CZ10996U1 - Bearing stand - Google Patents

Description

Bearing stand

Technical field

The technical solution concerns a central bearing stand of a combustion turbine, in particular a GT 750-6 type combustion turbine.

BACKGROUND OF THE INVENTION

The GT 750-6 combustion turbine consists of a high-pressure and a low-pressure section. Each of these parts has its own rotor. The high pressure rotor comprises a compressor part and a turbine part. The low pressure rotor consists of a free turbine, which is connected to the gas compressor rotor via an intermediate shaft. Each of the two turbine rotors is located in two bearings. The high pressure has a front bearing 10 in a front bearing stand located on the suction side of the compressor. The rear bearing is in the so-called middle bearing rack, located between the outlet part of the air compressor and the inlet part of the turbine casing. The low pressure turbine has both bearings in a separate stand located in the outlet port of the low pressure turbine.

In the known solution, the lower half of the central bearing rack, which forms the support for the rear bearing of the high pressure turbine, is tightly screwed between the lower part of the turbine housing and the compressor, and forms a rigid assembly therewith. The bearing housing itself is connected to the outer wall of the assembly by poured ribs. The bearing stand and the bearing therein are thus firmly connected to the bottom of the turbine housing and the compressor. Turning on the turbine after any revision in which the position of the housing rotor and their lip seals has been carefully leveled, the turbine and compressor housings are unevenly heated by pulling down the bearing rack housing through the cast ribs. There will be a relative displacement between the bearing and the box seal, then the contact in the seal and damage to the lip seals will cause the work of alignment during revision to be practically wasted.

The aim of the technical solution is to introduce a bearing stand which, despite the temperature increase, would allow simultaneous dilatation of both the storage turbine and the bearing and thus avoid damage to the lip seals.

The essence of the technical solution

The above-mentioned drawbacks are largely eliminated by a bearing with a bearing stand according to the technical solution, which is based on the fact that the bearing stand is suspended on the lower surface of the supports mounted in the separation plane of the turbine casing.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic front view, and FIG. 3 is a view of a gland for receiving a turbine gland located near the bearing.

Example of technical solution

The bearing Γ according to the prior art is shown in FIG. It will be appreciated that the bearing stand 2 'of the bearing is rigidly connected to the bottom of the larger rib housing 4. Other profile locations are also part of the housing. In the context of the present solution, the seal point 6 for the turbine seal 5 is important. This seal point 6 is shown in Fig. 3 and, as already mentioned, is located near the bearing i. 4

- 1 GB 10996 U1 sinks and pulls the bearing sebou with it, as indicated by dashed outlines. Thus, at the seal point 6, which remains stable, the turbine axis is reduced by Δ and the bottom level of the seal 5 is also reduced by Δ, which forces the seal 5 to the circumference of the seal point 6 and damages the seals 5.

Fig. 2 shows the arrangement of the bearing 1 according to the technical solution, where the bearing stand 2 is not supported and attached to supports 3 fixedly connected to the housing 4. This arrangement of the bearing 1 enables to position the turbine housing 4 concentrically with respect to the turbine seal 5 . This solution ensures the concentration of the bearing 1 and the seal 5 during the whole operation and prevents their undesirable mutual movement. As can be seen from the dashed outlines, only the housing 4 descends.

Industrial applicability

The bearing with the bearing stand can be used especially for the bearing of the GT 750-6 combustion turbine used eg in transit gas pipelines. It will allow safe operation, which has been experimentally verified.

Claims (1)

15 PROTECTION REQUIREMENTS A bearing stand (2) for a combustion turbine bearing, characterized in that it is suspended on the lower surface of the supports (3) mounted in the separation plane of the turbine housing (4).