DE102010005421B4 - Device and method for cleaning a front seal of a jet engine - Google Patents

Abstract

Device for cleaning a front end seal (5) of a jet engine having fluid channels (6), the device having at least one nozzle tip (11) designed to be pushed through a fluid channel (6) and an outlet opening (12) at the nozzle tip (11) is arranged for cleaning medium, which is formed for the escape of cleaning medium with a radial direction component, characterized in that it additionally comprises a ring seal (9) for the fluid channels (6) of the end seal (5).

Description

The invention relates to a device for cleaning an axially in the axial direction fluid channels having front seal of a jet engine. The device has at least one nozzle tip designed to be pushed through a fluid channel. At the nozzle tip, an outlet opening for cleaning medium is arranged, which is designed to allow the release of cleaning medium with a radial direction component.

In gas turbines such as jet engines of aircraft rotor and stator components or possibly different rotating components are sealed against each other by means of so-called end seals. The gap to be sealed is closed either with a front seal designed as a contact seal (for example brush or leaf seal) or a complex leak path is created which reduces the flow through the gap (labyrinth seal).

An end seal of the type mentioned is, for example DE 10 2007 027 364 A1 known. Devices and methods for cleaning jet engines are also from the writings EP 1 993 744 B1 such as DE 10 2008 019 892 A1 known.

The invention has for its object to provide a device and a method for efficient and easy to handle cleaning a front-end seal described above.

The device according to the invention solves this problem in that the device additionally has a ring seal for the fluid channels of the end seal.

• a) Einführen der Vorrichtung in einen Fluidkanal der Stirndichtung,
• b) Zuführen von Reinigungsmedium zur Düsenspitze und Reinigung der Stirndichtung, wobei während des Reinigens eine Abdichtung von nicht zu Zufuhr und/oder Absaugung von Reinigungsmedium bzw. Verunreinigungen verwendeter Fluidöffnungen der Stirndichtung erfolgt.

The inventive method for cleaning using this device comprises the following steps:

• a) introducing the device into a fluid channel of the end seal,
• b) supplying cleaning medium to the nozzle tip and cleaning the end seal, during which a sealing of not used to supply and / or suction of cleaning medium or impurities fluid openings of the end seal takes place.

First, some terms used in the invention are explained.

The invention is used for cleaning a front seal of a jet engine. It is an initially explained seal that works either as a contact or labyrinth seal. In labyrinth seals, it may be provided that, for example, rotating sealing tips rub against a softer (abradable) stator matrix or rub in certain operating states.

Examples of front seals in jet engines are the so-called FOS (Forward Outer Seal) seal and CDP seal.

In the region of the last compressor stage of a jet engine, in principle, air from the gas stream can enter the cavity between the high-pressure compressor rotor and the combustion chamber. To minimize this leakage current, an end seal is often provided between the high pressure compressor rotor and the combustion chamber housing. It is called CDP seal or Thrust Balance Seal. In the area of the turbine nozzle at the outlet of the combustion chamber, a so-called forward outer seal is frequently provided, which seals the turbine rotor arranged behind the combustion chamber against the combustion chamber housing.

The said end seals generally have fluid channels in the axial direction of the sealing body, which produce a pressure equalization between the two sides of the seal and / or serve for the passage of cooling air.

The end seals described are generally annular and, in the radially outer region, have a region with an axial direction component extending toward the counter-sealing surface. This geometry causes a curvature or kink in the radially outer region of the end seal, in which often accumulate impurities and affect the sealing effect. In some end seals, the fluid channels described above are also provided for cooling air supply to thermally stressed parts such as blades. The accumulation of contaminants in the seal affects the cooling air flow.

The invention enables a simple and effective cleaning of the front seal, without a disassembly of the jet engine take place in the items and thus the soiled area of the seal must be made directly accessible. The device according to the invention is a nozzle for cleaning medium with a nozzle tip which is designed to be pushed through a fluid channel. The length of this nozzle tip is thus adapted to the axial thickness of the end seal or the axial length of the fluid channels. At the pushed-through end of the nozzle tip, an outlet opening for cleaning medium is arranged, which is designed for the escape of cleaning medium with a radial direction component. This means that the cleaning medium is not or at least not exclusively in the axial direction of the nozzle pushed through and thus also exits in the axial direction of the end seal, but at least partially in the radial direction. The radial cleaning medium jet is directed to detect the above-described deposits or contaminants. The fluid channels of a front seal are usually arranged radially inwardly of the sealing region in which preferably accumulate impurities. Accordingly, the device according to the invention is preferably designed or pushed through the fluid channels such that the cleaning medium beam preferably directs radially outwards. According to the invention, it is preferred if the main direction of the exiting jet of the cleaning medium is inclined approximately 10 ° +/- 5 ° forwards out of the radial plane, ie in the direction from which the nozzle tip is inserted. The projection of the main direction of the beam in the radial plane of the end seal preferably has exactly in the radial direction. The inclination of the beam by about 10 ° from the radial plane to the front allows a targeted cleaning of those areas of the end seal, in which preferably settle dirt, as explained in more detail below in the embodiment.

According to the invention, a jet engine to be cleaned does not have to be completely dismantled, but only down to the module level or module level. If, for example, an engine for cleaning the FOS gasket only has to be disassembled down to assembly level, then it is possible to disassemble it into the other individual parts (eg HPT (High Pressure Turbine), Front Shaft, HPT FOS, HPT Disc and HPT Rear Shaft According to the invention, the cleaning is carried out at the engine disassembled at this assembly level.

According to the invention, the use of CO ₂ , in particular CO ₂ snow, or CO ₂ pellets as cleaning medium is preferred. In addition, a gaseous propellant, such as compressed air, may be used to impart a desired rate of kinetic energy to CO ₂ pellets. In this way, both mechanically (by the kinetic energy impinging CO ₂ pellets) and by the resulting on impact cold shock can be cleaned. CO ₂ as a cleaning medium sublimes residue-free and in this way additionally prevents dissolved dirt settling on surfaces together with the cleaning medium.

According to the invention, it is preferred if the cleaning medium and the dissolved dirt are sucked off, for this purpose the device according to the invention can have a corresponding suction device.

As a rule, an end seal to be cleaned according to the invention has a large number of fluid channels distributed over the circumference. The suction is preferably carried out by fluid channels through which the nozzle tip is not inserted. Suction may be in the circumferential direction immediately adjacent to the location of supply of the cleaning medium, but suction will often be preferred in which the suction means is removed by at least 1/4 of the circumference of the end seal from the nozzle tip through which cleaning medium is supplied. For example, the suction device of the nozzle tip on the circumference of the end seal may be approximately diametrically opposite.

According to the invention, it is provided that the fluid channels used neither for the supply of cleaning medium nor for suction are sealed. The device according to the invention may for this purpose have a ring seal which is placed in the axial direction on the fluid channels and seals them.

An embodiment of the invention will be described below with reference to the drawings. Show:

1 schematically a FOS seal;

2 FIG. 2 schematically shows a device according to the invention in a view and in a sectional view; FIG.

3 the nozzle and nozzle tip of a device according to the invention.

1 schematically shows a part of the turbine at the output of the combustion chamber of a jet engine. At the exit of the combustion chamber 1 are vanes or Vanes 2 provided the hot gas flow to the rotor blades 3 of the turbine rotor. The rotor disk 4 will be at their in the direction of the combustion chamber 1 pointing end face against a total of 5 sealed forward outer seal or front seal. The FOS has distributed over the circumference a plurality of fluid channels 6 on in operation for the passage of one with the arrow 7 designated cooling air flow are provided. In particular, when operating in areas with high dust, in desert areas or the like, this cooling air flow contributes a large amount of sand and other impurities in the FOS, which is due to their geometry, in particular as in 8th indicated in the transition region of the FOS deposit, in which a curvature from the radial takes place in the axial direction.

2 shows in simplified form the rotor disk 4 and the FOS 5 after disassembly down to assembly level. In particular, one recognizes the multiplicity of fluid channels distributed over the circumference of the FOS 6 ,

The inventive device for cleaning has a ring seal 9 made of plastic, whose radius is the radius of the bolt circle of the fluid channels 6 equivalent. This ring seal is pierced axially at a location of the circumference of the nozzle tip 11 a nozzle 10 for cleaning medium. The radius of the nozzle tip 11 is designed to pass through the fluid channels 6 can pass through and take a cleaning position, which is schematically in the sectional drawing of 6 is shown. The nozzle tip 11 has a radially outwardly facing outlet opening 12 on, through the cleaning medium escapes and the impurities in the area 8th capture and replace. The central axis of the cone of the beam from the outlet opening 12 emerging cleaning medium points in the radial direction and is inclined relative to the radial plane of the FOS by about 10 ° forward, ie in the direction from which the nozzle tip 11 is inserted. This inclination of the jet facilitates the removal of the contaminants in the area 8th who, as it were, is in a blind spot.

Diametrically opposite the nozzle 10 on the circumference of the ring seal 9 there is a suction line 13 , can be sucked through the cleaning medium and entrained impurities.

3 shows a sectional view of a nozzle according to the invention 10 with the nozzle tip 11 , It can be seen here in particular the radially pointing outlet opening 12 for cleaning medium. at 14 this nozzle can be connected to a suitable source of cleaning medium, in the embodiment, this is a suitable source of CO ₂ snow or CO ₂ pellets, which can be supplied for example by means of compressed air or other suitable propellant gas and brought to a desired kinetic energy. For example, the nozzle 10 be placed as a nozzle attachment on a conventional CO ₂ S-jet nozzle.

To carry out the cleaning, the device according to the invention in the in 2 brought shown in the sectional view cleaning position. CO ₂ pellets are passed through the nozzle 10 and the nozzle tip 11 fed, pass through the opening 12 and dissolve the impurities in the area. Cleaning medium and entrained impurities are through the suction line 13 sucked off again.

The device according to the invention is implemented several times, so that the nozzle tip through different over the circumference of the FOS 5 distributed fluid channels 6 pass through and thus essentially clean the entire scope of the FOS.

Claims (11)

Device for cleaning an axial direction fluid channels ( 6 ) having front seal ( 5 ) of a jet engine, wherein, the device at least one for pushing through a fluid channel ( 6 ) formed nozzle tip ( 11 ) and at the nozzle tip ( 11 ) an outlet opening ( 12 ) is arranged for cleaning medium, which is formed for the escape of cleaning medium with a radial direction component, characterized in that it additionally comprises a ring seal ( 9 ) for the fluid channels ( 6 ) of the front seal ( 5 ) having. Apparatus according to claim 1, characterized in that it is designed for use of CO ₂ as a cleaning medium. Apparatus according to claim 1, characterized in that it is designed for use of CO ₂ snow or CO ₂ pellets as a cleaning medium. Device according to one of claims 1 to 3, characterized in that in addition a suction device ( 13 ) is provided for cleaning medium and / or impurities. Apparatus according to claim 4, characterized in that the suction device ( 13 ) for sucking off at one of the nozzle tip ( 11 ) by at least a quarter of the circumference of the end seal ( 5 ) remote location is provided. Method for cleaning an axial direction fluid channels ( 6 ) having front seal ( 5 ) of a jet engine using a device according to one of claims 1 to 5, comprising the following steps: a) introducing the device into a fluid channel ( 6 ) of the front seal ( 5 ), b) supplying cleaning medium to the nozzle tip ( 11 ) and cleaning of the end seal, characterized in that during the cleaning a sealing of not used for supply and / or suction of cleaning medium and / or impurities fluid ports ( 6 ) of the front seal ( 5 ) he follows. A method according to claim 6, characterized in that the radial directional component of the outlet opening ( 12 ) of the nozzle tip ( 11 ) points radially outward. A method according to claim 6 or 7, characterized in that CO _{2 is} used as the cleaning medium. A method according to claim 8, characterized in that are used as cleaning medium CO ₂ snow or CO ₂ pellets. A method according to claim 8 or 9, characterized in that the cleaning medium additionally contains a gaseous propellant. Method according to one of claims 6 to 10, characterized in that a suction of cleaning medium and / or impurities at one of the nozzle tip ( 11 ) by at least a quarter of the circumference of the end seal ( 5 ) remote location is made.

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