EP3236009A1 - Stator vane having a junction tubing - Google Patents

Abstract

Guide vane (1) for a turbomachine having an outer platform (2) in the intended assembled state, an airfoil (3) protruding from the outer platform, extending in a longitudinal direction and defining in its interior a cavity (4), an inner platform (5) disposed opposite to the outer platform and connected to the airfoil, and a connecting tube (6) penetrating the cavity of the airfoil in the longitudinal direction, having its first free end inserted into a through hole formed in the inner platform and with the inner one Platform is integrally connected and the second free end in a formed on the outer platform Kühlfluideinlassöffnung (7) spaced from the edge thereof and outwardly protrudes from the outer platform, wherein attached to the outer platform for guiding the connecting tube at least one guide means (9) is there s is designed and arranged such that it leads the connecting tube in the case of a thermal change in length in the longitudinal direction.

Description

The invention relates to a guide vane for a turbomachine, in particular a gas turbine, with an outer platform in the intended mounted state, an airfoil protruding from the outer platform, which extends in a longitudinal direction and defines a cavity in its interior, an inner platform opposite to the outer platform is disposed and connected to the airfoil, and a connecting tube penetrating the cavity of the airfoil in the longitudinal direction, the first free end is inserted into a passage opening formed in the inner platform and materially connected to the inner platform and the second free end in a cooling fluid inlet opening formed on the outer platform is spaced from its edge and projects outwardly from the outer platform.

Turbomachines such as gas turbines are known in the art in various configurations and serve to convert thermal energy and flow energy of a working fluid, in particular a hot gas into rotational energy. They include a housing in which a flow channel extends in an axial direction. In the flow passage, a plurality of turbine stages are arranged one behind the other in the axial direction and spaced from each other.

Each turbine stage includes a plurality of vanes which form a vane ring connected to the housing and favorably influence the flow direction of the working fluid. Such a vane usually comprises a platform which is arranged radially outwards in the intended mounted state of the vane. Furthermore, the vane includes an airfoil, which from the outer Platform protrudes and extends in a longitudinal direction. Furthermore, the vane has an inner platform connected to the airfoil opposite the outer platform. The vane ring is closed inwardly by a retaining ring in which the inner platforms of the vanes are held.

In addition, each turbine stage includes a plurality of blades that form a blade ring connected to a rotor centrally supported and passing through the housing in the axial direction. In the rotor further circumferential grooves are formed, in which the retaining rings of the guide vane rings are arranged.

During operation of the turbomachine, the flow channel of the turbomachine is flowed through by a working fluid. The working fluid flowing through the flow channel is deflected by the guide vanes in such a way that it optimally flows against the rotor blades arranged behind it and acts on it with a force. The torque imparted by the vanes causes the rotor to rotate. The rotational energy of the rotor can be converted for example by means of a generator into electrical energy.

The higher the inlet temperature of the hot gas into the gas turbine, the higher the thermodynamic efficiency of gas turbines. The height of the inlet temperature, however, limits set, inter alia, by the thermal capacity of the arranged in the flow channel components. Accordingly, it is an object to provide components that have sufficient mechanical stability for the operation of the gas turbine even at very high temperatures of the hot gas.

One way to increase the thermal capacity, for example, a guide vane, is to dissipate heat from the vane by means of a cooling fluid. This will be provided in its interior a cavity which is flowed through by the cooling fluid.

Also, the retaining rings on the inner sides of the vane rings are strongly heated by hot gas flowing into the circumferential groove. A proven means for cooling a retaining ring is to form the retaining ring with a U-shaped cross-section, whereby in the retaining ring a circumferential Kühlfluidnut is created. This cooling fluid groove is supplied with cooling fluid which flows from the guide vanes through an outlet opening provided in the inner platform into the cooling fluid groove of the retaining ring. However, this cooling fluid in the airfoil of the vane has already absorbed heat, which reduces the cooling capacity available to the retaining ring.

A higher cooling capacity of the cooling fluid in the retaining ring can be achieved by a special jumper tube, which penetrates the cavity of the blade of the guide blade in the longitudinal direction and through which the cooling fluid flows in a direct way and largely unheated in the Kühlfluidnut the retaining ring.

A first free end of the connecting tube is inserted into a passage opening formed in the inner platform and connected to the inner platform in a material-locking manner. The second free end of the connecting tube is spaced apart from the edge thereof in a cooling fluid inlet opening formed on the outer platform and projects outwardly from the outer platform.

For positioning, connecting tubes can have positioning means in their second free end region, which extend in opposite directions starting from the connecting tube and are supported on the pressure-side and suction-side edges of the cooling fluid inlet opening. However, it has been found that these positioning means can be insufficient to with regard to strong operational vibrations the turbomachine and thermal changes in length of the connecting pipe to ensure a sufficiently reliable positioning of the connecting pipe in the cooling fluid inlet opening.

Based on this prior art, it is an object of the present invention to provide a guide vane of the type mentioned, which allows a simple and reliable positioning of the connecting tube in the cooling fluid inlet opening cost.

This object is achieved by a guide vane of the type mentioned, in which at least one guide means is attached to the outer platform for guiding the connecting tube, that is designed and arranged such that it leads the connecting tube in the event of a thermal change in length in the longitudinal direction.

The invention is based on the consideration to provide on the outer platform guide means for guiding the connecting tube, which allow movement of the connecting tube due to thermal change in length, without endangering its positioning in the cooling fluid inlet opening. In other words, unlike positioning means provided on the connection pipe, the guide means provided on the outer platform can restrict the degrees of freedom of movement of the connection pipe to the longitudinal direction of the guide blade.

Preferably, the at least one guide means extends from the outer platform in the direction of the connecting tube and surrounds a portion of the connecting tube at least partially, in particular completely, leaving a game. Such a guide means holds the connecting tube with respect to the outer platform, in particular with respect to the distance from the edge of the cooling fluid inlet opening in a predetermined position. By the at least partially lateral gripping around the connecting pipe, wherein This is left a game, the connecting tube retains the freedom to move in the case of a thermal change in length in the throw in the longitudinal direction.

According to one embodiment, the at least one guide means has a guide opening. This guide opening is penetrated by the connecting pipe or a portion of the connecting pipe, whereby the connecting pipe is held securely transversely to the longitudinal direction.

According to a variant of the guide vane according to the invention, at least one guide projection extending in the longitudinal direction is formed on the second free end of the connecting tube corresponding to the guide opening of the at least one guide means, which engages through the guide opening of the at least one guide means. In this way, the guide opening may have a smaller cross-sectional area than the connecting tube, which can also reduce the dimensions of the guide means. The smaller the dimensions of the guide means, the less the cooling fluid is prevented from entering the cooling fluid inlet opening.

Preferably, the at least one guide projection is formed like a pin. In this case, the cross section of the guide projection perpendicular to the longitudinal direction may be, for example, round, square or rectangular.

Particularly preferably, two guide means are provided, which extend from opposite regions of the outer platform in the direction of the connecting tube and in particular face each other. By means of two guide means arranged in this way, a rotational movement of the connecting tube about its longitudinal axis can be counteracted, which further improves the positioning effect of the guide means.

According to a further development, the two guide means are formed as sheets, which cohesively with the outer platform in particular by welding or soldering. Welded or soldered plates represent particularly inexpensive and easy to produce guide means.

Accordingly, two guide projections can be arranged opposite one another and spaced from one another on the connecting tube and can be encompassed by a respective guide means.

Preferably, the distance between the two guide projections in the range of 5 and 10 and is preferably 7. Such distances correspond to the diameters of conventional connecting pipes.

In a guide vane according to the invention, the two guide means may be provided on the pressure side and on the suction side of the connection pipe. This arrangement allows particularly short guide means, which is associated with an improved vibration behavior of the guide means.

In known manner, the blade can have a peripheral wall. In this case, the connecting tube is arranged in the cavity spaced from the circumferential wall. In this way, a thermal bridge between the connecting pipe and the hot peripheral wall of the airfoil is avoided and the cooling fluid flowing around the connecting pipe additionally provides for heat insulation.

In a manner known per se, the cohesive connection between the connecting tube and the inner platform can be produced by welding or soldering.

The connection between the connecting tube and the inner platform is preferably fluid-tight. This prevents heated cooling fluid from escaping from the cavity into the retaining ring of the vane ring.

Figur 1

eine teilweise Perspektivansicht einer Leitschaufel gemäß einer Ausführungsform der vorliegenden Erfindung;

Figur 2

eine Draufsicht der in Figur 1 dargestellten Leitschaufel von außen;

Figur 3

eine teilweise Perspektivansicht eines Verbindungsrohres der in Figur 1 dargestellten Leitschaufel;

Figur 4

eine teilweise Querschnittsansicht einer Strömungsmaschine mit Leitschaufeln gemäß der in Figur 1 dargestellten Ausführungsform; und

Figur 5

eine vergrößerte Detailansicht des in Figur 4 mit dem Bezugszeichen V bezeichneten Ausschnitts.

Further features and advantages of the present invention will become apparent from a vane according to an embodiment of the present invention with reference to the accompanying drawings. That's it

FIG. 1

a partial perspective view of a vane according to an embodiment of the present invention;

FIG. 2

a top view of the FIG. 1 illustrated vane from the outside;

FIG. 3

a partial perspective view of a connecting tube of in FIG. 1 illustrated vane;

FIG. 4

a partial cross-sectional view of a turbomachine with vanes according to the in FIG. 1 illustrated embodiment; and

FIG. 5

an enlarged detail view of the in FIG. 4 with the reference numeral V designated detail.

The FIGS. 1 to 3 show a guide vane 1 for a turbomachine, not shown, in particular a gas turbine according to an embodiment of the present invention. The vane 1 has an outer flat 2, which is arranged in the intended mounted state of the vane 1 radially outward. Further, the vane 1 includes an airfoil 3 extending in a longitudinal direction L and projecting from the outer platform 2. In the interior of the airfoil 3, a cavity 4 is defined. Furthermore, the guide blade 1 has an inner platform 5, which is arranged opposite to the outer platform 2 and connected to the blade 3.

In addition, the guide vane 1 comprises a connecting tube 6, which passes through the cavity 4 of the airfoil 3 in the longitudinal direction L. A first free end of the connecting tube 6 is connected to the inner platform 5 by welding material fit and fluid-tight. The second free end of the connecting tube 6 is arranged in a cooling fluid inlet opening 7 formed on the outer platform 2 at a distance from its edge 8 and protrudes outwards from the outer platform 2.

To guide the connecting tube 6, two guide means 9 are fastened to the outer platform 2, which extend from opposite regions of the outer platform 2 in the direction of the connecting tube 6 and face each other. The guide means 9 are formed as sheets, which are arranged on the pressure side and the suction side of the airfoil 3 and are connected to the outer platform 2 cohesively by welding.

Each guide means 9 has a slot-shaped guide opening 10 to completely surround a portion 11 of the connecting tube 6 while leaving a game. A partial encompassing can alternatively also suffice.

The two sections 11 are presently provided as in the longitudinal direction L extending guide projections 11 which are formed on the second free end of the connecting tube 6 corresponding to the guide openings 10 and the guide openings 10 of the two guide means 9 pass through. The guide projections 11 are formed like a pin with rectangular cross-section and arranged opposite each other and spaced from each other on the connecting pipe 6. The distance between the two guide projections 11 is about 7.

The airfoil 3 has a peripheral wall 12, to which the connecting pipe 6 is arranged in the cavity 4 at a distance.

The FIGS. 4 and 5 schematically show a portion of a turbomachine with guide vanes according to the invention 1. The Turbomachine comprises a housing 13 in which in a axial direction A, a flow channel 14 extends. Furthermore, the turbomachine comprises a plurality of turbine stages 15, each comprising a vane ring 16 and a blade ring 17, wherein the turbine stages 15 are arranged in the flow channel 14 in the axial direction A one behind the other and spaced from each other. The vane rings 15 are each formed from a plurality of guide vanes 1 according to the invention and each comprise a U-shaped retaining ring 18 with a circumferential Kühlfluidnut 19, in which the inner platforms 5 of the vanes 1 are held.

During operation of the turbomachine, the flow channel 14 is flowed through by an expanding hot gas. In order to reduce the thermal load on the vane rings 16, the guide vanes 1 of the vane rings 15 are simultaneously flowed through by a cooling fluid and cooled. A portion of the cooling fluid flows to cool the airfoil 3 through the cooling fluid inlet opening 7 in the cavity 4, while another part of the cooling fluid for cooling the retaining rim 18 through the connecting pipe 6 directly and without heating contact with the peripheral wall 12 of the airfoil 3 in the retaining ring 18th flows.

An advantage of the guide vane 1 according to the invention is that the connecting tube 6 can move in the longitudinal direction L in the guide openings 10 of the guide means 9 in the case of a thermally induced change in length, without leaving its position in the cooling fluid inlet opening 7 with respect to its edge 8. Beyond that freedom of movement of the connecting tube 6 relative to the outer platform 2 are avoided by the attached to the outer platform 2 guide means 9.

Although the invention has been illustrated and described in detail by the preferred embodiment, the invention is not limited by the disclosed examples and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

Claims (14)

Guide vane (1) for a turbomachine, in particular a gas turbine, with an outer platform (2) in the intended mounted state, an airfoil (3) projecting from the outer platform (2) and extending in a longitudinal direction (L) and in its interior a cavity (4) defined, an inner platform (5), which is arranged opposite to the outer platform (2) and connected to the blade (3), and a cavity (4) of the blade (3) in the longitudinal direction ( L) passing through the connecting tube (6), whose first free end is inserted into a through hole formed in the inner platform (5) and materially connected to the inner platform (5) and the second free end formed by a on the outer platform (2) Cooling fluid inlet opening (7) spaced from the edge (8) is arranged and projects outwardly from the outer platform (2),
characterized in that
at least one guide means (9) is fixed to the outer platform (2) for guiding the connecting pipe (6), which is designed and arranged such that it guides the connecting pipe (6) in the case of a thermal change in length in the longitudinal direction (L). Guide vane according to claim 1,
characterized in that
the at least one guide means (9), starting from the outer platform (2), extends in the direction of the connecting tube (6) and surrounds a section (11) of the connecting tube (6) at least partially, in particular completely, leaving a clearance. Guide vane according to one of the preceding claims,
characterized in that
the at least one guide means (9) has a guide opening (10). Guide vane according to claim 3,
characterized in that
at least one guide projection (11) extending in the longitudinal direction (L) is formed at the second free end of the connecting tube (6) corresponding to the guide opening (10) of the at least one guide means (9), the guide opening (10) of the at least one Passes through the guide means (9). Guide vane according to claim 4,
characterized in that
the at least one guide projection (11) is pin-shaped. Guide vane according to one of the preceding claims,
characterized in that
two guide means (9) are provided, which extend from opposite regions of the outer platform (2) in the direction of the connecting tube (6) and in particular face each other. Guide vane according to claim 6,
characterized in that
the two guide means (9) are formed as sheets, which are materially connected to the outer platform (2), in particular by welding or soldering. Guide vane according to one of claims 6 or 7,
characterized in that
on the connecting tube (6) two guide projections (11) are arranged opposite each other and spaced from each other and by a respective guide means (9) are embraced. Guide vane according to claim 8,
characterized in that
the distance between the two guide projections (11) is in the range of 5 and 10 and is preferably 7. Guide vane according to one of claims 8 or 9,
characterized in that
the two guide means (9) on the pressure side and on the suction side of the connecting tube (6) are provided. Guide vane according to one of the preceding claims,
characterized in that
the airfoil (3) has a circumferential wall (12). Guide vane according to claim 11,
characterized in that
the connecting tube (6) in the cavity (4) spaced from the peripheral wall (12) is arranged. Guide vane according to one of the preceding claims,
characterized in that
the cohesive connection between the connecting tube (6) and the inner platform (5) is made by welding or soldering. Guide vane according to one of the preceding claims,
characterized in that
the connection between the connecting tube (6) and the inner platform (5) is fluid-tight.

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