KR820000591B1 - Torbo machine - Google Patents

Abstract

The high temperature axial flow turbine has a rotor(6) & a stator casing(13). The stator has internal walls(1-5) which are split on a diameter. They are clamped axially & radially by surrounding rings(7-11) which fit inside the stator casing & are held together by axial bolts(12). The outer periphery of the internal walls(1-5) is machined down over sections of its circumference so that it is in contact with the inner surface of the clamping ring(7-11) ! over the remaining sections only. This allows differential thermal expansion between the walls & the rings without high stresses on them.

Description

Turbo machine

1 is an axial sectional view of a turbine according to the present invention.

2 is a sectional view taken along the line II-II of FIG.

3 is a cross-sectional view of another example.

4 and 5 are detailed cross-sectional views of FIG.

The present invention consists of a rotor and a stator, the stator comprising a plurality of compartments with a fixed housing and guide vanes and an axial flow turbine machine.

In this kind of machine, the stator should be mounted around the rotor to achieve a compact and safe structure that can thermally expand the heated part.

According to the invention, a turbo machine of this kind divides the partition into two parts, the partition being mounted by a ring mounted axially above these partitions and fastened together to guide the partition in axial and radial directions. At the same time, the periphery of the bulkhead is radially supported for each ring only in a plurality of circumferentially spaced areas. The present invention is particularly important for turbines of the type in which the stator bulkheads are simultaneously installed in one existing package equipped as one unit mounted in the stator body.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The present invention will now be described in detail with reference to the accompanying drawings.

The machine shown in Figs. 1 and 2 consists of a rotor 6 and a stator body 13, which forms a bearing for the rotor at its right end (see Fig. 1). The end wall 23 which forms the 2nd bearing for rotors in the body 13 is provided in the left edge part.

The stator consists of a number of bulkheads 1 to 5 with guide vanes 22 for rotor blades 21. These partitions are divided into two parts a and b and simultaneously supported by rings 7-11 mounted axially above the partition. In order to safely guide the partition despite the different thermal expansion of the ring and the bulkhead, the periphery of the partition is partly polished so that only a limited portion 15, as in FIG. 2, contacts the inside of the ring. The bulkhead is secured against rotation of the ring with radial dowels (not shown) or the like.

In order to guide the rings 7-11 mutually, a projection corresponding to the curved recesses 16 and 17 is provided here. In the same way, the rings 7 to 11 are provided with radial cavities for partition walls so that they are fixed axially when the rings are fastened to the bolts 12 simultaneously. The package and the partition of the ring terminate at the right end in an additional ring 24 that secures the partition within the cavity in ring 7.

Since a flange is formed on the left ring 11, the package can be fastened to the stator body 13 by bolts 20. The right end of the package is centered on the ring 24 by providing the required portions (at least three) for the mounting piece or the sliding shoe 19 solidified in the body by a bolt or pin 18 adjusted to the ring 24. Implantation allows for axial and radial expansion of the stator package against temperature changes without losing center.

3 through 5 illustrate another example principle of coordinating a partition and a ring. 3 is a cross section of partition walls 1 and 2 to which rings 7 and 8 are coupled. Between the partitions are the center spacing rings 25 and 26 which are guided in the pores in the partitions and the surrounding ring.

In order to guide the outer rings 7-11, three or more radial pins 27 are mounted in the union between the rings around the periphery of the ring as shown in FIGS. 3 and 4. In particular for large turbines, this principle is preferred instead of providing the bend request portion and edge portions 16 and 17 according to FIG.

Key 28 may be used to guide the partition within the other ring as shown in FIGS. 3 and 5. In this case, it is also suitable for a large diameter than having the part 15 according to FIG. The termination ring 24 'is guided by the radial stud bolt 29.

Claims (1)

In an axial turbo machine consisting of a rotor (6) and a stator, the stator body (13) and a plurality of partitions (5-11) with guide blades (22), the partition having two parts divided into (a, b) and supported simultaneously by a ring (7-11) mounted axially on top of the dividing wall and fastened at the same time to guide the partition in the axial and radial directions. Turbo machine, characterized in that it supports radially with respect to each ring only the circumferentially spaced sections of the ring.

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