SYSTEM WITH A ROTOR BLADE FOR A GAS TURBINE WITH A BLADE FOOT PROTECTIVE PLATE HAVING A SEALING SECTION

Abstract

A rotor blade system includes a blade root, a blade neck adjoining the blade root, an airfoil adjoining the blade neck, a radially outer partition wall, an axially forward partition wall and an axially rearward partition wall, connected to the radially outer partition wall such that the partition walls surround the blade neck on three sides, the partition walls projecting beyond the blade neck in the circumferential direction, and further including a blade root protection plate designed to be arranged on the blade root. It is provided that the blade root protection plate have at least one sealing portion that extends in the axial direction from the forward partition wall to the rearward partition wall and whose radially outer side is disposed opposite the radially outer partition wall when the blade root protection plate is arranged on the blade root.

Claims

1-8. (canceled)

9: A system with a rotor blade for a gas turbine, the system comprising: a blade root; a blade neck adjoining the blade root in a radial direction; an airfoil adjoining the blade neck in the radial direction; a radially outer partition wall forming a radially inner boundary segment of an annular space of a gas turbine; an axially forward partition wall and an axially rearward partition wall connected to the radially outer partition wall such that the axially forward, axially rearward and radially outer partition walls surround the blade neck on three sides, the axially forward, axially rearward and radially outer partition walls projecting beyond the blade neck in the circumferential direction; and a blade root protection plate designed to be arranged on the blade root and having at least one sealing portion extending in the axial direction from the forward partition wall to the rearward partition wall and having a radially outer side disposed opposite the radially outer partition wall when the blade root protection plate is arranged on the blade root.

10: The system as recited in claim 9 wherein the axially forward, axially rearward and radially outer partition walls and the blade neck form a radially downwardly open pocket, and in that when the blade root protection plate is arranged on the blade root, the pocket is radially downwardly closed by the sealing portion at least partially.

11: The system as recited in claim 9 wherein the axially forward, axially rearward and radially outer partition walls and the blade neck form a radially downwardly open pocket, and in that when the blade root protection plate is arranged on the blade root, the pocket is radially downwardly closed completely by the sealing portion.

12: The system as recited in claim 9 wherein when the system is in an assembled state, the sealing portion bridges a space formed between a projecting portion of the axially forward partition wall and a projecting portion of the axially rearward partition wall.

13: The system as recited in claim 9 wherein the radially outer partition wall, the axially forward partition wall, the axially rearward partition wall, and the sealing portion of the blade root protection plate form a box-like profile surrounding the blade neck (44).

14: The system as recited in claim 9 wherein the sealing portion has a same length as the blade root in the axial direction.

15: The system as recited in claim 9 wherein the sealing portion has at least one corrugation formed along the axial direction or along the circumferential direction.

16: The system as recited in claim 9 wherein the sealing portion has at least one corrugation formed along the axial direction.

17: A rotor blade disk comprising a plurality of rotor blade slots arranged adjacent one another in the circumferential direction, each having inserted therein a blade root of a respective rotor blade of the system as recited in claim 9, and further comprising a plurality of disk humps formed between the rotor blade slots, the sealing portion of the blade root protection plate being disposed with a radially inner side opposite a radially outer side of a respective disk hump.

18: A turbine stage of a gas turbine comprising the rotor blade disk as recited in claim 17.

19: A gas turbine comprising the rotor blade disk as recited in claim 17.

20: An aircraft gas turbine comprising the gas turbine as recited in claim 19.

21: An aircraft gas turbine comprising the system as recited in claim 9.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] The invention will now be described by way of example, and not by way of limitation, with reference to the accompanying drawings.

[0016] FIG. 1 is a simplified schematic representation of an aircraft gas turbine;

[0017] FIG. 2 is a simplified and schematic perspective view of a rotor blade with a blade root protection plate;

[0018] FIG. 3 is a sectional view taken substantially along line III-III of FIG. 2;

[0019] FIG. 4 is a sectional view similar to FIG. 3, where a corrugation is formed in a sealing portion of the blade root protection plate.

DETAILED DESCRIPTION

[0020] FIG. 1 shows, in simplified schematic form, an aircraft gas turbine 10, illustrated, merely by way of example, as a turbofan engine. Gas turbine 10 includes a fan 12 surrounded by a schematically indicated casing 14. Disposed downstream of fan 12 in the axial direction AR of gas turbine 10 is a compressor 16 that is accommodated in a schematically indicated inner casing 18 and may be single-stage or multi-stage. Disposed downstream of compressor 16 is combustor 20. The flow of hot exhaust gas exiting the combustor then flows through the downstream turbine 22, which may be single-stage or multi-stage. In the present example, turbine 22 includes a high-pressure turbine 24 and a low-pressure turbine 26. A hollow shaft 28 connects high-pressure turbine 24 to compressor 16, in particular a high-pressure compressor 29, so that they are jointly driven or rotated. Another shaft 30 located further inward in the radial direction RR of the turbine connects low-pressure turbine 26 to fan 12 and to a low-pressure compressor 32 so that they are jointly driven or rotated. Disposed downstream of turbine 22 is an exhaust nozzle 33, which is only schematically indicated here.

[0021] In the illustrated example of an aircraft gas turbine 10, a turbine center frame 34 is disposed between high-pressure turbine 24 and low-pressure turbine 26 and extends around shafts 28, 30. Hot exhaust gases from high-pressure turbine 24 flow through turbine center frame 34 in its radially outer region 36. The hot exhaust gas then flows into an annular space 38 of low-pressure turbine 26. Compressors 29, 32 and turbines 24, 26 are represented, by way of example, by rotor blade rings 27. For the sake of clarity, the usually present stator vane rings 31 are shown, by way of example, only for compressor 32.

[0022] The following description of an embodiment of the invention relates in particular to the rotor blades that may be used in a rotor blade ring 27 of compressor 16 or of turbine 22.

[0023] FIG. 2 shows a simplified and schematic perspective view of a rotor blade 40 for a system according to the invention. Rotor blade 40 includes a blade root 42. Blade root 42 is here formed, by way of example, with so-called fir-tree shape. In the radial direction RR, blade root 42 is adjoined by a blade neck 44. Blade neck 44 merges into airfoil 46.

[0024] Rotor blade 40 further includes a radially outer partition wall 48 disposed between airfoil 46 and blade neck 44. Radially outer side 50 of partition wall 48 forms part of an annular space of a gas turbine when blade 40 is installed in its intended position in a gas turbine. Rotor blade 40 further includes an axially forward partition wall 52 and an axially rearward partition wall 54. Axially forward partition wall 52 and the axially rearward partition wall 54 are connected to, in particular integrally formed with, radially outer partition wall 48. As can be seen from FIG. 2, partition walls 48, 52, 54 surround blade neck 44 on three sides. A forward shroud portion 56 and a rearward shroud portion 56 may each be connected to a respective one of partition walls 52, 54.

[0025] A blade root protection plate 60 is disposed along blade root 42, in particular along the outer contour thereof. Blade root protection plate 60 includes a sealing portion 62 in the radially outer region. Sealing portion 62 extends in the axial direction AR from forward partition wall 52 to rearward partition wall 54. In particular, sealing portion 62 bridges a space ZR formed between forward partition wall 52 and rearward partition wall 54. The sealing portion is in particular dimensioned such that it bridges the space ZR formed between a projecting portion 52a of axially forward partition wall 52 and a projecting portion 54a of axially rearward partition wall 54. Portions 52a, 52 project in the circumferential direction UR beyond blade neck 44. A radially outer side 62a of sealing portion 62 is disposed in the radial direction RR opposite the radially outer partition wall 48.

[0026] FIG. 3 shows a simplified and schematic sectional view taken substantially along line III-III of FIG. 2, depicting blade root 42 received in a blade root slot 64 of a rotor blade disk 66. Rotor blade disk 66 typically includes a plurality of rotor blades 40 arranged adjacent one another in the circumferential direction UR. Each blade root 42 is received between two adjacent disk humps 68 of rotor blade disk 66.

[0027] Also shown in FIG. 3 is the blade root protection plate 60, which is shown in simplified form as a thick black line. Blade root protection plate 60 includes the sealing portion 62 in the radially outer region. Sealing portion 62 is disposed opposite a respective radially outer surface 70 of a respective disk hump 68. In particular, sealing portion 62 covers the respective disk hump 68 at least partially. In the axial direction, a portion of rearward partition wall 54 can also be seen.

[0028] When FIGS. 2 and 3 are viewed together, it can be seen that partition walls 48, 52, 56 and sealing portion 62 together form a kind of box-shaped profile that surrounds or encloses blade neck 44. Sealing portion 62 may have an axial length substantially equal to the axial length of blade root 42. In other words, it may be said that partition walls (48, 52, 54) and blade neck (44) form a radially downwardly open pocket, and that when blade root protection plate (60) is arranged on blade root (42), the pocket is radially downwardly closed by sealing portion (62) at least partially, in particular completely.

[0029] FIG. 4 is a sectional view similar to FIG. 3 but of a further embodiment. Therefore, in FIG. 4, the same reference numerals are shown as in FIG. 3, even if these are not described again with reference to FIG. 4. FIG. 4 shows an exemplary embodiment where sealing portion 62 has formed therein a corrugation 72 that extends along the axial direction. Sealing section 62 may have not only one corrugation 72 formed therein. It is also possible, for example, that a plurality of corrugations may be formed which extend parallel or transversely to one another. In particular, it is also possible to provide a plurality of corrugations running in the circumferential direction UR and arranged substantially parallel and adjacent to one another along the axial direction. The formation of one or more corrugation(s) 72 serves in particular to stiffen and stabilize sealing portion 62, which is made as part of blade root protection plate 60 from a relatively thin sheet metal material.

LIST OF REFERENCE NUMERALS

[0030] 10 aircraft gas turbine [0031] 12 fan [0032] 14 casing [0033] 16 compressor [0034] 18 inner casing [0035] 20 combustor [0036] 22 turbine [0037] 24 high-pressure turbine [0038] 26 low-pressure turbine [0039] 27 rotor blade ring [0040] 28 hollow shaft [0041] 29 high-pressure compressor [0042] 30 shaft [0043] 31 stator vane ring [0044] 32 low-pressure compressor [0045] 33 exhaust nozzle [0046] 34 turbine center frame [0047] 36 radially outer region [0048] 38 annular space [0049] 40 rotor blade [0050] 42 blade root [0051] 44 blade neck [0052] 46 airfoil [0053] 48 radially outer partition wall [0054] 50 radially outer side of the partition wall [0055] 52 axially forward partition wall [0056] 52a projecting portion [0057] 54 axially rearward partition wall [0058] 54a projecting portion [0059] 56 forward shroud portion [0060] 58 rearward shroud portion [0061] 60 blade root protection plate [0062] 62 sealing portion [0063] 62a radially outer side [0064] 64 blade root slot [0065] 66 rotor blade disk [0066] 68 disk hump [0067] 70 radially outer surface of the disk hump [0068] 72 corrugation