DE1286810B - Rotor blade radial gap cover ring of an axial turbine machine, in particular a gas turbine - Google Patents

Description

The invention relates to a blade outer diameter of the first or single stage radial gap cover ring of an axial turbo machine, -; ■■ is at least / 2Q00 rom ,.

In the drawing, in Fig.l and 2 is an embodiment the device according to the invention in such an axial gas turbine in the machine longitudinal section and shown in a machine cross-section I-I.

The guide vanes 11 sit in a turbine housing part 12, which is connected to a turbine housing part 13

in particular gas turbine, which is divided into segments
is that in an annular groove of the housing, by changing the pressure of a on the outer circumference of the
Hydraulic means act against the segments
Are mounted radially displaceable force of a spring.
In a known radial gap seal of this type,
In the case of a labyrinth stuffing box for steam or gas turbines, each segment is screwed together by means of an axial bolt 14. In a ring radially on the outside firmly located on it approach in the groove 15 of the turbine housing part 12, a cover-Slopfbüchsengehäuse is mounted so as to slide radially, with ι ring provided, 'the one radial gap 17 of the Laufdei approach radially outside one by a spring ⁽ ' schaufehl Iff 'radial' limited on the outside and firmly loaded into segments, which is subdivided into a line, which follow one another in the circumferential direction 24 on the inside of the stuffing box housing 15. The segments 16 are located in the ring groove cylinder and are radially sealed on both sides with 15 can be moved

between them and the two ring groove side walls 18 and 19 annular, coaxial sealing rings may be provided. The segments 16 have annular ribs 47 ao the same outside diameter as a stop.

Between the segments 16 · and the base 20 of the Rmgnutl5..is: a ring space21 exists, see above that the segments 16, "which penetrates radially in Fig.l, are both attached to this housing and are shown in the innermost position, radially outwards is radially adjustable. Also called a ring can be moved.

space available. However, there are no changeability.

the pressure of a hydraulic medium in the ring works, the following means are provided: space and no spring available.

The object of the invention is to design a device mentioned at the beginning with little effort.

different pressures of a hydraulic medium can be acted upon. But with this stuffing box the normal position of the segments cannot be changed.

Furthermore, a radial blade gap seal by means of a cover ring is known, in which each segment by means of a radial screw screwed into the segment, which penetrates the machine housing

1. two at least approximately mutually parallel radial angles; 22 and. 23 on every segment

_(to build up that the normal position of the segmentsjjl ^ h ^^ mejitJLö. (compress Fi g..2jj die jnjümfangsrich-

the smallest "size" of the radial gap belonging to normal operation of the machine: can. · _. ,; 35.

According to the invention, use is also made a screw element in order to be able to adjust the segments radially, but for the purpose of solving the aforementioned Task in combination with the changeability of the mentioned pressure in the annulus and with the feather.

As a solution to the. · Mentioned problem, according to. ' the invention proposed that 'each segment' fixed radially on the outside with at least one radial bolt connected by a slightly larger one Breakthrough, e.g. B. a bore (25), the housing (12) and the radially outside of this a nut (26), and that the spring (46) is arranged between the nut and the housing. Will the Screws turned, then isomit the said 50. Normal division of the segments changed. The solution mentioned is_ not very complex, since only bolts_ and nuts are necessary.

Appropriate · ,; graze ;! .two, ..approximately .. JMr :: · .- '; ^ -. used parallel radial bolts following one another in the circumferential direction and the spring as formed in the circumferential direction Hegende elongated leaf spring. It is also advantageous if between the Radial bolt and the breakthrough a space is available, which the annulus with a radial located outside the fixed part, connects with the hydraulic medium-filled space. Thus there are no special connecting channels

tion 24 consecutively, with segment 16 . 'consist of one piece or attached to it 'are and each through a breakthrough, namely a bore 25, of the turbine housing part 12 lead;

2. a nut 26 or {~ 27 "on each radial bolt 22, 23 radially outside the turbine housing part2; ■■■■■■■ -. ' --.- ■ ">

; 3, one in the circumferential direction 24. elongated, between the nuts 26 and 27 and the turbine housing part 12 provided leaf spring 46, which in arched in the unstressed state towards the turbine housing part 12 isf (s'; FIG. 2);

4. several on the whole. Filling channels 30 which are arranged distributed around the circumference and which form the annular space 21. _{;; with a pressurized room 1} S1 located in the JaußerhalbrdesLirurbinengehäuseteils 12 connected ^ several on the "" circumference "distributed" arranged "FuirkanaTe" 32, which the room 31 with the. Flow channel-36 above the guide vane a jULvfirbinden, a drain channel 33, which connects the space 31 via a line 34 and an exhaust valve 35-with the flow channel 38 below 31er. Blades connects.

According to Fig.l, the segment 16 is, as already mentioned, in its radially innermost position; the leaf spring 46 is fully tensioned; while their curvature 48 and their peripheral ends 28 and 29 are on Turbine housing part 12 radially outside - the blade

or the like necessary. G

The application of the device according to the Er- 65 spring 46 is then completely stretched - so that Finding it is worthwhile, for example, with an axial gas turbine, which means that there is also a fixed stop in the the at least one jet engine, in terms of flow, is the radially innermost position of the segment 16 is connected upstream and in which the rotor blade ring is present.

F i g. 2 shows the segment 16 in its radially outermost position; the leaf spring 46 is partially tensioned. the Displacement of the segment 16 radially inwards against the force of the leaf spring 46 comes about that, after closing the blow-off valve 35, from the inflow space 36, the space 31 via the filling channels 32 and thus the annular space 21 is filled with compressed gas via the filling channels 30 (see arrows 39 and 40). The pressure in the inflow space 36 is greater than the force of the leaf spring 46 and the pressure, the from the radial inside on the segments 16 so that the leaf spring 46 is fully tensioned.

If the radial gap 17 is to receive its maximum value, the blow-off valve 35 is opened, as a result of which the annular space 21 and the space 31 via the drain channel 33, the line 34 and a channel 37 to Outflow space 38 relaxed towards (see arrows 40 to 42). This happens faster than filling the Space 31, since the flow cross-section of the channels 33 and 37, the line 34 and the open blow-off valve 35 is greater than the sum of the flow cross-sections of the filling channels 32. After relaxation of the spaces 21 and 31 are the segments 16 due to the pressure in the bladed flow space pressed against the ring groove base 20, d. That is, the annular ribs 47 are pressed against the annular groove base 20 (see Fig. 2).

By turning the nuts 26 and 27, the normal position of the segments 16 can be radially outward and be changed inside.

Claims (3)

Patent claims: 1. Rotor blade radial gap cover ring of an axial turbine machine, in particular a gas turbine, which is divided into segments in an annular groove of the housing by changing the pressure of a Hydraulic means acting on the outer circumference of the segments against the force of a spring are mounted radially displaceable, characterized in that that each segment (16) is firmly connected radially on the outside with at least one radial bolt (22), which by a slightly larger Breakthrough, e.g. B. a bore (25), the housing (12) and the radially outside this has a nut (26), and that the spring (46) between the nut (26) and the housing (12) is arranged. 2. Cover ring according to claim 1, characterized in that two approximately each other parallel radial bolts (22, 23) following one another in the circumferential direction (24) are used and the spring is designed as an elongated leaf spring (46) lying in the circumferential direction. 3. Cover ring according to claim 2, characterized in that between the radial bolt (22) and the breakthrough (bore 25) a space (49) is present, which the annular space (21) with one located radially outside the fixed part (12), with the hydraulic one Medium-filled space (31) connects. 1 sheet of drawings