KR102007138B1 - Steam turbine rotor guide device - Google Patents

Abstract

The present invention provides a turbine rotor guiding device which can be used for lifting and seating of a turbine rotor during power plant turbine maintenance. According to an embodiment of the present invention, the turbine rotor guiding device comprises: a guide body assembled outside of a turbine casing; a plate spring installed at the guide body to absorb vibrations generated when a turbine rotor is lifted or seated; and a jacking bolt installed in the guide body to allow fine adjustment of a position of the turbine rotor. Accordingly, vibrations generated when lifting or seating the turbine rotor can be caught, thereby improving work efficiency and reducing work time. In addition, by adjusting a distance between the rotor and the casing, collision between the rotor and the casing can be prevented, thereby ensuring safety of an operator.

Description

Steam turbine rotor guide device

The present invention relates to a turbine rotor guide device, and more particularly to a turbine rotor guide device that can be used for lifting and seating of the turbine rotor during power plant turbine maintenance.

In general, a steam turbine converts thermal energy of steam generated into mechanical energy to drive a generator to produce electric power, and includes a rotor that is a rotating body that rotates at high speed by a flow of steam.

On the other hand, power plants periodically perform overhaul operations to completely disassemble, inspect, repair and adjust machinery. During this overhaul, steam turbines need to be lifted or seated several times during maintenance. There is discomfort.

In addition, conventionally, since the gap between the turbine rotor and the casing is measured and calibrated without a separate guide device, there is a risk of collision between the rotor and the casing, and a gap error between the rotor and the casing may occur. Problems exist too.

The present invention has been made to solve the above problems, an object of the present invention, the turbine rotor guide device for adjusting the gap between the rotor and the casing to catch the shake generated when performing the operation to lift or seat the turbine rotor In providing.

Turbine rotor guide device according to an embodiment of the present invention for achieving the above object is a guide body which is assembled outside the turbine casing; A plate spring installed at the guide body to absorb vibrations generated when the turbine rotor is lifted or seated; And a jacking bolt installed at the guide body to allow fine adjustment of the position of the turbine rotor.

And the guide body is provided with a guide groove along the longitudinal direction, the leaf spring is installed inside the guide groove, consisting of a leaf plate and a flexible block of elastic material, vibration generated when lifting or seating the turbine rotor Can absorb.

In addition, the jacking bolt may be installed in the guide groove provided with the leaf spring, so that the tension of the leaf spring can be adjusted.

And the jacking bolt is provided on both sides of the guide groove in which the leaf spring is installed, and the tension of the leaf spring can be adjusted, so that the position of the turbine rotor can be finely adjusted.

The jacking bolt can also allow the clearance of the turbine rotor to be adjusted within a range of less than 10 mm.

And the turbine rotor guide device according to an embodiment of the present invention, when the guide body is seated on the flange surface of the turbine casing, may further include a captive bolt for fixing the seated guide body.

In addition, the guide body may be fixed by being seated on the flange face of the turbine casing in a state where lubricant is applied to the face that rubs against the turbine rotor.

As described above, according to the embodiments of the present invention, it is possible to catch the shaking generated when lifting or seating the turbine rotor, to improve the work efficiency, shorten the working time, the interval between the rotor and the casing By adjusting the pressure, collision between the rotor and the casing can be prevented, and the safety of the worker can be secured.

1 is a view provided in the description of the installation position of the turbine rotor guide device according to an embodiment of the present invention,
2 is a view provided in the description of the configuration of the turbine rotor guide device according to an embodiment of the present invention,
Figure 3 is a view showing a side view of the turbine rotor guide device according to an embodiment of the present invention,
Figure 4 is a view showing a front view of the turbine rotor guide device according to an embodiment of the present invention, and
5 is a view provided in the description of the leaf spring according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a view provided in the description of the installation position of the turbine rotor guide device according to an embodiment of the present invention, Figures 2 to 4 are provided in the description of the configuration of the turbine rotor guide device according to an embodiment of the present invention to be. Specifically, Figure 2 is a perspective view of a turbine rotor guide device according to an embodiment of the present invention, Figure 3 is a side view of the turbine rotor guide device according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention Is a front view of the turbine rotor guide device.

Turbine rotor guide device according to an embodiment of the present invention is assembled in a state seated on the outer side of the turbine casing, the flange, as shown in Figure 1, the shaking that occurs when performing the work to lift or seat the turbine rotor 10 The gap between the turbine rotor 10 and the casing can be adjusted.

To this end, the turbine rotor guide device may include a guide body 100, a leaf spring 200, jacking bolt 300 and captive bolt 400.

The guide body 100 may be assembled in a state of being seated on the outer side of the turbine casing and the flange surface.

Specifically, the guide main body 100 is extended along the longitudinal direction, the main body 110 is provided with a guide groove 111 through which the leaf spring 200 is inserted therein, for seating on the flange face of the turbine casing It is formed in a shape that is vertically bent from the main body 110, the seating portion 120 and the main body 110 and the seating portion 120 is provided with an inlet hole 121, the captive bolt 400 is introduced therein In order to support), extending from the main body portion 110 to the seating portion 120, the closer to the seating portion 120, is composed of a support portion 130 is formed in a shape that increases the area of the bottom surface By being seated and fixed to the flange face of the turbine casing, it is possible to catch the shake of the rotor located between the guide grooves 111.

For example, the guide main body 100 is seated and fixed to the flange face of the turbine casing in a state where lubricant is applied to a surface rubbing against the turbine rotor, thereby preventing the shaking of the rotor located between the guide grooves 111. I can catch you.

The leaf spring 200 may be installed in the guide main body 100 to absorb vibrations generated when the turbine rotor 10 is lifted or seated.

And the leaf spring 200, in order to support a heavy object such as the turbine rotor 10, while maintaining proper elasticity, the lubricant may be applied to the friction surface.

The jacking bolt 300 may be installed in the guide body 100 to adjust the tension of the leaf spring 200 so that the position of the turbine rotor may be finely adjusted.

Specifically, the jacking bolt 300 is installed on both sides of the guide groove 111 in which the leaf spring 200 is installed, so that the tension of the leaf spring 200 is adjusted, so that the position of the turbine rotor can be finely adjusted. have.

The captive bolt 400 may be inserted into the inlet hole 121, so that when the guide body 100 is seated on the flange face of the turbine casing, the seated guide body 100 may be fixed to the flange face.

In this case, the captive bolt 400 may be manufactured to the same standard as the bolt used when the turbine rotor is assembled, such that the guide body 100 seated on the flange face of the turbine casing may be fixed to the flange face.

5 is a diagram provided in the description of the leaf spring 200 according to an embodiment of the present invention. Leaf spring 200 according to an embodiment of the present invention is inserted into the guide groove 111 provided in the main body 110, in order to absorb the vibration generated when lifting or mounting the turbine rotor, one or more leaf plate 210 and the flexible block 220 of an elastic material.

The jacking bolt 300 may penetrate the body portion and the leaf plate 210 in the vertical direction to adjust the tension of the leaf spring 200 according to the rotation direction.

For example, when the turbine rotor is inserted into the guide groove 111 in which the leaf spring 200 is installed, the jacking bolt 300 adjusts the tension of the leaf spring 200 according to the rotation direction, and in addition, jacking The bolt 300 is installed on both sides of the guide groove 111 in which the leaf spring 200 is installed, and the turbine rotor 10 can be moved back and forth, so that the compatibility with the turbine rotor 10 can be maintained. have.

In this case, the jacking bolt 300 is preferably to be fine-tuned within the range of less than 10mm, the clearance of the turbine rotor 10 in consideration of the durability of the leaf spring 200 and the clearance gap of the guide groove 111.

Through this, the turbine rotor guide device catches the shaking generated when lifting or seating the turbine rotor 10, thereby improving the work efficiency and reducing the working time, between the turbine rotor 10 and the casing By adjusting the interval, collision between the turbine rotor 10 and the casing can be prevented, and the safety of the worker can be secured.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: turbine rotor
100: guide body
110:
111: Guide Home
120: seating part
121: entry hole
130: Support
200: leaf spring
210: leaf plate
220: flexible block
300: jacking bolt
400: captive bolt

Claims (7)

A guide body assembled outside the turbine casing;
A plate spring installed at the guide body to absorb vibrations generated when the turbine rotor is lifted or seated; And
It is installed on the guide body, jacking bolt for fine-tuning the position of the turbine rotor; includes;
The guide body,
Guide grooves are provided along the longitudinal direction,
Leaf springs,
It is installed inside the guide groove, and consists of a leaf plate and a flexible block made of an elastic material to absorb vibrations generated when the turbine rotor is lifted or seated.
Jacking bolts,
Turbine rotor guide device is installed in the guide groove in which the leaf spring is installed, so that the tension of the leaf spring is adjusted.
delete delete The method according to claim 1,
Jacking bolts,
The turbine rotor guide device, characterized in that the position of the turbine rotor is finely adjusted by being installed on both sides of the guide groove is installed, the tension of the leaf spring is adjusted.
The method according to claim 1,
Jacking bolts,
A turbine rotor guide device, characterized in that the play of the turbine rotor is adjusted within a range of less than 10 mm.
The method according to claim 1,
And a captive bolt to fix the guide body seated thereon when the guide body is seated on the flange face of the turbine casing.
The method of claim 6,
The guide body,
A turbine rotor guide device which is seated on a flange face of a turbine casing and is fixed while a lubricant is applied to a surface rubbing against the turbine rotor.

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