KR101429605B1 - Centering device of a gas turbine blade ring - Google Patents

Abstract

The present invention relates to a method and an apparatus for centering a blade of a gas turbine in which a centering between actual housings is accurately measured and centered by a simple method on the basis of a blade ring provided in a gas turbine, A mounting frame having a mounting space for mounting the mounting frame; A measurement unit for measuring a center value of the blade ring and an actual housing while rotating a measuring instrument having an end sensor at the center of the mounting frame, and moving upward, downward, leftward and rightward; Display means for displaying each center value measured by the measurement unit; .
Accordingly, the centering operation can be easily performed in a short time, and the overall assembly work of the gas turbine can be remarkably shortened.

Description

Technical Field [0001] The present invention relates to a centering device for a gas turbine,

The present invention relates to a bladed ring constituting a gas turbine, and more particularly, to a gas turbine which is capable of precisely measuring and centering centering between thread housings based on a blade ring provided in a gas turbine, To a centering device for a blade ring.

Generally, a turbine is a mechanical device that obtains rotational force by impulse force or reaction force by using a flow of compressible fluid such as steam or gas. Steam turbine is used when steam is used, and gas turbine is used when combustion gas is used do.

The thermal cycle of the gas turbine is a Brayton Cycle, which is a compressor that sucks air from the atmosphere and raises it, and then supplies combustion air to the combustor. Combines the compressed air with the fuel to burn the high- The turbine consists of a combustor, a turbine that transforms high-temperature and high-pressure combustion gases from a combustor into mechanical energy by inflating and rotating the turbine blades.

Thus, the mechanical energy from the turbine is supplied to the compressor in the required energy (about 60% of the total turbine power) to compress the air and the remainder is used to drive the generator to produce power.

The operating principle of this gas turbine is to first suck air from the atmosphere and compress it with a compressor, then send it to a combustor to generate high-temperature, high-pressure gas to operate the turbine and to discharge the exhaust gas to the atmosphere, And heat dissipation.

Among the important components of a typical gas turbine as described above, when assembling a blade ring and a seal housing in which a rotor rotated at high speed is assembled for power generation, centering, that is, It is preferable that the assembly is carried out while maintaining the concentricity and the perpendicularity of the center of gravity.

However, the conventional method of measuring the centering of the blade ring and the thread housing is performed by the manual operation of the operator. That is, after the blade ring and the threaded housing are mounted, the centering is controlled while rotating the 360 ° one- It has a disadvantage in that not only a lot of work but also fatal damage of work due to misreading of a worker occurs and a considerable time is required for a correction work.

In order to solve the above-mentioned conventional problems, an apparatus for measuring an alignment of a blade ring has been proposed as disclosed in Korean Registered Utility Model No. 20-0377038, which is an inner ring of the blade ring, There has been proposed a device for measuring alignment by connecting a digital vernier caliper, which is a measurer for checking a center point, to a computer.

Korean Registered Utility Model No. 20-0377038

However, in the case of the above-mentioned registered utility model, it is troublesome and inconvenient for the installation work to correctly install each measuring instrument on the outer ring and the inner ring of the blade ring, and accurate measurement is performed when the position of any one of the measuring instruments is wrongly installed But it had the disadvantage of not supporting it.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the related art, and its main object is to accurately measure and center the centering between the threaded housings based on the blade ring provided in the gas turbine by a simple method. And to provide a blade ring centering device for a gas turbine.

Another object of the present invention is to enable rotation for up-centering measurement and upward, downward, leftward and rightward movement in one unit.

It is still another object of the present invention to make it easy to mount and fix a measurer.

It is a further object of the present invention to facilitate the position of the measurer according to the diameter of the blade ring and the thread housing.

According to an aspect of the present invention, there is provided a method for centering a blade ring and an actual housing of a gas turbine, the method comprising: mounting a blade ring and an actual housing on a mounting frame; Measuring the center value of the blade ring held by the measuring unit moving upward, downward, leftward and rightward together with the rotation of the measurer provided with the detection sensor at the center of the mounting frame, and displaying the measured center value as display means; Measuring a center value of the mounted actual housing while being moved upwardly, downwardly, leftwardly, and rightwardly with rotation by a measurer of the measurement unit, and displaying the measured center value so as to be compared with the center value of the blade ring by the display means; And adjusting a center of the threaded housing based on the center value of the blade ring.

CLAIMS 1. An apparatus for centering a blade ring and an actual housing of a gas turbine, the apparatus comprising: a mounting frame having a mounting space in front of which the blade ring and the thread housing are mounted; A measurement unit for measuring a center value of the blade ring and an actual housing while rotating a measuring instrument provided with a sensing sensor at an end in the center of the mounting frame and moving upwardly, downwardly, leftwardly and rightwardly; Display means for displaying each center value measured by the measurement unit; .

The measuring unit includes a holder block provided at a front side to be rotatable by a rotating motor and a power transmitting means to hold a holder on which one end of the measuring instrument is mounted, a left and right block for moving the holder block to the left and right on the guard rail by the first driving motor, And upper and lower blocks for moving the left and right blocks vertically on the guide rail by the second driving motor.

The holder may include a pair of bridge blocks into which one end of the measurer is inserted, and a pair of fastening portions to be fastened to the bridge block.

The movement of the left and right blocks and the upper and lower blocks is made up of each conveying screw rotated by the first and second driving motors, and each conveying block mounted on the upper and lower blocks and conveyed on each of the conveying screws.

The measurer is characterized by being larger than the radius of the thread housing and smaller than or equal to the radius of the blade ring.

The centering of the actual housings can be precisely measured and centered by a simple method on the basis of the blade ring provided in the gas turbine, so that the centering operation can be performed easily in a short time, And the overall assembling work of the gas turbine thus obtained is also remarkably shortened.

In addition, since the rotation for the centering measurement and the movement in the up, down, left, and right directions can be performed in one unit, it is possible to make the structure as simple as possible as well as accurate measurement, .

In addition, since the mounting and fixing of the measurer can be conveniently performed, the center measurement of the blade ring and the thread housing can be further shortened, and the whole centering operation time can be further shortened.

Further, since the position of the measurer can be easily adjusted according to the diameter of the blade ring and the thread housing, more accurate measurement can be performed according to the diameter to be measured.

1 is a block diagram schematically showing a measuring method of the present invention.
FIG. 2A is a front view of a main part schematically showing a measuring apparatus of the present invention. FIG.
Figure 2b is a schematic side elevational view according to Figure 2a.
Figure 2c is a schematic plan view of the main according to Figure 2a.
FIG. 2d is a photograph of the key figure schematically showing the display means of the present invention. FIG.
FIGS. 3A and 3B are schematic views schematically showing the use state of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The present invention is not limited to the embodiments.

1 is a block diagram schematically showing a measuring method of the present invention.

As shown in the drawing, as a method for simplifying the centering of the blade ring and the threaded housing of the gas turbine without inconvenience, the blade ring and the threaded housing are mounted on the front of the mounting frame so that the centers of the blades and the threaded housing are centered A step S1 of confirming and storing the image with the naked eye of the operator is performed.

Then, a movement value is calculated by recognizing the error of the upper, lower, left, and right sides of the blade ring together with the rotation of the measurer provided with the sensor at the center of the mounting frame at the end, (Step S2) of accurately measuring the center value of the blade ring held by the measuring unit moved to the lower, left, and right, and displaying the center value of the blade ring by a display means such as a typical computer or a monitor.

Then, the measuring unit of the measuring unit recognizes the error of the upper, lower, left, and right sides of the actual housing together with the rotation, calculates the moving value, and moves the upper, lower, left and right by the calculated moving value (S3) of accurately measuring the center value of the threaded housing held by the unit and displaying it so that it can be compared with the center value of the blade ring by the display means.

(S4) adjusting the center of the thread housing to be equal to the center value of the blade ring based on the center value of the blade ring indicated by the display means.

In the center of the mounting frame where the blade ring and seal housing of the gas turbine are mounted, the center of the blades is first measured by the measuring unit moving and the measuring unit moving upward, downward, left, and right. By measuring the center value of the thread housing in the same manner and comparing the center values through the display means, it is possible to adjust the center of the thread housing to exactly match the center value of the blade ring.

Accordingly, the centering method of the blade ring and the threaded housing of the present invention measures the center value of the blade ring by a simple method without the hassle or inconvenience, and then measures the center value of the threaded housing and then compares the center values of the threaded housing, So that the overall assembling efficiency of the gas turbine can be maximized.

FIG. 2B is a schematic side elevational view according to FIG. 2A, FIG. 2C is a schematic plan view according to FIG. 2A, and FIG. 2D is a plan view showing the display device of the present invention And Figs. 3A to 3B are schematic views schematically showing the use state of the present invention. Fig.

As shown in the figure, an apparatus for simple and accurate centering of a blade ring and an actual housing of a gas turbine is provided, in which the blade ring 100 and the thread housing 110 are transported forward And a mounting frame 10 having a mounting space portion 12 to be mounted by a common receiving jig or a fastener or the like, and which can be lifted up by a worker.

In addition, a detection sensor (not shown) for detecting the error of each of the upper, lower, left, and right sides of the blade ring 100 and the thread housing 110 at the center of the mounting frame 10 so as to calculate a movement value S and the angles of the blade ring 100 and the thread housing 110 are moved in the upward, downward, left, and right directions according to the calculated movement values, And a measuring unit 20 for accurately measuring the center value.

Display means (30) for displaying each center value measured by the measurement unit (20) by a normal computer or a monitor connected to the detection sensor so that any worker can visually confirm it easily; .

Accordingly, the center value of the blade ring and the thread housing mounted in the mounting space of the mounting frame is accurately measured by the measuring unit which is rotated and moved, and the measured center value is easily confirmed through the work display means, The centering of the thread housing can be adjusted based on the center value of the gas turbine, so that the centering operation can be performed quickly in a short time without hassle, thereby improving the efficiency of assembling work and further reducing the overall assembling work of the gas turbine It also has the advantage of being able to do.

The measuring unit 20 is provided so as to be rotatable by a normal rotating motor 23a and a power transmitting means such as a belt or a chain or the like in front of the holder 22 to which one end of the bar- A left block 24 for moving the holder block 23 left and right on a pair of guard rails provided in parallel by the first driving motor 24a, And a vertical block 25 for vertically moving the pair of guide rails 25a and 25b on a pair of guide rails provided in parallel by the second drive motor 25a.

In other words, as the rotating motor rotates the measuring device mounted on the holder, the rotation motor recognizes the upward, downward, left, and right errors of the blade ring and the actual housing by the detection sensor provided at the end of the measuring device, do.

When the movement value is calculated by the detection sensor, the center value of the blade ring and the actual housing is accurately measured by locating the left and right blocks and the upper and lower blocks at positions corresponding to the movement values by the first and second driving motors I have a condition that I can do.

The holder 22 is composed of a pair of bridge blocks 22a into which one end of the tester 21 is inserted and a pair of tightening openings 22b screwed into the bridge block 22a It is preferable that a sensing sensor provided at the end of the measurer when measuring the center of each of the blades is different from the diameter of the blade ring and the diameter of the threaded housing located inside the blade ring when the measurer is fixed to the bridge block. So that it can be smoothly moved and fixed to a position to be measured.

It is preferable that the measurer 21 is larger than the radius of the thread housing 110 and smaller than or equal to the radius of the blade ring 100. That is, it is possible to measure the center of the blade ring and the thread housing with a single measurer When measuring the center of the small-diameter threaded housing, it is preferable that the measurement is performed by moving the portion of the holder where the detection sensor is located to the inner half-diameter of the thread housing.

The movement of the left and right blocks 24 and the upper and lower blocks 25 is controlled by the usual respective conveying screws rotated by the first and second driving motors 24a and 25a, 25). Each of the transport blocks is mounted on each transporting screw. Thus, the transport block is moved to a desired position by driving the first and second driving motors according to the movement values, and moved to measure an accurate center value.

Accordingly, it is possible to accurately measure the centering of the blade ring and the threaded housing, which are important components of the gas turbine, in a simple and convenient manner in a short time without troublesomeness, thereby making it possible to improve the efficiency of the centering work, And the overall assembling operation time of the turbine can also be remarkably shortened.

10: mounting frame 12: mounting space part
20: measurement unit 21:
22: Holder 22a: Bridge block
22b: fastener 23: holder block
23a: rotation motor 24: left and right blocks
24a: first drive motor 25: upper and lower blocks
25a: second drive motor 30: display means
S: Detection sensor 100: Blade ring
110: thread housing

Claims (6)

delete CLAIMS 1. An apparatus for centering a blade ring and an actual housing of a gas turbine, the apparatus comprising: a mounting frame having a mounting space in front of which the blade ring and the thread housing are mounted; A measurement unit for measuring a center value of the blade ring and an actual housing while rotating a measuring instrument provided with a sensing sensor at an end in the center of the mounting frame, and moving upward, downward, leftward and rightward; Display means for displaying each center value measured by the measurement unit; Including,
Wherein the measuring unit includes a holder block provided to rotate a holder on which a first end of the measurer is mounted, left and right blocks for moving the holder block to the right and left, and upper and lower blocks for moving the left and right blocks up and down Of the gas turbine. 3. The method of claim 2,
Wherein the holder block is rotated by a rotation motor and a power transmitting means and the left and right blocks are moved left and right on a pair of guide rails provided in parallel by a first drive motor, To move up and down on a pair of guide rails provided parallel to each other. The method of claim 3,
Wherein the holder comprises a pair of bridge blocks into which one end of the measurer is inserted, and a pair of tightening means fastened to the bridge block. 5. The method of claim 4,
Wherein the movement of the left and right blocks and the upper and lower blocks comprises each of the feed screws rotated by the first and second drive motors, and each of the feed blocks mounted on the respective feed screws mounted on the upper and lower blocks. Blade centering device. 6. The method according to any one of claims 2 to 5,
Wherein the measurer is larger than the radius of the thread housing and less than or equal to the radius of the blade ring.

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