EP3032036A1 - Single-piece adapter for the rotor of a thermal fluid flow engine and method for balancing a rotor of a thermal fluid flow engine - Google Patents

Abstract

The invention relates to a one-piece intermediate piece (16) for a rotor of a thermal turbomachine, comprising in succession a cover region (32) for covering a part of the opening of the circumferential groove receiving the intermediate piece (16), a web region (34) and a hook region (36), which can be applied to undercuts of the circumferential groove and a method for balancing a rotor of a thermal turbomachine with the usual steps. In order to reduce the load on the rotor disks (10) of the rotor and to provide a simple method for fixing balancing weights, it is proposed that the intermediate piece (16) comprises a threaded hole (30) for receiving and / or fixing a balancing weight, the said Attaching the balancing weights can be done on or in an intermediate piece (30).

Description

The invention relates to a one-piece intermediate piece for a rotor of a thermal turbomachine, comprising successively a Abdeckdeckbereich for covering a part of the opening of the intermediate piece receiving circumferential groove of the rotor, a land portion and a hook portion which can be applied to undercuts of the circumferential groove. The invention further relates to a method for balancing a rotor of a thermal turbomachine, comprising the steps: a) providing a rotor comprising a circumferential groove with blades and intermediate pieces arranged alternately therein, b) spinning the rotor to detect an imbalance and determining a position for a mounting Balancing weight and c) attaching the balancing weight to the rotor.

Gas turbines or even compressors are known as thermal turbomachines, which are designed in an axial design. After assembly of the rotor any tolerance-related imbalances are detected by means of a spin operation and compensated by the addition of balancing weights. For this purpose, it is known that balancing weights are inserted and fastened in slots on the end faces of the rotor disks of the rotor. However, this procedure is comparatively complicated and the accessibility of this groove only limited.

It is also known that such rotors on their shell-side surface can also have holes distributed over the circumference in which balancing weights can be arranged on the rotor for balancing the faulty mass distribution. However, in order to be able to provide these at said position, the so-called wheel disc head, which the outer end of the wheel discs forms, be increased accordingly by the presence of otherwise unnecessary material. The then not equipped with balancing weights holes must be closed by additional components aerodynamic or remain open. The latter lead to disturbance of the flow in the flow channel.

The object of the invention is therefore to provide a method for balancing a rotor of a thermal turbomachine, in which the attachment of the balancing weights can be done comparatively easily and reliably. Another object of the invention is to provide a corresponding rotor.

The objects directed to the invention are achieved by a one-piece adapter for a rotor of a thermal turbomachine according to claim 1 and by a method for balancing a rotor of a thermal turbomachine according to claim 4. Further advantageous embodiments are specified in the respective subclaims, which can be combined with each other according to the referenced references.

According to the invention it is provided that a one-piece and thus joint-free intermediate piece for a rotor of a thermal turbomachine successively a cover for covering a portion of the opening of the intermediate piece receiving circumferential groove of the rotor, a web portion and a hook portion which can be applied to undercuts of the circumferential groove and a to Including receiving and / or attachment of a balance weight threaded hole provided.

The method relating to balancing a rotor of a thermal turbomachine comprises attaching the balancing weight to or in one of the intermediate pieces of a blade ring of the rotor of the thermal fluid machine.

Consequently, nothing else is proposed than to place the balancing weights in already existing components such as the intermediate pieces.

This leads to the advantages that the wheel disc head, in which the balance holes were previously provided, can be made smaller, thereby reducing the load on the wheel disc during operation. This results in a lower cost wheel disc with extended life.

According to a further advantageous refinement, the threaded hole is arranged in a surface of the covering area provided as a flow path delimitation and extends in the direction of the hook area as a blind hole or through-hole. In this case, balancing weights can be screwed directly into the intermediate piece without further processing of the intermediate piece, after which its external shape possibly prevents the loss of the screwed balancing weight by caulking.

Additionally or alternatively, according to a further advantageous embodiment, the threaded hole can be arranged in a surface of the hook region and extend in the direction of the covering region as a blind hole. In this case, after the balancing still empty threaded holes are covered by themselves and therefore do not have to be closed by appropriate covers as in the first embodiment. Only when it turns out that a balance weight is to be placed at a defined position, the blind hole can be drilled from the outside. A cutting of the thread for attaching the balance weight is then not required because a corresponding is already present. Then the balancing weight can be screwed in and secured with suitable measures against loss. Thus, the unoccupied threaded holes remain streamlined.

Further advantages are the simple production of the required threaded holes during the production of the intermediate pieces. In addition, the threaded holes further reduce the mass of the components and thus minimize the load on the wheel disc during the intended use of the rotor or the thermal fluid machine. Next, a uniform / symmetrical load of the wheel disc can be achieved.

Overall, the invention relates to a one-piece adapter for a rotor of a thermal turbomachine, comprising successively a covering portion for covering a part of the opening of the intermediate piece receiving circumferential groove of the rotor, a land portion and a hook portion which can be applied to undercuts of the circumferential groove and a method for balancing a rotor of a thermal fluid machine with the usual steps. In order to reduce the load on the rotor disks of the rotor and to provide a simple method for fixing balancing weights, it is proposed that the intermediate piece comprises a threaded hole provided for receiving and / or fixing a balancing weight, wherein the balancing weights are attached to or in an intermediate piece can.

Figur 1

ein Zwischenstück in einer perspektivischen Ansicht gemäß eines ersten Ausführungsbeispiels zeigt,

Figur 2

ein Zwischenstück gemäß eines zweiten Ausführungsbeispiels zeigt und

Figur 3

einen Ausschnitt auf die Draufsicht eines Rotors einer thermischen Strömungsmaschine im Bereich eines Schaufelkranzes.

Hereinafter, an embodiment of a blade assembly according to the invention will be explained in more detail with reference to the accompanying drawings, in which

FIG. 1

shows an intermediate piece in a perspective view according to a first embodiment,

FIG. 2

shows an intermediate piece according to a second embodiment and

FIG. 3

a detail of the top view of a rotor of a thermal turbomachine in the region of a blade ring.

In all figures, identical features are provided with the same reference numerals.

FIG. 3 shows the top view of a rotor disk 10, which is part of a not further illustrated rotor of a thermal fluid machine. In the illustrated embodiment, it is a compressor rotor disk, so that it is an axial compressor in the thermal fluid machine, which may be part of a gas turbine, for example. The rotor disk 10 has a circumferential groove 12 running along the circumference U, in which rotor blades 14 and intermediate pieces 16 are arranged alternately. Of the blades 14 of the blade ring only two copies are shown and arranged between them spacer 16. The blades 14 are in a known manner from the outside in succession, an airfoil 18, a platform 20 and a blade not shown on the hammer-shaped or can be designed dovetailed. In the illustrated embodiment, the blade root is designed hammer-shaped. The blades 18 and the intermediate pieces 16 are positively seated with their feet or hook areas in the circumferential groove 12 and engage behind there on the side walls 22 of the circumferential groove 12 provided undercuts 24 in a known manner. A rotation axis about which the rotor disk 10 and thus the blade ring rotates is designated by the reference numeral 11. The lying in the plane of the drawing surface 26 of the rotor disk 10 is steplessly in the surfaces 28 of the platforms 14 and the intermediate pieces 16 via. These limit the hub side, the flow channel of the thermal turbomachine. In the surface 28 of the intermediate piece 16, a threaded hole 30 is provided, which is provided for receiving and / or attachment of a balancing weight not shown.

FIG. 1 shows the perspective view of the intermediate piece 16 according to the in FIG. 3 shown embodiment. The intermediate piece 16 comprises a covering area in succession 32 for covering a part of the opening of the intermediate piece 16 receiving circumferential groove 12 of the rotor (not shown), a land portion 34 and a hook portion 36, wherein the hook portion of undercuts 24 of the circumferential groove (not shown) can be applied. The threaded hole 30 is arranged in the surface 28 of the intermediate piece 16 provided as a flow path delimitation and formed as a blind hole.

FIG. 2 shows an alternative embodiment of the intermediate piece 16, which at the location of in FIG. 3 shown intermediate piece 16 can be used. In this embodiment, although the threaded hole 30 is again formed as a blind hole, but this extends from a surface 40 of the hook portion through the web portion into the cover portion 32 into, but without to open in the surface 28. Although the use of this intermediate piece 16 in the rotor of the thermal turbomachine, a further step is required to make accessible for fastening the balance weight threaded hole 30 accessible from the flow path of the thermal fluid machine, but this embodiment has the advantage that unused threaded holes 30 not must be closed by any caps. This avoids low flow resistances for the medium flowing through the flow path of the thermal fluid machine through non-closed threaded holes 30.

Although the invention has been further illustrated and described in detail by the preferred embodiments, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

Claims (6)

One-piece intermediate piece (16) for a rotor of a thermal turbomachine,
comprising successively a cover region (32) for covering a part of the opening of the peripheral groove receiving the intermediate piece (16), a web region (34) and a hook region (36) which can be applied to undercuts of the circumferential groove,
characterized,
that the intermediate piece (16) includes a valve provided for receiving and / or securing a balance weight threaded hole (30). Intermediate piece (16) according to claim 1,
in which the threaded hole (30) is arranged in a surface (28) of the covering area (32) provided as a flow path delimitation, extends in the direction of the hook area (36) and is formed as a blind hole or through-hole. Intermediate piece (16) according to claim 1,
wherein the threaded hole (30) is disposed in a surface of the hook portion, extends toward the cover portion, and is formed as a blind hole. Method for balancing a rotor of a thermal turbomachine, comprising the steps: a) providing a rotor comprising a circumferential groove (12) with blades (18) and intermediate pieces (16) arranged alternately therein, b) spinning the rotor to detect an imbalance and determining a position for a balance weight to be attached and c) attaching the balancing weight to or in one of the intermediate pieces. Method according to claim 4,
in which between step b) and c) the relevant intermediate piece (16) is partially drilled. Method according to claim 4 or 5,
in which the intermediate piece according to one of claims 1 to 3 is formed.

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