FASTENING DEVICE FOR THERMOINSULATING TILE OF GAS TURBINE COMBUSTION CHAMBER

Description

[0001] The present invention relates to a fastening device for thermoinsulating tiles of gas turbine combustion chambers.

[0002] As is known, gas turbines are extremely complex apparatuses, whose operation must be controlled with the utmost precision. Both in order to check their compliance with the design criteria and in order to control their operation, it is necessary to measure or estimate numerous parameters and quantities and, to this aim, manufacturers are required to provide suitable tools. However, not all parts of a gas turbine may easily be equipped with the sensors needed to detect the quantities to be measured for the required checks and controls. In particular, the detection of quantities in the combustion chamber turns out to be particularly difficult, on the one hand because of the structure and on the other hand because of critical temperature and pressure conditions.

[0003] A combustion chamber generally comprises a casing, for example with a toroidal or cylindrical shaped, which, on the inside, is covered with thermoinsulating tiles. The tiles are normally connected to the wall of the casing with interlocking fastening means or, at least for some of the tiles, with screw fastening means. Fastening by screws is obtained through holes in the casing.

[0004] The installation of sensors in the combustion chamber requires further holes in the casing, whose integrity, though, should be preserved. For this reason, the use of sensors to measure the combustion chamber quantities usually is very limited and is highly discouraged especially for the upgrade of machines that have already been installed. As a matter of fact, there are strong and well-motivated resistances when the structure of the casing of a combustion chamber must be changed, because of the numerous drawbacks that this kind of intervention may cause.

[0005] Therefore, the installation of sensors for combustion chambers of gas turbines should be made easier, in particular avoiding changes to the structure of the casing of the chambers.

[0006] Hence, it is an object of the present invention to provide a fastening device for thermoinsulating tiles of gas turbine combustion chambers, which allows to overcome the drawbacks described above.

[0007] EP 2 738 470 A1 discloses a fastening device for a thermoinsulating tile of a gas turbine combustion chamber. The fastening device comprises a supporting body, which has a lid and is configured to be coupled to a seat of a wall of a combustion chamber of a gas turbine. The fastening device also comprises a coupling member, connected to the supporting body at an end opposite to the lid and configured to be coupled to thermoinsulating tiles of the combustion chamber through the wall. An example of a known fastening device for a double walled combustor, wherein the fastening device incorporates a sensor is disclosed in US 4 300 774 A.

[0008] According to the present invention, there is provided a fastening device for thermoinsulating tiles of gas turbine combustion chambers as defined in claim 1.

[0009] The present invention will now be described with reference to the accompanying drawings, which show some non-limiting embodiments thereof, wherein:

• figure 1 is a cross section of a combustion chamber of a gas turbine;
• figure 2 is a perspective view from the top, partially cross-sectional, of a device for fastening thermoinsulating tiles of gas turbine combustion chambers according to an embodiment of the present invention;
• figure 3 is a perspective view from the bottom of the fastening device of figure 2;
• figure 4 is a side view, partially cross-sectional along a longitudinal axial plane and with parts removed for greater clarity, of the fastening device of figure 2;
• figure 5 is a perspective view from the top, partially cross-sectional, of a device for fastening thermoinsulating tiles of gas turbine combustion chambers according to a different embodiment of the present invention; and
• figure 6 is a side view, partially cross-sectional along a longitudinal axial plane and with parts removed for greater clarity, of the fastening device of figure 5.

[0010] The invention will now be described with special reference to the fastening of thermoinsulating tiles to the inner wall of the casing of a toroidal combustion chamber of a gas turbine. However, the invention may also find advantageous application in different combustion chambers, for example silo combustion chambers.

[0011] With reference to figure 1, a combustion chamber 1 of a gas turbine (not shown in its entirety) comprises a toroidal casing 2 extending around an axis A and having a radially outer first shell 3, defined by a ring-shaped wall, and a radially inner second shell 4, defined by a wall having substantially frustoconical shape. The casing 2 defines a combustion volume V, which extends between the first shell 3 and the second shell 4. The combustion chamber 1 is provided with thermoinsulating coating, which internally covers the first shell 3 and the second shell 4 and comprises a plurality of thermoinsulating tiles. In an embodiment, the thermoinsulating tiles 7 are arranged in adjacent rows along circumferences around the axis A of the combustion chamber 1.

[0012] The thermoinsulating tiles 7 of at least some rows are fastened to the casing 2 of the combustion chamber 1 by fastening devices 10 through respective seats 17 provided in the first shell 3 and in the second shell 4.

[0013] With reference to figures 2 to 4, in an embodiment of the invention, the fastening device 10 comprises a supporting body 12, a bushing 13 and coupling members 14. Furthermore, the fastening device 10 supports a temperature sensor 15 and a pressure sensor 16.

[0014] The supporting body 12 is configured to be coupled to a housing 17 on a face of the casing 2 that is on the outside relative to the combustion volume V. The supporting body 12 also has a locking seat 18 and an access opening 20 to receive an end of the bushing 13. The seat 17 is defined by a through opening, for example a circular one, in the wall of the casing 2.

[0015] The supporting body 12 comprises a first annular element 21, a second annular element 22 and a lid 23.

[0016] The first annular element 21 has an edge that radially projects outward to be coupled in abutment with a corresponding margin of the seat 17 in the casing 2. The second annular element 22 defines a side of the locking seat 18 opposite to the lid 23. Furthermore, the access opening 20 is obtained in the second annular element 22 and is aligned with a central opening of the first annular element 21, so as to allow the bushing 13 to be introduced into the locking seat 18. In other words, the bushing 13 is inserted into the locking seat 18 through the first annular element 21 and the second annular element 22. A pack of Belleville washers 25 is arranged between the first annular element 21 and the second annular element 22 and allows to comply with the effects of the thermal expansion caused by the high temperatures of the combustion chamber 1 in use.

[0017] The lid 23 is opposite to the access opening 20, is cup-shaped and defines the locking seat 18 on one side. The lid 23 is removably fastened to the first annular element 21 through screws and it has a first through sensor seat 27 and a second through sensor seat 28 to fasten the temperature sensor 15, by a connector 30, and the pressure sensor 16, by a connector 31, respectively. The first through sensor seat 27 and the second through sensor seat 28 are provided in a bottom wall of the lid 23 and communicate with the locking seat 18.

[0018] A central opening 32 of the lid 23, communicating with the locking seat 18 as well, allows cooling air to flow into the supporting body 12.

[0019] The bushing 13 is internally threaded and is removably coupled to the supporting body 12. In an embodiment, the coupling between the bushing 13 and the supporting body 12 is a bayonet coupling. More in detail, the bushing 13 extends along an axis B, has a substantially cylindrical shape and is provided, at one end, with locking fins 33 extending radially relative to the axis B. The bushing 13 can be inserted into the locking seat 18 through the access opening 20 from the inside of the casing 2 through the housing 17 and is angularly movable in the locking seat 18 between an insertion position, in which the locking fins 33 are aligned with the access opening 20 and the bushing 13 is axially movable, and a locking position, in which the locking fins 33 are held in a blind portion of the locking seat 18. The blind portion of the locking seat 18 communicates with the access opening 20 and is configured to receive and axially hold the locking fins 33.

[0020] In an embodiment, the bushing 13 is axially hollow and enables the passage of cooling air.

[0021] The coupling members 14 are coupled to respective thermoinsulating tiles 7 and, in a non-limiting embodiment, comprise a cup-shaped body 35, for example a substantially cylindrical one, and an axially hollow screw 36. The cup-shaped body 35 is housed in a through seat 37 in one of the thermoinsulating tiles 7 and is provided with a plate 38 for locking against an inner face of the thermoinsulating tile 7 delimiting a portion of the combustion volume V.

[0022] The screw 36 is arranged through a bottom wall of the cup-shaped body 35 and is coupled to an end of the bushing 13 opposite to the lid 23. In particular, the screw 36 is coupled to the bushing 13 so that, when the bushing is in the locking position in the locking seat 18, screwing the screw 36 tends to tighten the second annular element 22 against the first annular element 21 and both of them in a clamping manner on the wall of the casing 2.

[0023] As already mentioned above, the temperature sensor 15 and the pressure sensor 16 are fastened to the first sensor seat 27, by the connector 30, and to the second sensor seat 28, by the connector 31, respectively. The first through sensor seat 27 and the second through sensor seat 28 are provided in a bottom wall of the lid 23 and communicate with the locking seat 18.

[0024] The temperature sensor 15, in an embodiment, is a thermocouple and comprises a junction 15a and an electrical connecting line 15b for connecting to a sensing circuit 15c, which is schematically shown in figure 4.

[0025] The pressure sensor 16 comprises a pressure inlet 16a and a fluidic connecting line 16b for connecting to a pressure transducer 16c, which is schematically shown in figure 4.

[0026] The electrical connecting line 15b and the fluidic connecting line 16b extend through the lid 23 in the first sensor seat 27 and in the second sensor seat 28, respectively, and through the locking seat 18. Then, the electrical connecting line 15b and the fluidic connecting line 16b run adjacent to the bushing 13, through the portions of the access opening 20 that remain free when the bushing 13 is in the locking position.

[0027] The sensing members of the temperature sensor 15 and of the pressure sensor 16, defined by the junction 15a and by the pressure inlet 16a, respectively, are arranged at ends of the electrical connecting line 15b and of the fluidic connecting line 16b, close to the thermoinsulating tile 7.

[0028] The fastening device 10 allows quantity detecting sensors to be easily arranged inside the casing 2 of the combustion chamber 1, without the need to modify the structure of the casing 2 by making holes for the sensors. Furthermore, several points are available to install the sensors. As a matter of fact, it is possible to choose the most convenient locations for positioning the sensors, taking into account also easy access for operators, or, alternatively, banks of sensors may be installed to get a series of measures from which, for example, information concerning the symmetry of combustion and, anyway, more accurate data may be obtained.

[0029] The sensors may be installed permanently or, if it is preferable based on the circumstances, only temporarily, in order to carry out the measurements. The sensors may be easily be removed by extracting the connectors 30, 31 from the seats 27, 28 or by replacing the lid 23 (and the sensors 15, 16 fastened thereto) with a lid without sensors.

[0030] A different embodiment of the invention is shown in figures 5 and 6, where a device for fastening thermoinsulating tiles of gas turbine combustion chambers is indicated with number 110.

[0031] The fastening device 110 comprises a supporting body 112, a bushing 113 and coupling members 114. The bushing 113 and the coupling members 114 are substantially like the ones already described with reference to figures 2-4.

[0032] In particular, the bushing 113 is removably inserted in a locking seat 118 in the supporting body 112 through an access opening 120, is internally threaded and axially hollow and has an end that projects in a direction opposite to the supporting body 112.

[0033] The coupling members 114 are coupled to respective thermoinsulating tiles 7 and, in a non-limiting embodiment, they comprise a substantially cylindrical cup-shaped body 135 and an axially hollow screw 136. The cup-shaped body 135 is housed in the through seat 37 of one of the thermoinsulating tiles 7 and is provided with a plate 138 for locking it against a an inner face of the thermoinsulating tile 7 delimiting a portion of the combustion volume V.

[0034] The screw 136 is arranged through a bottom wall of the cup-shaped body 135 and is coupled to an end of the bushing 113 projecting from the access opening 120.

[0035] The supporting body 112 comprises a first annular element 121 and a second annular element 122, which are substantially like the first annular element 21 and the second annular element 22 described above, and a lid 123.

[0036] The lid 123 is cup-shaped and delimits the locking seat 118 on one side. The lid 123 is removably fastened to the first annular element 121 and has a sensor seat 127 for fastening a sensor 115 by a connector 130. The sensor seat 127 is provided in a bottom wall of the lid 123 and communicates with the locking seat 118.

[0037] An opening 132 diametrically crosses the lid 123. The opening 132 communicates with the locking seat 118 and allows cooling air to flow into the supporting body 112.

[0038] The sensor 115, for example a temperature or pressure sensor, is coupled to the sensor seat 127 by the connector 130 and has a sensing member 115a and a connecting line 115b. The sensing member 115a (e.g. a junction of a thermocouple or a pressure inlet, depending on the type of sensor used) is arranged at one end of the connecting line 115b (e.g. an electrical connecting line or a fluidic connecting line). In an embodiment, the connecting line 115b extends through the sensor seat 127 and a portion of the locking seat 118 and, furthermore, through the bushing 113 and the screw 136, which are aligned with the sensor seat 127. Therefore, the sensing member 115a directly faces the combustion volume V of the combustion chamber, without the interposition of the thermoinsulating tile 7.

[0039] Also in this case, the sensor 115 may be installed in a temporary or permanent manner, depending on the needs. In case of a temporary installation, the lid 123 may be removed and replaced with a lid without sensors.

[0040] Furthermore, in a combustion chamber, it is possible to use fastening devices equipped with different sensors. For example, part of the fastening devices may comprise temperature sensors and part of the fastening devices may comprise pressure sensors.

[0041] Finally, it is clear that the fastening device described above may be subjected to changes and variations, without for this reason going beyond the scope of protection of the present invention, as set forth in the appended claims.

[0042] In particular, the coupling members do not necessarily require to have the shape described above, with a cylindrical cup-shaped body provided with a plate and coupled to a respective thermoinsulating tile in the middle. On the contrary, coupling devices (and respective coupling members) may be used, which have any possible configuration, provided that they are suited to hold respective thermoinsulating tiles on the casing of the combustion chamber, of course.

[0043] Any kind of sensor capable of detecting operating quantities of the combustion chamber may be used; temperature sensors and pressure sensors of the type described above are not the only possible solution. As already mentioned above, furthermore, in the same combustion chamber different fastening devices may be used, which are equipped with respective types of sensors that are different from one another.

Claims

1. Fastening device for a thermoinsulating tile (7) of a gas turbine combustion chamber (1), comprising:

a supporting body (12; 112), provided with a lid (23; 123) and configured to be coupled to a seat (17) of a wall of a combustion chamber (1) of a gas turbine;

coupling members (14; 114), connected to the supporting body (12; 112) at an end thereof opposite to the lid (23; 123) and configured to be coupled to thermoinsulating tiles (7) of the combustion chamber (1) through the wall;

at least a sensor (15, 16; 115) connected to the lid (23; 123) and having a connecting line (15b, 16b; 115b), that extends through the supporting body (12; 112), and a sensing member (15a, 16a; 115a) at one end of the connecting line (15b, 16b; 115b).

2. The fastening device according to claim 1, wherein:

the supporting body (12; 112) has a locking seat (18; 118) and an access opening (20; 120) for accessing the locking seat (18; 118);

the lid (23; 123) is opposite to the access opening (20; 120) and defines the locking seat (18; 118) on one side;

a threaded bushing (13; 113) is removably inserted in the locking seat (18; 118) through the access opening (20; 120); and

the coupling members (14; 114) are connected to the bushing (13; 113) by a screw (36; 136).

3. The fastening device according to claim 2, wherein the at least a connecting line (15b, 16b; 115b) extends through the lid (23; 123) and the locking seat (18; 118) of the bushing (13; 113).

4. The fastening device according to claim 2 or 3, comprising a first sensor (15) and a second sensor (16) having a first connecting line (15b) and a second connecting line (16b), respectively, wherein:

the lid (23) comprises a through first sensor seat (27) and a through second sensor seat (28), provided in a bottom wall and communicating with the locking seat (18);

the first sensor (15) and the second sensor (16) have a first connector (30) coupled to the first sensor seat (27) and a second connector (31) coupled to the second sensor seat (28), respectively; and

the first connecting line (15b) and the second connecting line (16b) extend through the first sensor seat (27) and the second sensor seat (28), respectively, and run adjacent to the bushing (13).

5. The fastening device according to claim 4, wherein the first connecting line (15b) and the second connecting line (16b) extend through the access opening (20).

6. The fastening device according to claim 2 or 3, the lid (123) comprises a through sensor seat (127), centrally provided in a bottom wall and communicating with the locking seat (118);
the sensor (115) has a connector (130) coupled to the sensor seat (127); and
the connecting line (115b) extends through the sensor seat (127).

7. The fastening device according to claim 6, wherein the screw (136) is axially hollow and is aligned with the sensor seat (127) and the connecting line (115b) extends through the screw (136).

8. The fastening device according to any one of claims 2 to 7, wherein:

the supporting body (12; 112) comprises a first annular element (21; 121) and a second annular element (22; 122), that defines one side of the locking seat (18; 118) opposite to the lid (23; 123);

the access opening (20; 120) is provided in the second annular element (22; 122); and

the bushing (13; 113) is inserted through the first annular element (21; 121) and the second annular element (22; 122).

9. The fastening device according to claim 8, wherein the first annular element (21; 121) projects radially outward to be placed in abutment with a margin of the seat (17) in the wall (2) of the combustion chamber (1), so that, when the coupling members (14; 114) are coupled to the thermoinsulating tile (7), screwing the screw (36; 136) tend to tighten the second annular element (22; 122) against the first annular element (21; 121).

10. The fastening device according to claim 8 or 9, comprising a pack of Belleville washers (25) between the first annular element (21; 121) and the second annular element (22; 122).

11. The fastening device according to any one of claims 8 to 10, wherein the lid (23; 123) is removably fastened to the first annular element (21; 121).

12. The fastening device according to any one of claims 2 to 11, wherein:

the bushing (13) is provided with radial locking fins (33) ;

the locking seat (18) has a blind portion communicating with the access opening (20) and adapted to receive and axially hold the radial locking fins (33); and

the bushing (13) is angularly movable in the locking seat (18) between an insertion position, in which the radial locking fins (33) are aligned to the access opening (20) and the bushing (13) is axially movable, and a locking position, in which the radial locking fins (33) are held in the blind portion of the locking seat (18).

13. The fastening device according to any one of the foregoing claims, wherein the sensor (15) is a temperature sensor, the sensing member (15a) comprises a thermocouple and the connecting line (15b) is an electrical connecting line.

14. The fastening device according to any one of the foregoing claims, wherein the sensor (15, 16; 115) is a pressure sensor, the sensing member (16a) comprises a pressure inlet and the connecting line (16b) is a fluidic connecting line.

15. Combustion chamber of a gas turbine, comprising a casing (2) and a plurality of thermoinsulating tiles (7) arranged on an internal face of the casing (2); wherein the thermoinsulating tiles (7) are fastened to the casing (2) by at least one fastening device (10; 110) according to any one of the foregoing claims.

16. Combustion chamber according to claim 15, wherein the supporting body (12; 112) is fastened to and external face of the casing (2), the lid (23; 123) is outside the casing (2) and the bushing (13; 113) is insertable and extractable from inside the casing (2) through a hole.

Ansprüche

1. Befestigungsvorrichtung für eine wärmedämmende Kachel (7) einer Gasturbinenbrennkammer (1), umfassend:

einen mit einer Kappe (23; 123) versehenen Stützkörper (12; 112), der mit einer Sitzfläche (17) in einer Wand einer Brennkammer (1) einer Gasturbine verbunden wird;

Verbindungselemente (14; 114), die mit einem Ende des Stützkörpers (12; 112), der Kappe (23; 123) gegenüberliegend, verbunden sind und dazu dienen, durch die Wand mit den wärmedämmenden Kacheln (7) der Brennkammer (1) verbunden zu werden;

mindestens einen mit der Kappe (23; 123) verbundenen Sensor (15, 16; 115), der mit einer Verbindungsleitung (15b, 16b; 115b) versehen ist, die sich durch den Stützkörper (12; 112) erstreckt, sowie einem an einem Ende der Verbindungsleitung (15b, 16b; 115b) angeordneten Sensorelement (15a, 16a; 115a).

2. Befestigungsvorrichtung nach Anspruch 1, wobei:

der Stützkörper (12; 112) mit einem Verriegelungssitz (18; 118) und einer Zugangsöffnung (20; 120) für den Zugang zu dem Verriegelungssitz (18; 118) versehen ist;

die Kappe (23; 123) der Zugangsöffnung (20; 120) gegenüberliegend angeordnet ist und den Verriegelungssitz (18; 118) auf einer Seite abgrenzt;

eine Gewindebuchse (13; 113) durch die Zugangsöffnung (20; 120) herausnehmbar in den Verriegelungssitz (18; 118) eingesetzt ist; und

die Verbindungselemente (14; 114) mittels einer Schraube (36; 136) mit der Buchse (13; 113) verbunden sind.

3. Befestigungsvorrichtung nach Anspruch 2, wobei sich die mindestens eine Verbindungsleitung (310) durch die Kappe (23; 123) und den Verriegelungssitz (18; 118) der Buchse (13; 113) erstreckt.

4. Befestigungsvorrichtung nach Anspruch 2 oder 3, umfassend einen ersten Sensor (15) und einen zweiten Sensor (16), die mit einer ersten Verbindungsleitung (15b) bzw. einer zweiten Verbindungsleitung (16b) versehen sind, wobei:

die Kappe (23) einen ersten Durchgangssensorsitz (27) und einen zweiten Durchgangssensorsitz (28) umfasst, welche in einer Unterwand angeordnet und mit dem Verriegelungssitz (18) verbunden sind;

der erste Sensor (15) und der zweite Sensor (16) einen ersten Verbinder (30) bzw. einen zweiten Verbinder (31) aufweisen, die mit dem ersten Sensorsitz (27) bzw. mit dem zweiten Sensorsitz (28) verbunden sind; und

die erste Verbindungsleitung (15b) und die zweite Verbindungsleitung (16b) sich durch den ersten Sensorsitz (27) bzw. den zweiten Sensorsitz (28) erstrecken und benachbart zu der Buchse (13) verlaufen.

5. Befestigungsvorrichtung nach Anspruch 4, wobei sich die erste Verbindungsleitung (15b) und die zweite Verbindungsleitung (16b) durch die Zugangsöffnung (20) erstrecken.

6. Befestigungsvorrichtung nach Anspruch 2 oder 3, wobei die Kappe (123) einen in einer Unterwand mittig angeordneten und mit dem Verriegelungssitz (118) verbundenen Durchgangssensorsitz (127) umfasst;
der Sensor (115) einen mit dem Sensorsitz (127) verbundenen Verbinder (130) aufweist; und
sich die Verbindungsleitung (115b) durch den ersten Sensorsitz (127) erstreckt.

7. Befestigungsvorrichtung nach Anspruch 6, wobei die Schraube (136) axial hohl und an dem Sensorsitz (127) ausgerichtet ist und sich die Verbindungsleitung (115b) durch die Schraube (136) erstreckt.

8. Befestigungsvorrichtung nach einem der Ansprüche 2 bis 7, wobei:

der Stützkörper (12; 112) ein erstes Ringelement (21; 121) und ein zweites Ringelement (22; 122) aufweist, das eine Seite des Verriegelungssitzes (18; 118), der Kappe (23; 123) gegenüberliegend, abgrenzt;

die Zugangsöffnung (20; 120) in dem zweiten Ringelement (22; 122) ausgebildet ist; und

die Buchse (13; 113) durch das erste Ringelement (21; 121) und das zweite Ringelement (22; 122) eingesetzt ist.

9. Befestigungsvorrichtung nach Anspruch 8, wobei das erste Ringelement (21; 121) radial nach außen vorragt, wodurch es an einen Rand der Sitzfläche (17) in der Wand (2) der Brennkammer (1) anstößt, so dass, wenn die Verbindungselemente (14; 114) mit der wärmedämmenden Kachel (7) verbunden werden, das Verschrauben der Schraube (36; 136) bewirkt, dass das zweite Ringelement (22; 122) gegen das erste Ringelement (21; 121) festgezogen wird.

10. Befestigungsvorrichtung nach Anspruch 8 oder 9, umfassend einen Satz Belleville-Scheiben (25), die zwischen dem ersten Ringelement (21; 121) und dem zweiten Ringelement (22; 122) angeordnet sind.

11. Befestigungsvorrichtung nach einem der Ansprüche 8 bis 10, wobei die Kappe (23; 123) an dem ersten Ringelement (21; 121) lösbar befestigt ist.

12. Befestigungsvorrichtung nach einem der Ansprüche 2 bis 11, wobei:

die Buchse (13) mit radialen Verriegelungsrippen (33) versehen ist;

der Verriegelungssitz (18) einen blinden Abschnitt aufweist, der mit der Zugangsöffnung (20) verbunden ist und dazu dient, die radialen Verriegelungsrippen (33) aufzunehmen und axial zu halten; und

die Buchse (13) in dem Verriegelungssitz (18) zwischen einem Einsetzabschnitt, in dem die radialen Verriegelungsrippen (33) an der Zugangsöffnung (20) ausgerichtet sind und die Buchse (13) axial beweglich ist, und einer Verriegelungsposition, in der die radialen Verriegelungsrippen (33) in dem blinden Abschnitt des Verriegelungssitzes (18) gehalten werden, winkelig beweglich ist.

13. Befestigungsvorrichtung nach einem der vorstehenden Ansprüche, wobei der Sensor (15) ein Temperatursensor ist, das Sensorelement (15a) ein Thermoelement umfasst und die Verbindungsleitung (15b) eine elektrische Verbindungsleitung ist.

14. Befestigungsvorrichtung nach einem der vorstehenden Ansprüche, wobei der Sensor (15, 16; 115) ein Drucksensor ist, das Sensorelement (16a) einen Druckeinlass umfasst und die Verbindungsleitung (16b) eine fluidische Verbindungsleitung ist.

15. Brennkammer einer Gasturbine, umfassend ein Gehäuse (2) und eine an einer Innenfläche des Gehäuses (2) angeordnete Vielzahl wärmedämmender Kacheln (7), wobei die wärmedämmenden Kacheln (7) mittels mindestens einer Befestigungsvorrichtung (10; 110) gemäß einem der vorstehenden Ansprüche an dem Gehäuse (2) befestigt sind.

16. Brennkammer nach Anspruch 15, wobei der Stützkörper (12; 112) an einer Außenfläche des Gehäuses (2) befestigt ist, die Kappe (23; 123) außerhalb des Gehäuses (2) angeordnet ist und die Buchse (13; 113) von der Innenseite des Gehäuses (2) durch eine Öffnung einsetzbar und herausnehmbar ist.

Revendications

1. Dispositif de fixation d'une tuile thermo-isolante (7) d'une chambre de combustion d'une turbine à gaz (1), comprenant :

un corps de support (12 ; 112), doté d'un couvercle (23 ; 123), et configuré de façon à être accouplé à un siège (17) d'une paroi d'une chambre de combustion (1) d'une turbine à gaz ;

des éléments d'accouplement (14 ; 114), connectés au corps de support (12 ; 112) au niveau d'une extrémité de celui-ci opposée au couvercle (23 ; 123), et configurés de façon à être accouplés aux tuiles thermo-isolantes (7) de la chambre de combustion (1) à travers la paroi ;

au moins un détecteur (15, 16 ; 115) connecté au couvercle (23 ; 123) et qui présente un une ligne de connexion (15b, 16b ; 115b), qui s'étend à travers le corps de support (12 ; 112), et un élément de détection (15a, 16a ; 115a) qui se situe au niveau d'une extrémité de la ligne de connexion (15b, 16b ; 115b).

2. Dispositif de fixation selon la revendication 1, dans lequel :

le corps de support (12 ; 112) présente un siège à verrouillage (18 ; 118) et une ouverture d'accès (20 ; 120) destinée à accéder au siège à verrouillage (18; 1118) ;

le couvercle (23 ; 123) est opposé à l'ouverture d'accès (20 ; 120) et définit le siège à verrouillage (18 ; 118) sur un côté ;

une bague filetée (13 ; 113) est insérée de manière amovible dans le siège à verrouillage (18 ; 118) à travers l'ouverture d'accès (20 ; 120) ; et

les éléments d'accouplement (14 ; 114) sont connectés à la bague (13 ; 113) par une vis (36 ; 136).

3. Dispositif de fixation selon la revendication 2, dans lequel la ou les lignes de connexion (15b, 16b, 115b) s'étendent à travers le couvercle (23 ; 123) et le siège à verrouillage (18 ; 118) de la bague (13 ; 113).

4. Dispositif de fixation selon la revendication 2 ou la revendication 3, comprenant un premier détecteur (15) et un second détecteur (16) qui présentent, respectivement, une première ligne de connexion (15b) et une seconde ligne de connexion (16b), dans lequel :

le couvercle (23) comprend un siège de premier détecteur (27) et un siège de second détecteur (28), disposés dans une paroi inférieure, et qui communiquent avec le siège à verrouillage (18) ;

le premier détecteur (15) et le second détecteur (16) présentent un premier connecteur (30) accouplé au siège de premier détecteur (27), et un second connecteur (31) accouplé au siège de second détecteur (28), respectivement ; et

la première ligne de connexion (15b) et la seconde ligne de connexion (16b) s'étendent à travers le siège de premier détecteur (27) et à travers le siège de second détecteur (28), respectivement, et courent adjacentes à la bague (13).

5. Dispositif de fixation selon la revendication 4, dans lequel la première ligne de connexion (15b) et la seconde ligne de connexion (16b) s'étendent à travers l'ouverture d'accès (20).

6. Dispositif de fixation selon la revendication 2 ou la revendication 3, dans lequel : le couvercle (123) comprend un siège de détecteur traversant (127), disposé de manière centrale dans une paroi inférieure et qui communique avec le siège à verrouillage (118) ;
le détecteur (115) présente un connecteur (130) accouplé au siège de détecteur (127) ; et
la ligne de connexion (115b) s'étend à travers le siège de détecteur (127).

7. Dispositif de fixation selon la revendication 6, dans lequel la vis (136) est creuse de manière axiale, et est alignée avec le siège de détecteur (127), et la ligne de connexion (115b) s'étend à travers la vis (136).

8. Dispositif de fixation selon l'une quelconque des revendications 2 à 7, dans lequel :

le corps de support (12 ; 112) comprend un premier élément annulaire (21 ; 121) et un second élément annulaire (22 ; 122), ce qui définit un côté du siège à verrouillage (18 ; 118) opposé au couvercle (23 ; 123) ;

l'ouverture d'accès (20 ; 120) est disposée dans le second élément annulaire (22 ; 122) ; et

la bague (13 ; 113) est insérée à travers le premier élément annulaire (21 ; 121) et le second élément annulaire (22 ; 122).

9. Dispositif de fixation selon la revendication 8, dans lequel le premier élément annulaire (21 ; 121) fait saillie de manière radiale vers l'extérieur de façon à venir en butée avec un bord du siège (17) dans la paroi (2) de la chambre de combustion (1), de telle sorte que, lorsque les éléments d'accouplement (14; 114) sont accouplés à la tuile thermo-isolante (7), le vissage de la vis (36 ; 136) tend à serrer le second élément annulaire (22 ; 122) contre le premier élément annulaire (21 ; 121).

10. Dispositif de fixation selon la revendication 8 ou la revendication 9, comprenant un ensemble de rondelles Belleville (25) situées entre le premier élément annulaire (21 ; 121) et le second élément annulaire (22 ; 122).

11. Dispositif de fixation selon l'une quelconque des revendications 8 à 10, dans lequel le couvercle (23 ; 123) est fixé de manière amovible sur le premier élément annulaire (21 ; 121).

12. Dispositif de fixation selon l'une quelconque des revendications 2 à 11, dans lequel :

la bague (13) est dotée d'ailettes de verrouillage radiales (33) ;

le siège à verrouillage (18) présente une partie borgne qui communique avec l'ouverture d'accès (20), et qui est adaptée de façon à recevoir et à maintenir de manière axiale les ailettes de verrouillage radiales (33) ; et

la bague (13) est mobile de manière angulaire dans le siège à verrouillage (18) entre une position d'insertion, dans laquelle les ailettes de verrouillage radiales (33) sont alignées avec l'ouverture d'accès (20), et la bague (13) est mobile de manière axiale, et une position de verrouillage, dans laquelle les ailettes de verrouillage radiales (33) sont maintenues dans la partie borgne du siège à verrouillage (18).

13. Dispositif de fixation selon l'une quelconque des revendications précédentes, dans lequel le détecteur (15) est un détecteur de température, l'élément de détection (15a) comprend un thermocouple, et la ligne de connexion (15b) est une ligne de connexion électrique.

14. Dispositif de fixation selon l'une quelconque des revendications précédentes, dans lequel le détecteur (15, 16 ; 115) est un détecteur de pression, l'élément de détection (16a) comprend une entrée de pression, et la ligne de connexion (16b) est une ligne de connexion de fluide.

15. Chambre de combustion d'une turbine à gaz, comprenant une enveloppe (2) et une pluralité de tuiles thermo-isolantes (7) disposées sur une face intérieure de l'enveloppe (2) ; dans laquelle les tuiles thermo-isolantes (7) sont fixées sur l'enveloppe (2) par un dispositif de fixation (10 ; 110) au moins, selon l'une quelconque des revendications précédentes.

16. Chambre de combustion selon la revendication 15, dans laquelle le corps de support (12 ; 112) est fixé sur une face extérieure de l'enveloppe (2), le couvercle (23 ; 123) se situe à l'extérieur de l'enveloppe (2), et la bague (13 ; 113) peut être insérée et retirée à partir de l'intérieur de l'enveloppe (2) à travers un trou.

Drawing