressing segment ring, so all press segments can be the same design and for assembly simply one after the other are pushed together. This reduces the manufacturing and assembly costs.

Easy assembly of a vane can be achieved if each pressing segment in the circumferential direction at least two sections includes, wherein one of the sections in the radial direction has an excess to form the bias voltage. at The assembly is the Leitschaufelfuß already in the Recess provided press segment in an operating position postponed. Because the vane or its platform in the circumferential direction can be wider than the vane foot is It makes sense, the excess only in the section of the press segment to provide, in the operating position the Leitschaufelfuß contacted. Because the other sections only during the move process come into contact with the vane foot, an oversize provided here would be the initial move prevent. Furthermore serve the one or the other Sections of the press segment in the circumferential direction as a stop surface for subsequently installed press segments, the then be in the correct operating position.

Conveniently, the recess has an inner support wall as an abutment on which the press segment is supported. The oversize is slightly larger than the distance from the vane root to the inner support wall.

A shift in the circumferential direction of the mounted vanes is prevented if at least in the vane ring a fuse element a vane against displacement secures in the circumferential direction.

In an advantageous development are between two adjacent Guide vanes of a vane ring Platform elements intended. The vane foot can be more compact and be made narrower, so that manufacturing processes like Forging or milling with little use of material per blank possible are. The platform element can be additionally made a cheaper material, e.g. ST37 as the vane.

For disassembly of the vanes, it makes sense, a recess to provide on the platform elements. By means of a Tool can then the Leitschaufelfuß opposite the press segment be moved until both are solved.

Preferably, the turbomachine is a compressor.

The task directed to the gas turbine is by the Features of claim 11 and on the vane carrier directed object solved by the features of claim 12.

The task directed to the method is characterized by the features of claim 13 solved.

The advantages of the turbomachine apply mutatis mutandis also for the gas turbine, the vane carrier and for the Method.

Fig. 1

einen Schnitt durch einen Leitschaufelträger mit einer Leitschaufel,

Fig. 2

einen Schnitt durch einen Leitschaufelträger gemäß II-II,

Fig. 3

einen Schnitt durch einen Leitschaufelträger gemäß Schnitt III-III,

Fig. 4

ein Presssegment und

Fig. 5

einen Längsteilschnitt durch eine Gasturbine.

The invention will be explained with reference to a drawing. Showing:

Fig. 1

a section through a vane carrier with a vane,

Fig. 2

a section through a vane support according to II-II,

Fig. 3

a section through a vane carrier according to section III-III,

Fig. 4

a press segment and

Fig. 5

a longitudinal section through a gas turbine.

5 shows a gas turbine 1 in a longitudinal partial section. It has a rotatably mounted about an axis of rotation 2 inside Rotor 3, which also referred to as turbine rotor or rotor shaft becomes. Along the rotor 3 follow one another Intake housing 4, a compressor 5, a toroidal annular combustion chamber 6 with a plurality of coaxially arranged burners 7, a turbine 8 and the exhaust housing 9.

In the compressor 5, an annular compressor passage 10 is provided, in the direction of the annular combustion chamber 6 in cross section rejuvenated. At the combustion chamber side outlet of the compressor 5, a diffuser 11 is arranged, which communicates with the annular combustion chamber 6 is in fluid communication. The annular combustion chamber 6 forms a combustion chamber 12 for a mixture of a Fuel and compressed air. An arranged in the turbine 8 Hot gas duct 13 is connected to the combustion chamber 12 in Flow connection, wherein the hot gas duct 13, the exhaust housing 9 is subordinate.

In the compressor duct 10 and in the hot gas duct 13 are each alternating Shovel rings arranged. It follows one from vanes 14 formed Leitschaufelring 15 each one out Blades 16 formed blade ring 17. The fixed Guide vanes 14 are in this case with a guide vane carrier 18 connected, whereas where the blades 16 on the rotor. 3 are connected by a disc 19.

During operation of the gas turbine 1 is from the compressor. 5 sucked air through the intake housing 4 and in the compressor duct 10 compacted. One at the burner end of the compressor 5 provided air L is through the diffuser 11th led to the burners 7 and mixed there with a fuel. The mixture is then made to form a working fluid 20 burned in the combustion chamber 12. From there flows the working fluid 20 in the hot gas duct 13. At the in the Turbine 8 arranged vanes 14 and on the blades 16 the working fluid 20 relaxes momentum, so that the rotor 3 is driven and with it one on it coupled machine (not shown).

Fig. 1 shows a section through a vane carrier 18 and a freestanding vane 14. The annular Guide vane 18 has at its the compressor passage 10th facing wall on an inner circumferential groove 21. On whose Side walls 22 are each formed by a projection 23 Undercuts 24 provided. In the groove base 25 are further arranged two groove-shaped recesses 26, the may also be formed as further circumferential grooves. The recesses 26 protrude with a radial depth in the vane support 18 in, which is larger than that Width B of its opening in the groove base 25.

The vane 14 extends with its vane root 27 in the circumferential groove 21 inside. Here is the Leitschaufelfuß 27 complementary to the undercuts 24 of the circumferential groove 21, that is T-shaped, formed, so that the guide vane 14th is held in the circumferential groove 21. At the Leitschaufelfuß 27 is a compressor passage 10 radially outwardly limiting Platform 29 provided from which the freestanding Airfoil profile 28 extends into the compressor passage 10 inside.

In the recesses 26 each pressing segments 30 are arranged, the Leitschaufelfuß 27 with a bias to the Projections 23 of the circumferential groove 21 presses.

Fig. 2 shows the vane support 18 and the vane 14 according to the section II-II of Fig. 1. Between two adjacent Vanes 14 of a vane ring 15 is a Platform element 32 is provided, which the compressor duct 10 limited radially outward. Here is the platform element 32 analogous to a Leitschaufelfußes 27 in the circumferential groove 21st hooked.

Radially viewed from outside to inside is the pressing segment 30 with a support surface 40 on the support wall 31 at. The Pressing segment 30 points into a first section 34 (FIG. 4) his Leitschaufelfuß 27 side facing a contact surface 33, which rests on the guide blade foot 27 and this pressed against the projections 23. In a second section 35 is a surface 36 which springs back against the contact surface 33, facing the platform element 32. In the operating position is the surface 36 of the back of a to the vane 14 adjacent the platform member 32 without contact or with only comparatively low bias towards.

Fig. 3 shows a section through Fig. 1 according to the sectional plane III-III. Between two vanes 14 is the platform element 32 arranged. The circumferential groove 21 extends in the circumferential direction U, wherein on the side walls 22, the undercuts 24 are shown. In the groove base 25 are two recesses 26 with Abstützwänden 31. In the in Fig. 3 left recess 26 is a press segment 30 is arranged, whose surface 36 is shown. The platform element 32 has at one of the vane 14 facing end side a recess 37, in which a tool with a Lever is introduced to the vane 14 for disassembly from the contact surface 33 in the direction of the surface 36 to push and thus solve them.

Thus, the vanes 14 and the platform elements 32 themselves due to tolerances and transient thermal expansions in Can not move the circumferential direction U, for example, each third platform element 32 by a securing element 38, which in a further recess 39 of the flow away Side of the vane 14 is introduced, fixed become.

The pressing segments 30 and securing elements 38 are located between vane support 18 and the guide vanes 14 and the platform elements 32 so that they do not enter the compressor duct 10 can get into it.

4 shows the pressing segment 30 with the first section 34 and the second section 35. In the first section 34, the contact surface 33 is spaced from the opposing supporting surface 40 at a distance B ₁ . In the second section 35, the surface 36 is spaced from the opposite Abstützflache 40 at a further distance B ₂ . The distance B ₁ is greater than the distance B ₂ .

The distance B ₁ corresponds to a distance S (Figure 1), which is measured between the support wall 31 and the Leitschaufelfuß, plus an oversize of about 0.3 mm. By contrast, the section 35 without oversize has a distance B ₂ which can correspond approximately to the distance S.

Because the distance B ₂ is greater than the distance S by about 0.3 mm, in the operating position, a bias generated by the pressing segment 30 acts on the guide blade root 27, which presses and fixes it to the undercut 24.

For mounting a vane 14 on the vane carrier 18 is first in each groove-shaped recess 26 a Press segment 30 introduced. Either then can the vane 14 by radially inwardly moving into the circumferential groove 21st be introduced with subsequent twisting, so that the on the guide blade foot 27 provided T-shaped projections the Behind undercut 24. Or they are in the circumferential groove 21 inserted, if this one suitable Has opening, such as the parting line of the housing. Subsequently the vane 14 is in the direction of the free Press segments 30 shifted until the Leitschaufelfuß 27 the Surface 36 of the pressing segments 30 covered and on the protruding Contact surface 33 abuts. With a tool and with increased effort now can the vane 14 via the contact surface 33 are pushed until the Leitschaufelfuß 27, the contact surface 33 completely covered. It will a part of the excess of the Leitschaufelfuß 27 abraded. The in the press segment 30 prevailing bias then presses the Guide blade foot 27 from the outside against the undercut 24 the circumferential groove 21. Thus, a safe and predetermined Location of the vane 14 given.

A construction without platform elements 32 is also conceivable, when the platforms 29 of the guide vanes 14 in the circumferential direction U are made so wide that they are the one of the Platform elements 32 filled space bridged. The pressing segments 30 remain unchanged.

By pressing segments 30 is achieved that no costly manual fitting work during assembly of the guide vanes 14 is necessary. Further, the circumferential groove 21 and are the guide vane feet 27 with comparatively large tolerances produced. The platform elements 32 as well as the pressing segments 30 can be made from the cost-effective material ST37 be.

The application of the invention to steam turbines would also be conceivable.

Claims (13)

Turbomachine, in particular compressor (5),
which has radially extending guide vanes (14, 16) with outer guide blade feet (27) that form a guide blade ring (15) at the same angular distance relative to a rotor (3),
said vane feet (27) being retained on an annular vane support (18) having an inner peripheral groove (21) with undercuts (24) which engage behind said vane feet (27), and
fastening means provided between the vane support (18) and the vane feet (27) which press the vane feet (27) against the undercuts (24);
characterized in that the fastening means comprise at least one in the groove bottom (25) of the circumferential groove (21) along its circumference groove-shaped recess (26) and a plurality of annular pressing segments (30) arranged therein, which under bias (23) against the guide blade feet (27 ) to press. Turbomachine according to claim 1,
characterized in that in the groove base (25) has two groove-shaped recesses (26) are provided, in each of which pressing segments (30) are located. Turbomachine according to claim 1 or 2,
characterized in that the pressing segments of a recess (26) in the circumferential direction (U) contiguous to form a pressing segment ring. Turbomachine according to one of the preceding claims,
characterized in that each press segment (30) in the circumferential direction (U) comprises at least two sections, wherein at least one of the sections in the radial direction has an excess to form the bias voltage (23). Turbomachine according to claim 4,
characterized in that the groove-shaped recess (26) has an inner support wall (31) as an abutment on which the pressing segment (90) is supported. Turbomachine according to claim 4 or 5,
characterized in that the portion provided with the oversize has a width (B ₁ ) which is greater than the distance from the guide blade root (27) to the inner support wall 31. Turbomachine according to one of the preceding claims,
characterized in that the guide vane ring (15) with at least one securing element (38) is secured against displacement in the circumferential direction (U). Turbomachine according to one of the preceding claims,
characterized in that in each case between two adjacent guide vanes (14, 16) of a guide vane ring (15) platform elements (32) are provided. Turbomachine according to one of the preceding claims,
characterized in that the guide blade feet (27) have a recess (37, 38) for the removal. Turbomachine according to one of the preceding claims,
characterized in that it is designed as a compressor (5). Gas Turbine (1)
a compressor (5) having radially equidistant vanes (14, 16) with outer vanes feet (27) equidistant relative to a rotor (3) forming a vane ring (15),
said vane feet (27) being supported on an annular vane support (18) having an inner circumferential groove (21) with undercuts (24) engaged behind said vane feet (27) and between said vane support (18) and said Guide vane feet (27) provided fastening means which press the vane feet (27) to the undercuts (24),
characterized in that the fastening means at least one
in the groove bottom (25) of the circumferential groove (21) along its circumference extending groove-shaped recess (26) and a plurality of annular compression segments (30) arranged therein, which under bias (23) press against the Leitschaufelfuß (27). Ring-shaped guide blade carrier (18) for fastening guide vanes (14, 16) for a turbomachine, in particular a gas turbine (1),
the turbomachine having radially equidistant vanes (14, 16) with radially outer vanes (27) with respect to a rotor (3), forming a vane ring (15);
with an inner peripheral groove (21) in which the vane feet (27) are held by the guide vane feet (27) engage behind undercuts (24) of the circumferential groove (21),
wherein fastener means are provided between vane supports (18) and vane feet (27) which press the vane legs (27) against the undercuts (24),
characterized in that the fastening means at least one
in the groove bottom (25) of the circumferential groove (21) along its circumference extending groove-shaped recess (26) and a plurality of annular compression segments (30) arranged therein, which under bias (23) press against the Leitschaufelfuß (27). Method for mounting guide vanes (14, 16, 16) on an annular guide rail carrier (18) of a turbomachine by fastening means,
in which the guide blade carrier (18) has an inner peripheral groove (21) with undercuts (24),
characterized in that the fastening means at least one
in the groove base (25) of the circumferential groove (21) along its circumference extending groove-shaped recess (26) and a plurality of annular pressing segments (30), and
in that, for mounting each vane (14, 16) on the vane support (18), the following operations are performed: a) a press segment (30) is introduced into a recess (26) so that its oversized portion faces an already mounted guide blade (14, 16), b) the press segment is then displaced to the assembled vane (14, 16) until it abuts the press segment of the adjacent vane (14, 16), c) then a vane (14, 16) is inserted into the circumferential groove (21) and displaced in the direction of the press segment (30) until its vane root (27) bears against the oversized portion, d) under force, the vane root (27) is slipped over the oversized portion until the vane root (27) abuts the already mounted vane (14, 16) so that it rests under a bias (23) produced by the press segment (30) ) is pressed against the undercut (24).

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