JP4562931B2 - Stator blade assembly and fluid-operated rotating machine having the stator blade assembly - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a stationary blade assembly and a fluid-operated rotating machine including the stationary blade assembly. The fluid-operated rotary machine particularly relates to a gas turbine / steam turbine.
[0002]
[Prior art]
As shown in FIG. 3, a fluid-operated rotary machine (herein, a gas turbine will be described, and is hereinafter referred to as a “gas turbine”) 10 includes a compression unit 20 that compresses combustion air, and the compression unit 20. The fuel is injected into the high-pressure air sent from the combustion section 30 to generate high-temperature combustion gas, and the combustion section 30 is located downstream of the combustion section 30 and driven by the combustion gas exiting the combustion section 30. The turbine part 40 is a main element.
[0003]
The compression unit 20 includes a rotor assembly 21 and a stationary blade assembly 22.
[0004]
The rotor assembly 21 includes a shaft 21a disposed on a journal bearing 51 provided in the passenger compartment 50, and a plurality of blade disks 21b provided on the shaft 21a. The moving blade disk 21b is provided with a plurality of moving blades 21c.
[0005]
The stationary blade assembly 22 is disposed adjacent to the moving blade disk 21b in the axial direction and is divided into a plurality of segments along the circumferential direction of the casing 50. The number of segments is generally 2 or 4 in the upper half and lower half of the passenger compartment 50, but it can be divided into 3 or more segments in consideration of workability. it can. For example, in the case where the upper half and the lower half of the vehicle compartment 50 are each divided into two segments, four segments (that is, four stationary blade assemblies) constitute one stage of the stator portion. Will be.
[0006]
Next, the configuration of each stationary blade assembly (one segment) will be described with reference to FIG.
As shown in FIG. 4, the stationary blade assembly 22 includes a plurality of stationary blades 23, a plurality of spacers 24, and a belt 25.
[0007]
As shown in FIG. 3, the stationary blade 23 guides the airflow to the moving blade 21 c or the diffuser 26 located in the subsequent stage.
[0008]
The spacer 24 is disposed between adjacent ones of the stationary blades 23, and maintains a gap between the stationary blades 23 at a predetermined distance.
[0009]
The belt 25 is disposed on the bottom surface 23a, 24a side of the stationary blade 23 and the spacer 24, and has a length substantially equal to the outer peripheral length of each segment. The end of the belt 25, that is, the end located on the side far from the lower half horizontal joint surface 50 b of the passenger compartment 50 is coupled to either one of the stationary blade 23 or the spacer 24.
[0010]
On the other end side of the belt 25, a hooking portion 25a into which a leading end of a drawing tool (not shown) such as a hook can be inserted is formed. The latching portion 25a is a through hole having a circular cross section.
[0011]
A planting groove 50a for planting the stationary blades 23 and the spacers 24 alternately and slidably in the arrangement direction is provided on the inner circumferential surface of the cabin 50 along the circumferential direction of the cabin 50. It has been. The cross-sectional shape of the planting groove 50 a matches the cross-sectional shape of the root portion 23 b of the stationary blade 23 and the spacer 24.
[0012]
The lower half horizontal joint surface 50b of the passenger compartment 50 is formed with a recess 50c that can receive the tip of a drawing tool such as a hook. The recess 50c has a rectangular shape in its longitudinal and transverse sections.
[0013]
Belt receiving grooves 23c, 24b, and 50d for receiving the belt 25 are formed on the bottom surfaces 23a and 24a of the stationary blade 23 and the spacer 24 and the inner peripheral surface of the passenger compartment 50. The cross-sectional shape of the belt receiving groove formed when the stationary blade 23 and the spacer 24 are planted in the planting groove 50 a matches the cross-sectional shape of the belt 25. This is shown in detail in FIG.
[0014]
FIG. 5 is a main part plan view showing a state in which a predetermined number of stationary blade assemblies 22 are housed in the lower half of the casing 50. At this time, the upper side surface of the root portion 23 b of the stationary blade 23 and the upper side surface of the belt 25 are flush with the lower half horizontal joint surface 50 b of the passenger compartment 50. Further, these stationary blade assemblies 22 are fixed to the lower half of the passenger compartment 50 by stopper bolts (not shown) or the like so as not to rotate due to reaction or the like.
[0015]
In the figure, the root 23b of the stationary blade 23 is arranged so as to be flush with the lower half horizontal joint surface 50b. However, the order of the stationary blade 23 and the spacer 24 is reversed, and the spacer 24 You may arrange | position so that an upper side surface may become flush with the lower half horizontal joint surface 50b. As described above, whether the upper surface of the stationary blade 23 is flush with the lower half horizontal joint surface 50b or whether the upper surface of the spacer 24 is flush with the lower half horizontal joint surface 50b is divided into segments. And the number of stationary blades 23 and spacers 24.
[0016]
Next, a procedure for attaching / detaching the stationary blade assembly 22 having the above-described configuration to the lower half of the passenger compartment 50 will be described. Here, for simplicity of explanation, the stationary blade assembly 22 divided into two segments on the lower half side of the casing 50 will be described.
[0017]
First, an outline of the procedure of the mounting work will be described.
The belt 25 having the stationary blade 23 or the spacer 24 fixed to the front end side is inserted along the belt receiving groove 50a from both side surfaces of the lower half horizontal joint surface 50b toward the bottom of the vehicle compartment 50.
[0018]
The stator blades 23 and the spacers 24 are sequentially slid along the planting grooves 50a and the belt 25 from both sides of the lower half horizontal joint surface 50b so that the stator blades 23 and the spacers 24 are alternately arranged. Planting.
[0019]
After planting until the upper surface of the root portion 23b of the stationary blade 23 and the upper surface of the belt 25 are flush with the lower half horizontal joint surface 50b of the passenger compartment 50, the stationary blade 23 and the spacer 24 react. The upper blades 23 or spacers 24 are fixed with stopper bolts or the like on the lower half horizontal joint surface 50b so as not to move in the circumferential direction of the casing 50 due to the above, and the mounting operation is completed.
[0020]
Next, the outline of the procedure of the removal work will be described.
A leading end of a drawing tool such as a hook is inserted into a latching portion 25a located in a recess 50c formed in the lower half horizontal joint surface 50b, and the belt 25 is pulled upward together with the drawing tool. At this time, the stationary blade 23 or the spacer 24 fixed to the front end side of the belt 25 is also moved toward the lower half horizontal joint surface 50b along the planting groove 50a.
[0021]
Thereby, the stationary blade 23 and the spacer 24 between the stationary blade 23 or the spacer 24 fixed to the front end side of the belt 25 and the stationary blade 23 or the spacer 24 positioned closest to the lower half horizontal joint surface 50b are also provided. It will be pulled together to the lower half horizontal joint surface 50b side. That is, a drawing tool such as a hook is hooked on the latching portion 25a and the belt 25 is dragged out of the lower half horizontal joint surface 50b. I try to take it out of.
[0022]
[Problems to be solved by the invention]
However, when the stationary blade assembly 22 is pulled out in such a manner that the belt 25 is pulled out in the circumferential direction, the component force of the pulling force that pulls out the belt 25 presses each stationary blade 23 and each spacer 24 in the radial direction. This causes a problem that the frictional resistance between the root 23b of the stationary blade 23 and the spacer 24 and the planting groove 50a is increased, and the stationary blade assembly 22 cannot be pulled out smoothly.
[0023]
Further, since the mounting operation is performed so that the stationary blades 23 and the spacers 24 are directly planted one by one in the planting grooves 50a of the casing 50, the stator vane assembly is manufactured until the casing 50 is completed particularly during manufacture. 22 cannot be attached to the passenger compartment 50, and it is not possible to secure the work space for attaching the stationary vane assembly 22 even when the inspection is restored. There was a point.
[0024]
The present invention has been made in view of the above circumstances, and it is possible to attach the stationary blade assembly to the lower half of the casing at the time of manufacture and inspection, and to remove the stationary blade assembly from the lower half of the casing at the time of inspection. It is an object of the present invention to provide a stationary blade assembly that can be easily and smoothly performed, and to reduce the working time associated therewith, and a fluid-operated rotary machine including the stationary blade assembly.
[0025]
[Means for Solving the Problems]
In order to solve the above-described problems, the following means are employed in the stationary blade assembly of the present invention and the fluid-operated rotary machine including the stationary blade assembly.
That is, according to the stationary blade assembly according to claim 1, the plurality of segments are disposed along the circumferential direction of the passenger compartment while being arranged adjacent to each other in the axial direction with respect to the blade disk provided with the plurality of blades. In the stationary blade assembly divided into two, the blades are arranged between a plurality of stationary blades that guide the airflow to the moving blades or diffusers located in the subsequent stage and adjacent ones of the stationary blades. A plurality of spacers maintained at a distance, and the plurality of stator blades and the plurality of spacers are accommodated alternately and slidably in their arrangement direction, and these stator blades and spacers are pulled out into the vehicle interior. And a holder having a planting groove formed so as not to slide, and the holder is slid along the extending direction of the mounting groove in the mounting groove formed along the circumferential direction of the casing. Movable and said Characterized in that it is immovably accommodated in the radial direction of the chamber.
In this stationary blade assembly, a plurality of stationary blades and a plurality of spacers planted in a holder are configured as one assembly (that is, one segment). It will be attached or removed along the circumferential direction of the chamber.
That is, what is assembled as one assembly in another work space is directly attached to the passenger compartment, and what is removed as one assembly is taken to another work space, where the stationary blade and the spacer are attached to the holder. Each part will be inspected by removing it.
[0026]
According to the stator blade assembly according to claim 2, in the stator blade assembly according to claim 1, each of the planting groove formed in the holder and the mounting groove formed in the casing has a substantially T-shaped cross section. It is characterized by being.
In this stationary blade assembly, the planting groove formed in the holder and the mounting groove formed in the vehicle compartment each have a substantially T-shaped cross section.
In other words, the wider T-shape is formed on the back side, that is, on the outside of the passenger compartment, so that the stationary blades and spacers do not come out into the passenger compartment.
[0027]
According to the stator blade assembly according to claim 3, in the stator blade assembly according to claim 1 or 2, the hook portion capable of inserting a leading end of a drawing tool such as a hook near the upper end of the holder. And a recess in which the leading end of the drawing tool can be inserted into the hooking portion is formed in the lower half horizontal joint surface of the passenger compartment.
In this stationary vane assembly, a hooking part that allows the tip of a pulling tool such as a hook to be inserted is formed in the vicinity of the upper end of the holder, and the tip of the pulling tool is hooked on the horizontal joint surface of the lower half of the passenger compartment. A recess that can be inserted into the part is formed, whereby the tip of the extraction tool is engaged with the engaging part of the holder.
[0028]
According to a stator blade assembly of a fourth aspect, in the stator blade assembly of the third aspect , the hooking portion is a through hole having a circular cross section.
In this stationary blade assembly, the latching portion is formed by a simple circular hole.
[0029]
According to the stator blade assembly of claim 5, in the stator blade assembly of claim 3 , the recess into which the tip of the drawing tool can be inserted has a rectangular cross section.
In this stationary blade assembly, the recess is formed in a shape that is simply cut out of a rectangular parallelepiped.
[0030]
According to a fluid-operated rotary machine according to a sixth aspect, the stationary blade assembly according to any one of the first to fifth aspects, a shaft disposed on a journal bearing provided in the vehicle interior, and the shaft A rotor assembly including a plurality of blade discs provided in the vehicle, and a casing accommodating the stationary blade assembly and the rotor assembly.
In this fluid-operated rotating machine, a plurality of stationary blades and a plurality of spacers planted in a holder are configured as one assembly (that is, one segment). It will be attached or removed along the circumferential direction of the passenger compartment.
That is, what is assembled as one assembly in another work space is directly attached to the passenger compartment, and what is removed as one assembly is taken to another work space, where the stationary blade and the spacer are attached to the holder. Each part will be inspected by removing it.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIG. In FIG. 1, the same reference numerals are given to the same members as those in the prior art. Further, as described in the prior art, the case where the stationary blade assembly according to the present invention is applied to the compression portion 20 of the gas turbine 10, particularly the front stage side which is not a double casing will be described.
[0032]
As shown in FIG. 1, the stationary blade assembly 122 includes a plurality of stationary blades 123, a plurality of spacers 124, and a holder 125.
[0033]
As shown in FIG. 3, the stationary blade 123 guides the airflow to the moving blade 21 c or the diffuser 26 located in the subsequent stage.
[0034]
The spacer 124 is disposed between adjacent ones of the stationary blades 123, and maintains a gap between the stationary blades 123 at a predetermined distance.
[0035]
The holder 125 is disposed on the bottom surface 123a, 124a side of the stationary blade 123 and the spacer 124, has a length substantially the same as the outer peripheral length of each segment, and has rigidity. As the material of the holder 125, the same material as that of the stationary blade 123 or a material lower than that, for example, the same material as the casing 50 or a similar material is used. That is, when the stationary blade 123 is an austenitic material, austenitic alloy steel, specifically, 13Cr stainless steel, low alloy steel, ordinary carbon steel, or the like is used from the viewpoint of uniform thermal elongation. . In addition, when an austenitic material is used for the stationary blade 123 and the passenger compartment 50, the material of the holder 125 is appropriately selected accordingly. On the inner wall of the holder 125, the stationary blades 123 and the spacers 124 are accommodated alternately and slidably in the arrangement direction thereof, and the stationary blades 123 and the spacers 124 are formed so as not to come out into the vehicle interior 50. A planted groove 125a is formed. The planting groove 125a has a substantially T-shaped cross section.
[0036]
Corresponding to the planting groove 125a, the stator blade 123 and the spacer 124 are formed with engaging portions 123b and 124b, respectively.
[0037]
On one end side of the holder 125, that is, on the side closer to the lower half horizontal joint surface 50 b of the passenger compartment 50, a hooking portion 125 b into which the tip of a drawing tool such as a hook can be inserted is formed. The latching portion 125b is a through hole having a circular cross section.
[0038]
On the inner peripheral surface of the passenger compartment 50, an attachment groove 50e is provided along the circumferential direction of the passenger compartment 50 to accommodate the holders 125 in which the stationary blades 23 and the spacers 24 are planted alternately. The mounting groove 50e has a substantially T-shaped cross section.
[0039]
The holder 125 is slidable along the extending direction of the mounting groove 50e, and is accommodated so as not to move in the radial direction of the vehicle compartment 50.
[0040]
The lower half horizontal joint surface 50b of the passenger compartment 50 is formed with a recess 50c that can receive the tip of a drawing tool such as a hook. The recess 50c has a rectangular shape in its longitudinal and transverse sections.
[0041]
FIG. 2 is a principal plan view showing a state in which a predetermined number of stationary blade assemblies 122 are housed in the lower half of the casing 50. At this time, the upper side surface of the root portion 123 c of the stationary blade 123 and the upper side surface of the holder 125 are flush with the lower half horizontal joint surface 50 b of the passenger compartment 50. Further, these stationary blade assemblies 122 are fixed to the lower half of the passenger compartment 50 by stopper bolts (not shown) or the like so as not to rotate due to reaction.
[0042]
In the drawing, the root 123c of the stationary blade 123 is arranged so as to be flush with the lower half joint surface 50b. However, this is because the order of the stationary blade 123 and the spacer 124 is reversed, and the upper surface of the spacer 124 is arranged. The side may be arranged so as to be flush with the lower half horizontal joint surface 50b. As described above, whether the upper surface of the stationary blade 123 is flush with the lower half horizontal joint surface 50b or whether the upper surface of the spacer 124 is flush with the lower half horizontal joint surface 50b is divided into segments. And the number of stationary blades 123 and spacers 124.
[0043]
Next, a procedure for attaching / detaching the stationary blade assembly 122 having the above-described configuration to the lower half of the passenger compartment 50 will be described. Here, for simplicity of explanation, the stationary blade assembly 122 divided into two segments on the lower half side of the casing 50 will be described.
[0044]
First, an outline of the procedure of the mounting work will be described.
First, the engaging portions 123b and 124b of the stationary blades 123 and the spacers 124 are sequentially slid along the planting grooves 125a of the holder 125 so that the stationary blades 123 and the spacers 124 are alternately arranged. Then, the spacer 124 is planted in the holder 125.
[0045]
When the predetermined number of vanes 123 and the spacers 124 are completely planted in the holder 125 in this manner, the vane assembly 122 for one segment is completed. This operation is repeated, and the required number of vane assemblies 122 (two here) are assembled.
[0046]
Then, the holder 125 of the stationary blade assembly 122 is slid along the mounting groove 50e, and the upper side surface of the root portion 123c of the stationary blade 123 and the upper side surface of the holder 125 are the lower half horizontal joint surface of the passenger compartment 50. After being inserted until it is flush with 50b (that is, the holder 125 of each stationary blade assembly 122 is inserted into the mounting groove 50e and slid along the extending direction of the mounting groove 50e. In order to prevent the stationary blades 123 and the spacers 124 from moving in the circumferential direction of the passenger compartment 50 due to reaction or the like, the upper side surfaces of the stationary blades 123 or the spacers 124 on the lower half horizontal joint surface 50b with stopper bolts or the like. Fix it.
[0047]
Next, the outline of the removal work will be described.
A leading end of a drawing tool such as a hook is inserted into a latching portion 125b located in a recess 50c formed in the lower half horizontal joint surface 50b, and the holder 125 is pulled up together with the drawing tool. At this time, the stationary blade 123 and the spacer 124 planted in the planting groove 125 a of the holder 125 are also moved toward the lower half horizontal joint surface 50 b together with the holder 125.
[0048]
As a result, the stationary blade 123 and the spacer 124 planted in the planting groove 125a of the holder 125 are pulled out toward the lower half horizontal joint surface 50b as a single unit, that is, as one assembly. That is, a drawing tool such as a hook is hooked on the latching portion 125b and the holder 125 is dragged outside the lower half horizontal joint surface 50b, so that one segment of the stationary blade assembly 122 is placed in the lower half portion of the casing 50. I try to take it out of.
[0049]
As described above, since the stationary blade 123 and the spacer 124 are planted in the planting groove 125a of the rigid holder 125, the stationary blade assembly 122 can be taken out as a single body.
[0050]
That is, when the stationary blade assembly 122 is extracted, the force for pressing the stationary blade assembly 122 inward in the radial direction of the passenger compartment through the stationary blades 123 and the spacers 124 is not generated. It can be taken out.
[0051]
In addition, since the stationary blade assembly 122 assembled in another work space can be directly attached to the passenger compartment 50, the work efficiency can be remarkably improved and the work time can be greatly shortened. .
[0052]
As described above, the case where the stationary blade assembly according to the present invention is applied to the compression portion of the gas turbine, in particular, the front stage which is not a double casing has been described. However, the present invention is not limited to this, and can also be applied to the rear stage side of the gas turbine compression section, the turbine section of the gas turbine, and the turbine section of the steam turbine.
[0053]
【The invention's effect】
According to the stationary blade assembly of the present invention and the fluid-operated rotary machine including the stationary blade assembly, the following effects can be obtained.
In other words, a plurality of stationary blades and a plurality of spacers planted in the holder are configured as one assembly (that is, one segment). Since it is attached or removed along, it is possible to improve the working efficiency and reduce the working time.
Also, what is assembled as one assembly in another work space is directly attached to the passenger compartment, and what is removed as one assembly is taken to another work space, where the stationary blade and the spacer are attached to the holder. Since each part is inspected by being removed, the working efficiency can be improved and the working time can be reduced.
[0054]
Further, the planting groove formed in the holder and the mounting groove formed in the vehicle compartment are each substantially T-shaped in cross section, and the wider side of the T-shape is the rear side, that is, the vehicle interior outside. Therefore, there is an effect that it is possible to prevent the stationary blade and the spacer from slipping out into the vehicle interior.
[0055]
Furthermore, a hooking portion into which the tip of a drawing tool such as a hook can be inserted is formed in the vicinity of the upper end of the holder, and the tip of the drawing tool is inserted into the hooking portion on the horizontal joint surface of the lower half of the passenger compartment. The leading end of the extraction tool is engaged with the retaining portion of the holder, so that the leading end of the tool for pulling out the stationary blade assembly can be easily attached to the retaining portion of the holder. There is an effect that it can be hung on the screen.
[0056]
Furthermore, since the latching portion is formed by a simple circular hole, there is an effect that the latching portion can be easily manufactured by a drill or the like.
[0057]
Furthermore, since the recess is formed in the shape of a simple rectangular parallelepiped, there is an effect that it can be easily produced using a known tool without using a special tool.
[0058]
Furthermore, in the fluid-operated rotary machine according to the present invention, a plurality of stationary blades and a plurality of spacers implanted in a holder are configured as one assembly (that is, one segment). Since each assembly is attached or removed along the circumferential direction of the passenger compartment, it is possible to improve working efficiency and reduce working time.
Also, what is assembled as one assembly in another work space is directly attached to the passenger compartment, and what is removed as one assembly is taken to another work space, where the stationary blade and the spacer are attached to the holder. Since each part is inspected by being removed, the working efficiency can be improved and the working time can be reduced.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing an embodiment of a stationary blade assembly according to the present invention.
FIG. 2 is a plan view of a principal part showing a state where the stationary blade assembly according to the present invention is attached to the lower half of the passenger compartment.
FIG. 3 is a schematic perspective view showing a general gas turbine with the upper half of the passenger compartment removed.
FIG. 4 is a schematic perspective view showing an embodiment of a conventional vane assembly.
FIG. 5 is a plan view of an essential part showing a state in which a conventional stationary blade assembly is attached to a lower half of a passenger compartment.
[Explanation of symbols]
21 Rotor assembly 21a Shaft 21b Rotor disk 21c Rotor blade 22 Stator blade assembly 23 Stator blade 24 Spacer 25a Locking portion 26 Diffuser 50 Cabin 50a Planting groove 50c Recess 50e Mounting groove 51 Journal bearing 122 Stator blade assembly 123 Stator blade 124 Spacer 125 Holder 125a Planting groove 125b Hook

Claims (6)

In the stationary blade assembly, which is arranged adjacent to the blade disk provided with a plurality of blades in the axial direction and divided into a plurality of segments along the circumferential direction of the vehicle interior,
A plurality of stationary blades for guiding an airflow to the moving blade or diffuser located in the subsequent stage;
A plurality of spacers arranged between adjacent ones of the stationary blades and maintaining a gap between the stationary blades at a predetermined distance;
The plurality of stationary blades and the plurality of spacers are accommodated alternately and slidably in their arrangement direction, and a planting groove formed so that the stationary blades and the spacers do not come out into the vehicle interior. A holder having
Further, the holder is accommodated in an attachment groove formed along the circumferential direction of the vehicle compartment so as to be slidable along the extending direction of the attachment groove and immovable in the radial direction of the vehicle compartment. A stator vane assembly characterized by that. The stator vane assembly of claim 1, wherein
The planted groove formed in the holder and the mounting groove formed in the casing each have a substantially T-shaped cross section. The stator vane assembly according to claim 1 or 2,
In the vicinity of the upper end of the holder, a hooking portion into which a tip of a drawing tool such as a hook can be inserted is formed,
The stator blade assembly according to claim 1, wherein a recess is formed in the lower half horizontal joint surface of the casing so that the leading end of the drawing tool can be inserted into the hooking portion. The stator vane assembly of claim 3 , wherein
The stationary blade assembly according to claim 1, wherein the latching portion is a through hole having a circular cross section. The stator vane assembly of claim 3 , wherein
The vane assembly in which the recess into which the tip of the extraction tool can be inserted has a rectangular cross section. The vane assembly according to any one of claims 1 to 5,
A rotor assembly comprising a shaft disposed on a journal bearing provided in the vehicle interior, and a plurality of blade disks provided on the shaft;
A fluid-operated rotary machine comprising: a casing that houses the stationary blade assembly and the rotor assembly.

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