DE2260944A1 - HOLLOW BUCKET FOR GAS TURBINE ENGINES - Google Patents

Description

PATR XTANWA HOJ I.T E. U DIPL. ING. U. SHK !; " ft
.JJLJ 89 A UU O SB 14th τ » -WKJ HAS

W. 598

Augsburg, December 5, 1972

Rolls-Royce (1971) Limited, 14-15 Conduit titreet, London, WlA 4EY, .ingland

Hollow blade for gas turbine engines

The invention relates to hollow blades for gas turbine engines., especially blades.

It is known that it is advantageous to cool the rotor blades of a gas turbine, and various possibilities for this are already known. In particular, it is known to direct a flow of cooling air through the interior of the blade. the

309825 /. 0: 366,

BATH ORIGINAL

Effectiveness of this cooling does not depend solely on the
Flow rate and the flow rate of the cooling air, but also on the intensity of the contact of the cooling air with the surfaces to be cooled.

The aim of the invention is to achieve the object of designing a hollow blade in such a way that effective cooling of the
Blade outer surfaces is possible.

In order to achieve this object, a hollow blade for gas turbine engines according to the invention is characterized in that the two inner walls, which are located opposite one another, have a wave-like running between them
Form KUhlluftkanal which alternately guides the cooling air to the two inner walls of the blades.

such a shovel is unlike known
Arrangements in which the cooling air flow sweeps over the surfaces to be cooled, cooled by the impact of the cooling air flow on the inner surfaces of the curved blade walls. In addition, careful cooling of the surfaces of the inner ribs or protrusions that form the cooling air duct is achieved.

For production, it is advantageous that the inner
Walls or projections that form the cooling air duct,

BATH ORIGINAL 309825/0366

not completely between the curved inner vane surfaces extend through the vane cavity.

Some preferred embodiments of the invention will be below with reference to the accompanying drawings, for example, described. Show it;

Fig. 1 shows a according to the section line B-B

in Fig. 2 extending longitudinal section through a typical gas turbine blade,

Fig. 2 "one in the one marked in FIG

neten plane A-A lying cross section of the blade shown in Fig. 1,

5a shows one according to the section line B-B

in Fig. 2 running section through a shovel according to the invention,

Fig. 3b shows one according to the section line C-C

in Fig. 1 extending section through the blade shown in Fig. ^ a,

the figures are sections similar to FIGS. 1 a and 5b

4a and 4b of a further embodiment

9825/0366

2260 9 A A

a turbine blade after the

Invention,

the figures are also similar to Figs. j5a and *> h-

5a and 5b borrowed sections of a third excerpt

embodiment of the invention, and

Fig. 6 shows a according to the section line C-C

in Fig. 1 extending longitudinal section of a fourth embodiment of Invention.

According to FIGS. 1 and 2, a turbine blade has an airfoil cross section 10 with a leading edge 11 and a trailing edge 12. The blade is generally hollow and becomes in the direction of arrow I ^ from the blade root 14 to Cooling air flows through the blade head 15. The one shown The shovel is cast in one piece and the shovel hoJiiraurn is formed by using a ceramic core that has been detached after the casting process. This core allows training inner walls and / or protrusions useful for both reinforcement purposes and for directing air flow are. These protrusions protrude from the inner surfaces 16 and the curved blade walls into the blade cavity.

A first embodiment of the invention is schematic

BAO ORIGINAL

309825 / 03GG

shown in Figs. 3a and 3b. Alternating in the longitudinal direction of the vane, the vane inner walls 16 and 17 each have ribs formed integrally with the same and extending from the vane front edge 11 to the vane rear edge 12. However, none of these ribs extends Aich l8 üoer the whole width between the two üchaufelinnenwandungeη of time, but starting from the ribs 16 Wnndung exiden shortly before the wall IJ and vice versa, as shown in FIG. 3 ^D. The air stream flowing through the blade is therefore forced to take a wave-like iguti path and alternately hits first one and then the other inner surface of the blade. These changes in direction of the cooling air flow support the cooling by ensuring that the air effectively absorbs heat from the surfaces to be cooled. In addition, "the ribs 18 heat from the üchaufelwaiuuirigen to kiiiileruiun derive and provide additional heat exchange! ¹ is laugh.

Hei a second, in the B'ig. 4a and 4b illustrated embodiment of a blade according to the invention, similar ribs 18 are provided, which, however, run inclined here. The inclination is chosen so that the cooling air flow is deflected towards the front edge 11 of the heap. This is advantageous cl ^ci particular Sohaufelvorderkarite must be cooled, because this design provides a concentration of Kiihi air current to the ^one .lohaui'e! .Vorderkante safe.

3 (J 4 H? 5 / U Π ß ß ■

BATH ORIGINAL

Kine particularly good overall cooling is achieved by ^l in Fig. Ja ^ b and shown embodiment. In this embodiment, the ribs 20 and 21 of the mutually opposite shovel inner walls 16 and 17 are inclined in opposite directions. As a result, the flow path of the cooling air is particularly twisted and there is good heat exchange between the hot surfaces and the cooling air.

FIG. 6 shows a modification of that in FIGS. J5a and j5b Shown embodiment shown. The ribs are here wave-shaped, whereby the sacks between the RLppen 18 and the associated blade walls avoided will. These corners tend to form standing air spaces, which not only do not carry away the absorbed heat, but also prevent the flow of fresh cooling air to the surfaces they cover. In the Fig. 6 shown embodiment has this disadvantage not on.

Apart from the cooling effect achieved by the described blades according to the invention, at least the embodiments of FIGS. 5a, 5b, 4a and hb have a further advantage with regard to production. As already mentioned, the display cavity is made by casting with the aid of a hollow ceramic core; manufactured. The core is made using two ¹ combustible die halves.

- ö - BAD ORIGINAL .1 ü 9 ü? 5/0 3 C 6

Up to now it has been customary for turbine blades · !! To provide projections which extend between the blade walls 16 and 17 transversely through the whole of the bucket cavity. For this purpose, a core is required which has completely continuous openings, which in turn requires casting mold halves with projections that meet exactly in the parting plane. ¹ SIn such a precise succession pushing the projections of the two mold halves often is difficult, and it is therefore an advantage that this is not necessary in the illustrated embodiments herein.

However, the manufacture of the blades described above is not limited to casting.

- 7 309 8 2B / 036G

0ADORiGJNAt

Claims (1)

Pat ent's sayings: Denotes e in that the two iiich opposite blade inner wall uiige η (16, 17) form between them a wave extending KUhJ air channel (I3), v hich the cooling air hinleitet / alternately to the two Schaufelinnenwandungen; 1 .JHohlschaufel for gas turbine engines, characterized _t " . 2. uchaufel according to claim 1, characterized in that the cooling air duct (Γ5) extends from the radially inner blade end (1 ^) to the radially outer blade end (I5). 3. Shovel according to claim 1 or 2, characterized in that that the cooling air duct (I3) is formed by ribs (l8) of the inner vane walls (16, 17) to be swept by the cooling air H. Blade according to claim 3 »characterized in that the ribs (l8) protruding into the cooling air duct (Ij3) run from the blade leading edge (11) to the blade trailing edge (Ic ¹ ) . 3. Shovel according to claim 4, characterized in that the ribs (18) inclined with respect to the blade direction get lost. BATH ORIGINAL 30n3? 5 / 03ßC 6. shovel according to claim 4 or 5, characterized in that that the inner walls of the blades (16, 17) have a wavy profile running transversely to the ribs (18). 7. A shovel according to claim 4 or 5, characterized in that the inner walls of the blades (16, 17) are a Have profile with rectangular ribs (18) and rectangular spaces. , 8. A shovel according to one of claims k to 7 *, characterized in that the ribs (18) extend further than half the clear width between the inner vane walls (16, 17) into the sciiaufel cavity. 9. Shovel according to claim ¹ , characterized in that the ribs (18) extend exactly over half the clear width between the inner vane walls (16, 17) into the vane cavity and that the ribs of one inner vane wall (Ib) and the Ribs of the other inner wall (Vi) ^r /, inclined over one another in opposite directions ü ind. 3 t) ⁽ l H? 5 / CJ JC 6 BATH ΐ * ν ; 40 Blank page