JPH1193615A - Air-tight device for connecting between steam uptake duct of steam turbine and internal main body of low-pressure assembly - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connecting device, which is provided with a built-in type compensating device for absorbing movement of an end of a steam uptake duct and which can be connected and disconnected from outside of a turbine, by connecting a duct and a low-pressure outer box through a deformable tubular element. SOLUTION: A low-pressure module of a steam turbine has a tendency that a spacer provided in a steam uptake part is moved by the effect of expansion of a pipeline when steam is sent from a middle-pressure stage to the steam uptake part, and in order to absorb this movement, a compensating device is interposed between an upper outer jacket 1 and a spacer. The steam uptake part is connected to an uptake section 13 by an outer flange 14, and in order to secure air-tightness, a bellow-type sleeve 15 as a deformable annular element is provided so as to surround a lower end 16 of the duct 10. An upper part 17 of this sleeve 15 is welded to an outer crown 18 fastened to a crown 20 on the outer jacket 1 by bolts.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to the field of steam turbines, and more particularly, to the connection between a steam intake duct and a low pressure body of a steam turbine.

[0002]

2. Description of the Related Art A low-voltage module is connected to two independent assemblies, namely the sleeve of a capacitor,
It consists of an outer jacket that withstands atmospheric pressure, is supported by a block and has no hot section, and an inner body of two symmetrical bundles with steam pipes and a low-pressure diaphragm.

[0003] The medium pressure section is connected to the low pressure section by piping. This pipe opens into the steam intake of the inner body.

[0004] The temperature difference causes an expansion whose amplitude can reach several centimeters. Therefore, by the correction means,
It is necessary to make a connection between the steam intake duct and the low pressure body.

[0005] Normally, the connection is made by means of a compensating device, which can only be reached from the inside of the low-pressure part during removal. As a result, several components of the assembly must be removed, a major task of shutting down the turbine for a significant amount of time.

[0006]

SUMMARY OF THE INVENTION It is an object of the present invention to overcome this drawback by providing a connection device which can be easily removed from the outside of the turbine and has a lower manufacturing cost.

[0007]

For this purpose, the present invention, in its most general design, is of the type consisting of a module suitable for being mounted on a low-pressure outer jacket, comprising a steam intake duct. A device incorporating a compensating device suitable for absorbing end movement, wherein the connection between the duct and the low-pressure outer box is such that the upper end is fixed to the discharge box and the lower end is connected to the steam intake duct and the low-pressure body. Device, which is realized via a deformable tubular element fixed to the coupling flange of the device.

[0008] Advantageously, the deformable tubular element comprises a bellows-shaped corrugated sleeve.

According to a preferred embodiment variant, the discharge box comprises an annular crown with an inside diameter much larger than the outside diameter of the steam intake duct, said crown being connected via bolts accessible from outside the low pressure stage jacket. It has a hole in which a complementary crown fixed to the deformable tubular element can be fixed.

Advantageously, the deformable tubular element is fixed at its lower part on a flange surrounding the low-pressure body via an inner crown connected to said flange by bolts accessible from outside the jacket of the low-pressure module.

Preferably, the outer surface of the steam intake duct and the inner surface of the deformable cylindrical element define an annular space at the bottom of which the lower crown securing the tubular element to the low pressure body is located.

According to an advantageous variant, the device comprises an annular protective plate closing the space remaining between the supplemental crown fixed to the upper end of the deformable element and the bulkhead of the steam intake duct. .

[0013] According to another embodiment variant, the deformable tubular element is extended by a length adjusting ring.

According to another advantageous variant, the deformable tubular element is protected by an outer tubular rigid plate whose length exceeds the length of the deformable tubular element.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood on reading the following description made with reference to the accompanying drawings, which relate to non-limiting embodiments.

[0016]

FIG. 1 is a cross-sectional view of a low-voltage module. This module consists of an upper outer jacket (1) and a lower outer jacket (2). The outer jacket is made of a welded steel plate. The inside of the outer jacket is reinforced by a rib (3), and a reinforcing member of a round bar iron material (4) arranged in a lattice is attached. The lower part of this jacket (2) rests on the block (5) with a base plate (6) reinforced by gusset plates. This design of the external structure allows a good distribution of the load on the block.

The inner body (7) produced by the welding structure rests on the lower part of the jacket at the level of the lateral flange (8) of the horizontal joint. The intake zone is limited by the annular chamber (9).

The steam is sent from the medium pressure stage by a pipe (10). This pipe is connected to the steam intake of the main body via the spacer (11). Due to the expansion effect of the piping,
This spacer (11) may move in the horizontal and vertical directions. To absorb these movements, a compensator (12) is provided between the upper jacket (1) of the outer box and the spacer (11). The compensator also performs a sealing function.

In the following description, the compensation device will be described in more detail.

The vapor intake traverses the jacket (1) at the level of the hole, the cross section of which far exceeds the external cross section of the intake. The difference in cross-section results in side play sufficient to absorb the various movements resulting from the stresses transmitted by the steam line (10) due to the expansion phenomenon.

The take-in section is provided with an external flange (14).
Is connected to the intake section (13) of the internal body.

Airtightness is ensured by a stainless steel or similar elastically deformable sleeve (15) having a bellows shape. The sleeve (15) surrounds the lower end (16) of the duct (10). Sleeve (1
The upper part (17) of 5) is annular and has a sleeve (1).
5) Welded on the outer crown (18) having an internal cross section corresponding to the external cross section of the upper part (17).

This outer crown (18) is bolted onto a complementary crown (20) welded on the outer jacket (1). A packing (21) is inserted between the two crowns (18, 20).

The lower end (23) of the sleeve (15) is extended by a tubular ring (24). This ring allows the length of the device to be adjusted during turbine assembly and corrects misalignment by cutting the annular ring to the appropriate height.

The end of this ring has an inner crown (2) whose outer diameter is at most equal to the inner diameter of the ring and the sleeve (15) and whose inner diameter is at most equal to the outer diameter of the steam intake.
7) welded on the annular plate (26) to ensure the connection. This crown (27) has two parts (28, 2) of the connecting flange of the duct (10) on the body (13).
9) Form spacers positioned between. The gasket (30, 31) ensures airtightness between the crown (27) and the two parts (28, 29) of the flange.
The fixing of the assembly is realized by a plurality of bolts (32). These bolts are defined by the outer wall of the duct (10) and the inner wall of the sleeve (15) and the outer jacket (1)
It can be reached from the outside through an annular space (33) opening from the cutout (12). Thus, it is possible to remove the intake section from outside the turbine without having to remove the outer jacket (1).

The sleeve (15) comprises two tubular plates (34, 3) surrounding the outer and inner surfaces of the sleeve.
5) protected. These plates (34, 3
At least one of 5) has a length greater than the length of the sleeve (15), so that damage to the underside of the sleeve when the sleeve is placed on the ground is prevented. These tubular plates also protect the surface of the sleeve (15) from shocks that can occur during handling, especially during the mounting or dismounting phase.

To prevent the tool from accidentally falling into the recessed space (33), a protective plate (36) closes the gap between the outer wall of the duct (10) and the crown (18). This plate has an internal cutout adapted to allow lateral movement of the duct (10).

FIG. 3 is a detailed view of the connection of the sleeve with the fixed crown.

The sleeve (15) is welded to the inner edge (40) of the crown, as is the upper end of the inner protective plate (34). The shape of this protection plate is tubular, and the diameter of the upper part (41) is enlarged. Outer plate (3
5) is welded to the lower surface (42) of the crown (18).

FIG. 4 is a detailed view of the fixing of the lower part of the sleeve (15).

The first part (28) of the fixed flange is welded to the outer wall of the steam intake duct (10) by two welding beads (50, 51). Similarly, the second part (29) of the flange is welded to the intake (13) of the low-pressure body by means of two welding beads (52, 53).

The crown (27) is welded on the connecting plate (26). The crown (27) has a hollow head (55) to prevent it from being flush with the surface of the crown (27).
Bolts pushed into the lower part of the flange (2
9) bolted on. Upper part of flange (28)
Are bolted onto a crown (27) forming a spacer between the two parts of the flange.

In the case of removal, the protective plate (36) covering the tubular space (33) provided between the outer wall of the duct (10) and the inner wall of the compensator is removed, and then the upper part (28) of the flange is removed. To the bolt which secures the connection between the crown and the crown (27). This space is large enough,
A tool can be passed which allows the bolt to be loosened and the duct (10) to be removed.

After removing the duct (10), the bolts are reached which secure the connection between the crown (27) and the lower part (29) of the flange. In addition, the upper crown (1
8) Loosen the bolt securing the connection between the outer jacket (1) and the outer jacket (1). Thereafter, the compensating device can be removed by pulling it up and down.

[Brief description of the drawings]

FIG. 1 is an overall view of a low-voltage module.

FIG. 2 is a three-dimensional cutaway view of the device according to the invention.

FIG. 3 is a detailed view of the connection of a sleeve with a fixed crown.

FIG. 4 is a detailed view of the fixing of the lower part of the sleeve.

[Explanation of symbols]

 1 Upper Outer Jacket 2 Lower Outer Jacket 7 Inner Body 10 Duct 11 Spacer 12 Compensator 14 Outer Flange 15 Sleeve 18 Outer Crown 20 Supplementary Crown 21 Packing 24 Tubular Ring 26 Annular Plate 27 Inner Crown 32 Bolt 33 Annular Space 36 Protection plate

Claims (8)

[Claims] A steam intake duct for a steam turbine of a type comprising modules adapted to be mounted on a low pressure outer jacket and incorporating means adapted to absorb movement of the end of the steam intake duct. A hermetic device for the connection between (10) and the inner body (7) of the low-pressure assembly, the connection between the steam intake duct (10) and the jacket (1) of the discharge box being low-pressure at the upper end; The device is characterized in that it is realized via a deformable tubular element (15) fixed to the discharge box and fixed at its lower end to the connecting flange of the steam intake duct (10) and the low-pressure body (7). . 2. The device according to claim 1, wherein the deformable tubular element comprises a bellows-shaped corrugated sleeve. 3. The discharge box includes an annular crown with an inner diameter much larger than the outer diameter of the steam intake duct (10), said crown being deformable via bolts accessible from outside the low pressure jacket. Element (1
3. The device according to claim 1, wherein the device has a hole in which a supplementary crown fixed to 5) can be fixed. 4. A deformable tubular element (15) is fixed at its lower part on a flange surrounding the low-pressure body via an inner crown connected to said flange by bolts accessible from outside the low-pressure jacket. Apparatus according to any one of claims 1 to 3, characterized in that: 5. The outer surface of the steam intake duct (10) and the inner surface of the deformable cylindrical element define an annular space in which the lower crown for fixing the tubular element to the low-pressure body is located at the bottom. An apparatus according to at least one of claims 3 and 4. 6. An annular protective plate for closing a space remaining between a supplementary crown fixed to the upper end of the deformable element and a partition of the steam intake duct (10). An apparatus according to at least one of claims 3 to 5. 7. The device according to claim 1, wherein the deformable tubular element is extended by a length adjustment ring. 8. The method according to claim 1, wherein the deformable tubular element is protected by an outer tubular rigid plate having a length greater than the length of the deformable tubular element. An apparatus according to any one of the preceding claims.