EP2947277A1 - Removable angle ring connection - Google Patents

Abstract

The invention relates to a removable angular ring connection for sealing the connection between a valve and a turbine housing, wherein a first threaded ring (26) and a second threaded ring (30) is used, which is formed via external threads in the valve diffuser (10) such that by releasing the second threaded ring (30) an L-ring is exposed, which has a seal between the inner housing (3) and a valve diffuser (10).

Description

The invention relates to an arrangement for connecting a valve diffuser with a housing, in particular the inner housing of a turbomachine, in particular a steam turbine, comprising an L-ring.

Power plants usually include several components that are subject to wear. Therefore, in revisions, such as in a major overhaul, almost all wearing parts of a turbine train are examined for their function and optionally processed or replaced. In general, a turbomachine, such as a steam turbine, an inner housing and an outer housing, wherein a rotor is disposed within the inner housing. During a revision, the inner housing is lifted out of the outer housing. Main steam usually flows through a main steam line and live steam valves into the inner housing. This steam supply takes place by means of a diffuser. In general, the connection between the diffuser and the inner housing is realized or sealed with an angle ring connection. The problem here is that in a revision this angle ring connection makes it difficult to remove the inner housing from the outer housing. The reason for this is that the angle ring connection is guided transversely to the lifting direction in a groove on the inner housing. Thus, a lifting is blocked. The angle ring must therefore be pulled out of the groove during the revisions.

However, it is so that the angle ring connection can not be pulled out of the groove individually. Therefore, in these cases, the entire valve is released from the outer casing and pulled away from the steam turbine. Thus, in many cases, the seal between the valve housing and the outer housing must be renewed. However, this is only possible if the valve is pulled back so far that the diffuser no longer protrudes into the outer housing. This process is time consuming and labor intensive.

The invention seeks to remedy this situation.

The object of the invention is to offer an easily removable arrangement for connecting a diffuser to a housing.

This object is achieved by an arrangement for connecting a valve diffuser with a housing, in particular the inner housing of a turbomachine, in particular a steam turbine, comprising an L-ring, which projects into a groove with a first leg into the housing, a first threaded ring, via a first Thread is connected to the valve diffuser, a second threaded ring which is connected via a second thread with the valve diffuser, wherein the L-ring has a second leg which is disposed between the first threaded ring and the second threaded ring.

The invention thus goes the way to offer by means of the first threaded ring and the second threaded ring an arrangement that can be easily disassembled. The advantage of the first threaded ring and the second threaded ring is thus that the L-ring can be solved within two assembly steps. This disassembly is carried out without the valve housing from the outer casing of the turbine must be dismantled. Thus, it is not necessary to renew the seal between the valve housing and the outer housing, resulting in a huge cost savings.

By eliminating the disassembly of the valve housing also eliminates a separation and welding of the Zudampfrohre and especially a testing of the Zampfampfrohre. Furthermore, eliminating the need to re-mount the valve housing and thereby eliminating many hours of assembly, resulting in a cost savings. Likewise, the revision can be performed faster, resulting in a quick re-provision of the turbo set.

Advantageous developments are specified in the subclaims.

In a first advantageous development, the first threaded ring has a first threaded ring leg, which bears against the second leg of the L-ring. Thus, a groove is realized virtually between the first threaded ring leg of the first threaded ring and the second threaded ring, in which the second leg of the L-ring is applied. The second leg of the L-ring is in such a way that a movement within the groove formed between the first threaded leg and the second threaded ring movement is possible.

In a further advantageous development, the first threaded ring has a second threaded leg, wherein the valve diffuser has an end edge and the second threaded leg abuts against the edge.

Thus, the first threaded ring abuts the end of the valve diffuser. As a result, a particularly firm and reproducible arrangement of the first threaded ring on the valve diffuser can be realized. Advantageously, the first thread is formed as a first external thread on the valve diffuser. This means that the first threaded ring is screwed onto the valve diffuser. Through the end edge of the valve diffuser, a good connection between the first threaded ring and the valve diffuser can be made. Thus, the position of the first threaded leg is fixed. A subsequent readjustment can be omitted.

In a further advantageous development, the second threaded ring has a third threaded ring leg. The first external thread is formed about a rotationally symmetrical axis. The third threaded leg is disposed behind the first threaded ring when viewed in a radial direction from the rotationally symmetric axis. This means that the second threaded ring at least partially projects around the first threaded ring. The direction of rotation of the first Threaded rings and the second threaded ring or the first thread and the second thread are such that a movement of the first threaded ring to the second threaded ring takes place. In this case, the first threaded ring must be positioned relative to the second threaded ring such that a groove for the second leg is realized between the first threaded ring and the second threaded ring. Advantageously, the valve diffuser, the first threaded ring and the second threaded ring are rotatably formed relative to each other. Thus, after the first threaded ring and the second threaded ring have been mounted via the first thread and the second thread, they can be fixed to each other, so that in operation, a loosening of the first threaded ring and the second threaded ring is avoided.

Advantageously, a cylindrical pin is provided for this purpose, which is arranged in the valve diffuser through the first threaded ring and the second threaded ring. As a result, a comparatively simple measure is offered by which a fixed fixation of the first threaded ring, the second threaded ring and the valve diffuser can take place.

The above-described characteristics, features, and advantages of this invention, as well as the manner in which they will be achieved, will become clearer and more clearly understood in connection with the following description of the embodiments, which will be described in detail in conjunction with the drawings.

Figur 1

einen Teil einer Querschnittsansicht einer erfindungsgemäßen Anordnung,

Figur 2

vergrößerter Ausschnitt aus Figur 1.

Embodiments of the invention will be described below with reference to the drawings. This is not intended to represent the embodiments significantly, but the drawing, where appropriate for explanation, executed in a schematic, and / or slightly distorted form. With regard to additions to the teachings directly recognizable in the drawing reference is made to the relevant prior art. Show it:

FIG. 1

a part of a cross-sectional view of an arrangement according to the invention,

FIG. 2

enlarged section FIG. 1 ,

The FIG. 1 shows a part of a turbomachine. In the FIG. 1 shown turbomachine is a steam turbine 1. The steam turbine 1 comprises a rotatably mounted about a non-illustrated axis of rotation rotor 2. To the rotor 2, an inner housing 3 is arranged. The inner housing 3 comprises an inner housing upper part 3a and an inner housing lower part 3b, wherein the inner housing upper part 3a is screwed together with the inner housing lower part 3b via a flange 4. The screws are not shown in detail.

An outer housing 5 is arranged around the inner housing 3, wherein the outer housing 5 likewise consists of an outer housing upper part 5a and an outer housing lower part 5b. The outer housing upper part 5a is screwed by means of a further flange 6 with the outer housing lower part 5b. The screw connection is in the FIG. 1 not shown in detail.

Fresh steam is fed via a not shown live steam line and a live steam valve an inflow 7 of the steam turbine 1. The main steam line is fluidly connected with a live steam valve. The valve comprises a valve housing 8, which is connected via a valve housing flange 9 with the outer housing 5. The valve housing 8 is rotationally symmetrical. Inside the valve housing 8, a valve diffuser 10 is arranged along an axis of symmetry 11. The valve diffuser 10 is arranged on the inventive arrangement 12 to the inner housing 3, in particular inner housing lower part 3b. The arrangement 12 is in the FIG. 2 described in more detail.

The inner housing lower part 3b has a circular opening 13, which is fluidly connected to a circular opening 14 of the valve diffuser 10 via the arrangement 12 in fluid communication with each other. In the in the FIG. 1 shown circuit 15, the inventive arrangement 12 is shown, which hereinafter with the FIG. 2 will be described in more detail.

In the FIG. 2 an end section 16 of the valve diffuser 10 can be seen. The arrangement 12 comprises an L-ring 17. The L-ring 17 is rotationally symmetrical and has in its axial extent a portion 18, which is also referred to as the first leg 19. Arranged at substantially 90 degrees to the first leg 19 is a radially extending section 20, which is referred to here as a second leg 21. The first leg 19 protrudes into a groove 22. The groove 22 is arranged in the housing, in particular inner housing 3, wherein the groove 22 is formed in a socket 23. The nozzle 23 is formed radially symmetrically about the axis of symmetry 11. In its radial extent, the nozzle 23 has a radial portion 24, which rests on the inner housing 3, in particular the inner housing lower part 3b. The nozzle 23 is connected via a thread 25 to the inner housing 3, in particular inner housing lower part 3b. For this purpose, the nozzle 23 is screwed onto the inner housing 3. The thread 25 is in this case an external thread on the inner housing. 3

The assembly 12 further includes a first threaded ring 26 which is connected via a first thread 27 to the valve 10 diffuser. The first threaded ring 26 is formed radially symmetrically about the axis of symmetry 11 and has in its radial extent a first threaded ring leg 28, which bears against the second leg 21 of the first L-ring 17. Between the first Gewinderingschenkel 28 and the nozzle 24 is a gap 29th

The arrangement 12 further comprises a second threaded ring 30, which via a second thread 31 with the valve 10 diffuser connected is. The second threaded ring 30 is formed radially symmetrically about the symmetry axis 11. The assembly 12 is formed such that the second leg 21 of the L-ring 17 is disposed in a gap 32 formed between the first threaded ring 26 and the second threaded ring 30.

In its radial extent, the first threaded ring has a further radial portion 33, which is referred to as a second threaded retaining leg 34. The end section 16 of the valve diffuser 10 has an end edge 35. The second threaded ring leg 34 rests against the end edge 35. Thus, the second threaded ring leg 34 and the end edge 35 touch each other. During assembly, the first threaded ring 26 is thus screwed onto the valve diffuser 10 via the first thread 27 until the second threaded ring leg 34 abuts against the end edge 35. The first thread 27 is formed here as a first external thread on the valve diffuser 10.

In its axial extent, the second threaded ring 30 has an axial portion 36, which is referred to here as the third Gewingeringschenkel 37. The third threaded ring leg 37 extends over an at least axial region over the end section 16 of the valve diffuser and a part of the first threaded ring 26. The first external thread is formed around the axis of symmetry. The third threaded ring leg 37 is arranged behind the first threaded ring 26 in a radial direction 38 viewed from the axis of symmetry 11. The first threaded ring 26 has for this purpose an axial portion 39 which cooperates with the first thread 27. The third threaded ring leg 37 is thus arranged around the axial section 39 of the first threaded ring 26.

The valve diffuser 10, the first threaded ring 26 and the second threaded ring 30 are formed relative to each other against rotation. For this purpose, a cylindrical pin 40 is used, which by the first threaded ring 26 and the second threaded ring 30 is disposed in the valve diffuser 10. The cylindrical pin 40 is essentially a screw with a screw head 41, which is arranged in a bore 42 in the second threaded ring 30 and a further bore 43 in the first threaded ring 26 in a thread (not shown) 44 in the valve diffuser 10.

• Zunächst wird der Zylinderstift 40 aus dem Gewinde 44 ausgeschraubt. Anschließend wird der zweite Gewindering 30 nach links über das zweite Gewinde 31 gedreht. Dadurch kann der L-Ring 17 in axialer Richtung aus der Nut 22 geschoben werden. Dazu ist es zwingend erforderlich, dass der Durchmesser des zweiten Schenkels 21 des L-Rings 17 geringer ist als ein Außendurchmesser 45 des axialen Abschnitts 39 des ersten Gewinderings 26. Nachdem der L-Ring 17 aus der Nut 22 geschoben wurde, kann der erste Gewindering 26 über das Gewinde 27 vom Ventildiffusor 10 entfernt werden. Ebenso kann anschließend der Stutzen 23 über das Gewinde 25 vom Innengehäuse 3 entfernt werden. Somit kann schnell und einfach das Innengehäuse 3 vom Ventildiffusor 10 getrennt werden.

The disassembly is done as follows:

• First, the cylinder pin 40 is unscrewed from the thread 44. Subsequently, the second threaded ring 30 is rotated to the left via the second thread 31. As a result, the L-ring 17 can be pushed out of the groove 22 in the axial direction. For this purpose, it is imperative that the diameter of the second leg 21 of the L-ring 17 is smaller than an outer diameter 45 of the axial portion 39 of the first threaded ring 26. After the L-ring 17 has been pushed out of the groove 22, the first threaded ring 26 are removed via the thread 27 from the valve 10 diffuser. Likewise, then, the nozzle 23 can be removed via the thread 25 from the inner housing 3. Thus, the inner case 3 can be separated from the valve diffuser 10 quickly and easily.

• Zunächst wird der erste Gewindering 26 auf den Diffusor 10 aufgeschraubt. Anschließend wird der L-Ring 17 in die Nut 22 eingebracht. Anschließend wird der zweite Gewindering 30 mit dem L-Ring 17 gegen den Diffusor 10 gespannt. Abschließend wird der Gewindering 26 zurück gegen den zweiten Gewindering 30 verspannt, damit der L-Ring 17 mit dem nötigen Spiel fixiert ist. Der Zylinderstift 40 sichert den ersten Gewindering 26 und den zweiten Gewindering 30 gegen Verdrehen. Bei einer Revision muss nur noch der zweite Gewindering 30 gelöst und der L-Ring 17 aus der Nut 22 des Gewinderings auf den Stutzen 23 des Innengehäuses 3 gezogen werden, damit das Innengehäuse 3 angehoben werden kann.

The assembly is done as follows:

• First, the first threaded ring 26 is screwed onto the diffuser 10. Subsequently, the L-ring 17 is inserted into the groove 22. Subsequently, the second threaded ring 30 is tensioned with the L-ring 17 against the diffuser 10. Finally, the threaded ring 26 is clamped back against the second threaded ring 30, so that the L-ring 17 is fixed with the necessary clearance. The cylindrical pin 40 secures the first threaded ring 26 and the second threaded ring 30 against rotation. In a revision, only the second threaded ring 30 has to be loosened and the L-ring 17 has to be pulled out of the groove 22 of the threaded ring onto the socket 23 of the inner housing 3 so that the inner housing 3 can be raised.

Due to strong scaling, the first threaded ring 26 and the second threaded ring 30 require a possible Verzunderungsresistente coating.

Although the invention has been further illustrated and described in detail by the preferred embodiment, 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 (7)

Arrangement (12) for connecting a valve diffuser (10) to a housing,
in particular inner housing (3) of a turbomachine, in particular a steam turbine (1),
full
an L-ring (17) projecting into a housing (22) with a first leg (19),
a first threaded ring (26) connected to the valve diffuser (10) via a first thread (27),
a second threaded ring (30) connected to the valve diffuser (10) via a second thread (31), the L ring (17) having a second leg (21) interposed between the first threaded ring (26) and the first threaded ring (26) second threaded ring (30) is arranged. Arrangement (12) according to claim 1,
wherein the first threaded ring (26) has a first threaded leg (28) abutting the second leg (21) of the L-ring (17). Arrangement (12) according to claim 1 or 2,
wherein the first threaded ring (26) has a second threaded leg (34),
wherein the valve diffuser (10) has an end edge (35) and the second threaded leg (34) abuts the edge (35). Arrangement (12) according to claim 1, 2 or 3,
wherein the first thread (27) is a first external thread on the valve diffuser (10). Arrangement (12) according to one of the preceding claims, wherein the second threaded ring (30) has a third threaded ring leg (37),
wherein the first external thread is formed about a symmetry axis (11),
wherein the third threaded ring leg (37) is disposed behind the first threaded ring (26) as seen in a radial direction (38) from the rotationally symmetric axis. Arrangement (12) according to one of the preceding claims,
wherein the valve diffuser (10), the first threaded ring (26) and the second threaded ring (30) are formed rotationally relative to each other. Arrangement (12) according to claim 6,
wherein a cylindrical pin (40) is disposed through the first threaded ring (26) and the second threaded ring (30) in the valve diffuser (10).

Images