The present invention relates to a guide vane of a gas turbine and a method for replacing a cover plate of a guide vane of a gas turbine.
Guide vanes are known to comprise blades that have one end with an outer platform connected to a guide vane carrier or gas turbine casing, and an opposite end provided with an inner platform facing the rotor.
Moreover, in order to withstand the high temperature of the hot gases flowing in the hot gases path, guide vanes (and in particular those closest to the combustion chamber) have an inner cooling circuit.
This inner cooling circuit comprises a path that makes a cooling fluid (typically compressed air) to circulate within the guide vanes and be ejected into the hot gases path through cooling holes provided over the guide vanes.
For manufacturing reasons (otherwise it would not be possible for example to realise the cooling circuit), the guide vanes have apertures at both the outer and inner platform; the inner platform is then closed by a cover plate.
Traditionally, the inner platform has a housing with L-shaped sides, such that the cover plate is inserted in the housing with the terminal portions of the L-shaped sides that withhold it; then the cover plate is also connected (usually brazed) to the platform.
Periodically the cover plates must be removed from the housing to be reconditioned; after the cover plates are removed, new or the same cover plates (after reconditioning) must be connected in the housing of the inner platform.
Nevertheless, removal of the cover plates is carried out by milling the L-shaped sides of the housing.
Thus, when the cover plates are re-inserted into the housing, they are only brazed thereto, but there is no mechanical withholding due to the L-shaped sides of the housing.
The brazing connection is not as reliable as the mechanical connection and in some cases could break.
The technical aim of the present invention is therefore to provide a guide vane of a gas turbine and method for replacing a cover plate of a guide vane of a gas turbine by which the said problems of the known art are eliminated.
Within the scope of this technical aim, an object of the invention is to provide a guide vane and a method with which the connection between the inner platform and the cover plate even after the reconditioning operations is very reliable.
Another object of the invention is to provide a method which enable the cover plate of an inner platform of a guide vane be replaced without substantially impairing the mechanical withholding of the cover plate into the housing.
The technical aim, together with these and further objects, are attained according to the invention by providing a guide vane of a gas turbine and method for replacing a cover plate of a guide vane of a gas turbine in accordance with the accompanying claims.
Further characteristics and advantages of the invention will be more apparent from the description of a preferred but non-exclusive embodiment of the guide vane and method according to the invention, illustrated by way of non-limiting example in the accompanying drawings, in which:
With reference to the figures, these show a guide vane of a gas turbine generally indicated by the reference 1.
The guide vane 1 comprises a blade 2 having an outer platform 3 connected to a guide vane carrier or gas turbine casing 4.
At the opposite end, the guide vane 2 has an inner platform 5 that carries an impingement plate 6 and a cover plate 7.
The cover plate 7 is connected to a honeycomb 9 and a seal 10 that faces a rotor 11.
The inner platform 5 has a dovetail housing 13 to which the cover plate 7 is connected.
In particular the dovetail housing 13 has sides tilted by an angle A being 50-70° with respect to an axis 14 parallel to the gas turbine axis 15, preferably 56-64° and more preferably about 60°.
Moreover, preferably the guide vane of the invention is the first or second guide vane after a combustion chamber of the gas turbine.
The present invention also refers to a method for replacing a cover plate of a guide vane of a gas turbine.
In particular the method is implemented with a guide vane 1 having the structure above described with the inner platform 5 that has a dovetail housing 13 for holding the cover plate 7.
The method consists in separating the cover plate 7 from the inner platform 5 by cutting (typically by milling) along the profile of the dovetail housing 13.
In this respect,
After a cut 16 at each end of the housing 13 is made (and thus the cover plate 7 is separated from the inner platform 5), the cover plate is made to slide out of the housing 13.
Afterwards a new or refurbished cover plate 7 (the same or a different refurbished cover plate 7) is inserted into the housing 13; also in this case, the new or refurbished cover plate is made to slide into the housing 13.
Typically, after the new or refurbished cover plate 7 has been inserted in the housing 13, it is brazed to the inner platform 5.
For example this could be achieved by providing a brazing material 17 between the cover plate 7 and the inner platform 5 (along the sides of the housing 13) and when the cover plate 7 is inside of the housing 13, by heating the guide vane 1 in an oven, such that the brazing material melts (naturally the melting temperature of the brazing material must be greater than the working temperatures of the guide vane).
The cut 16 is made in the platform 5 (as shown in
The guide vane and the method conceived in this manner are susceptible to numerous modifications and variants, all falling within the scope of the inventive concept; moreover all details can be replaced by technically equivalent elements.
In practice the materials used and the dimensions can be chosen at will according to requirements and to the state of the art.
Number | Date | Country | Kind |
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09164551 | Jul 2009 | EP | regional |
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5022818 | Scalzo | Jun 1991 | A |
6773229 | Itzel et al. | Aug 2004 | B1 |
20090304503 | Bergander et al. | Dec 2009 | A1 |
20100098537 | Hamana | Apr 2010 | A1 |
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0 384 166 | Aug 1990 | EP |
1 843 009 | Oct 2007 | EP |
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Entry |
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European Search Report for EP 09164551.5 dated Jan. 26, 2010. |
Number | Date | Country | |
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20110014054 A1 | Jan 2011 | US |