KR101026401B1 - Seal Fin Grinding Apparatus of Turbine - Google Patents

Abstract

The present invention relates to a seal pin polishing apparatus for a turbine, comprising: a rail coupling portion installed at a lower portion of the fixed plate and fixed to the left and right ends of the labyrinth seal, and a rail coupling portion installed at an upper portion of the fixed plate, and an inner surface seal of the labyrinth seal. It consists of a cutting part that cuts the surface of the pin, and it is possible to grind the seal pin directly on site without removing the labyrinth seal from the turbine. By reducing the man-hours, the labor force can be minimized. By completing the work in a short time, the restart time of the turbine can be shortened as much as possible. Also, the seal pin is maintained without changing the original assembly state. May be generated during the disassembly process Prevents the risk of assembly errors, maintains the optimum accuracy, and rotates along the trajectory of the inner surface of the labyrinth seal to polish the seal pin surface, eliminating the need for a separate fixing facility. It is simple and is designed to individually grind the seal pin of the labyrinth seal while moving the position of the cutter up, down, left, and right, and has an effect that can be used for processing various labyrinth seals.

Description

Seal Fin Grinding Machine for Turbine {Seal Fin Grinding Apparatus of Turbine}

The present invention relates to a seal pin polishing apparatus for a turbine, and more particularly, to a seal pin polishing apparatus for a turbine which enables the seal pin to be polished immediately in the field without disassembling the labyrinth seal.

In general, when a turbine operates, a working fluid flows inside the turbine, and a rotor, that is, a turbine shaft having a rotary blade on the outer edge of the turbine, rotates to generate power.

In this power generation process, if the working fluid deviates from the correct path, vibrations of the turbine shaft and consequent energy efficiency may occur.

Thus, a turbine seal is adopted for the purpose of assembling in the gas turbine to prevent gas leakage, i.e. for sealing against small gaps between the stator and the rotor of the gas turbine. have.

Non-contact labyrinth seals are commonly used in turbine seals.

Turbine is a rotary machine that induces power generation by rotating the rotor at high speed by using high temperature and high pressure steam or gas. Therefore, conventionally, the above non-contact labyrinth seal is adopted as a seal between the rotor and the stationary body of the turbine.

1 (a) to (b) is a view showing a representative example of the conventional labyrinth seal (labyrinth seal), the reference numeral 9 in the figure is a fixed wing mounted on the inner surface of the turbine casing (not shown), fixed wing On the inner side, a seal ring 2 is elastically installed through an elastic body 11 such as a spring and is forced toward the turbine shaft.

The seal ring 2 includes a seal fin 4 having a structure integral with or detachable from the seal ring, and extending toward the outer diameter of the turbine shaft 5, and optionally the turbine shaft; As shown in FIG. 1B, an uneven step 6 may be formed on the outer surface of 5).

The structure of the non-contact seal having the basic structure as described above is generally referred to as a labyrinth seal (15), and in order to increase the driving efficiency of the overall turbine, the tip of the seal fin (4) and the turbine By setting the clearance 7 between the shafts 5 as small as possible, the amount of leakage of the working fluid 3 leaking through the clearance 7 is minimized.

As described above, the labyrinth seal 15 of the related art has been used for a long time, and the axial vibration causes interference between the seal pin 4 and the turbine shaft 5 so that a specific portion of the seal pin 4 is unevenly worn. Problems may arise.

At this time, when piece wear occurs at a specific portion of the seal pin 4, the flow of the working fluid becomes unstable, which intensifies the axial vibration problem, resulting in damage and breakage of the machine.

Therefore, it is necessary to readjust the gap between the seal pin 4 and the turbine shaft 5 at the beginning of the interference between the seal pin 4 and the turbine shaft 5.

At this time, the uneven wear pin (4) is sent to a factory that specializes in polishing operations to go through the flattening operation, which is to remove the labyrinth seal 15 from the turbine, the labyrinth seal 15 in the polishing factory After polishing, there is a problem that not only has to be reassembled, but also assembly error occurs by repeating the disassembly and assembly process of the labyrinth seal 15.

In addition, since the turbine is stopped during the re-assembly of the labyrinth seal 15 after polishing, there is a problem in that an economic loss occurs.

In addition, the labyrinth seal 15 as described above has a service life, and should be replaced with a new product. The new product is released as the gap between the seal pin 4 and the turbine shaft 5 is narrowly released. Since the interference between the turbine shaft 5 and the turbine shaft 5 is easily generated when it is used as it is coupled to the turbine shaft 5, the new product must undergo a pre-polishing process before joining the turbine shaft 5. It is desirable to grind through the measurement and measurement, but because the field work is difficult to perform the grinding work in the factory, this process was very troublesome and takes a long time.

SUMMARY OF THE INVENTION An object of the present invention devised to solve the problems of the prior art is to provide a seal pin polishing device for a turbine which enables the seal pin to be polished immediately in the field without disassembling the labyrinth seal.

Still another object of the present invention is to provide a seal pin polishing apparatus for a turbine which performs seal pin polishing while rotating circumferentially along an inner surface of the labyrinth seal.

Still another object of the present invention is to provide a seal pin polishing apparatus for a turbine which allows the seal pin of the labyrinth seal to be individually processed while moving the position of the cutter up, down, left, and right.

Seal pin polishing apparatus for a turbine of the present invention for achieving the above object is a rail coupling portion which is installed on the bottom of the fixed plate and the fixed plate and the rail coupling portion and rail coupling with the left and right ends of the labyrinth seal and the labyrinth seal is installed on the top of the fixed plate And a cutting portion for cutting the inner surface of the seal pin.

Here, the fixing plate may be installed such that a pair of plate bodies face each other with the labyrinth seal therebetween, and may be supported by coupling a plurality of fixed shafts therebetween.

And, the rail coupling portion may be composed of a plurality of guide rollers for pressing and supporting the flesh portion of the left and right both ends of the labyrinth seal on the upper and lower surfaces.

In addition, the cutting part is coupled to the rail rail horizontally installed across the upper plate body of the fixed plate left and right adjustment guide slides in the left and right direction rail is coupled to the vertical rail installed in the center of the left and right adjustment guide slide in the vertical direction Moving up and down adjustment guide Drive motor is installed in front of the up and down adjustment guide to provide a rotational power and the power transmission means for transmitting the rotational force of the drive motor and installed below the vertical adjustment guide, and rotates from the drive motor using the power transmission means It includes a cutter that receives the power.

At this time, the power transmission means may be connected to the rotary shaft of the drive motor between the rotary shaft of the cutter to enable the belt drive.

According to the present invention having the above-mentioned solution, it is possible to perform the grinding operation of the seal pin immediately on the field without removing the labyrinth seal from the turbine, thereby reducing the working time and labor required for disassembly and assembly work By minimizing the time required and completing the work in a short time, it is possible to reduce the turbine restart time as much as possible.

In addition, according to the present invention, as the polishing operation of the seal pin is performed in the state of maintaining the original assembly without changing the original assembly state, it is possible to maintain the optimum precision by preventing the risk of assembly error that may occur during the disassembly operation. Has an effect.

In addition, the present invention, by rotating along the trajectory of the inner surface of the labyrinth seal to be polished to the surface of the seal pin, there is no need for a separate fixing equipment has the effect of easy handling.

In addition, the present invention is designed to individually polish the seal pin of the labyrinth seal while moving the position of the cutter up, down, left, and right, and has an effect that can be used for processing various types of labyrinth seals.

Hereinafter, with reference to the accompanying drawings for a preferred embodiment of the present invention will be described in detail.

Figure 2 is a front view showing a seal pin polishing apparatus for a turbine according to the present invention, Figure 3 is a side view showing a seal pin polishing apparatus for a turbine according to the present invention, Figure 4 shows a seal pin polishing apparatus for a turbine according to the present invention. One floor plan.

The seal pin polishing apparatus for a turbine as shown in the drawing is largely fixed to the fixed plate 105 and the rail coupling portion 104 which is installed at the lower portion of the fixed plate 105 and rail-coupled to the left and right both ends of the labyrinth seal 101. And a cutting part 115 installed on the fixing plate 105 to cut the surface of the inner seal pin 101a of the labyrinth seal 101.

Referring to the fixing plate 105, it serves as a base structure for installing the components for constituting the polishing apparatus of the present invention, so that a pair of plates face each other with the labyrinth seal 101 therebetween. It is provided, and can be formed by coupling a plurality of fixed shafts 106 therebetween, or by bending the integral plate body in a "c" shape.

A rail coupling part 104 is formed at a lower portion of the fixing plate 105 to be rail-coupled with both left and right ends of the labyrinth seal 101.

Referring to the rail coupling portion 104, by engaging the seal pin polishing apparatus in the inner direction of the labyrinth seal 101 made in an annular shape to allow the slide movement in the circumferential direction.

The rail coupling portion 104 may be composed of a plurality of guide rollers 104 for pressing and supporting the flesh portions of the left and right both ends of the labyrinth seal 101 on the upper and lower surfaces.

2 to 4 illustrate an example in which four guide rollers 104 each of left and right are arranged in two rows, and the left and right both side portions of the labyrinth seal 101 are engaged to be engaged therebetween.

The fixing plate 105 coupled to the inner side of the labyrinth seal 101 by the rail coupling part 104 is provided with a cutting part 115 at an upper portion thereof, and uses the cutting part 115 to seal the pin 101a. The surface of the machine will be cut.

The cutting processing unit 115 has a horizontal rail 107a is installed across the upper plate body of the fixed plate 105, the left and right adjustment guide 107 slides left and right in the horizontal rail 107a is coupled to the rail do.

A vertical rail 108a is installed at the center of the left and right adjustment guide 107, and a vertical adjustment guide 108 is rail-coupled to the vertical rail 108a to slide in the vertical direction.

And, in front of the vertical adjustment guide 108, the drive motor 103 is installed using the motor fixing bracket 112 to provide rotational power, the rotational power of the drive motor 103 is the power transmission means 110 To the cutter 102.

At this time, the cutter 102 is installed below the vertical adjustment guide 108, and rotates by receiving the rotational power from the drive motor 103 using the power transmission means 110, thereby polishing the surface of the seal pin (101a) do.

At this time, the power transmission means 110 may be a structure for connecting the belt drive between the rotary shaft of the cutter 102 to the rotary shaft of the drive motor 103.

Here, the cutter 102 is manufactured to have a narrow width so that the seal pin 101a can be polished one line at a time.

The cutter 102 moves the position after the seal pin 101a of one line is polished to polish the seal pin 101a of the next line, and the left and right adjustment guide 107 is moved in the left and right directions. It is moved to adjust, and the separation distance with the seal pin surface can be adjusted by moving the vertical adjustment guide 108.

At this time, the up and down adjustment guide 108 is preferably to be fine-tuned in units of one millionth of a millimeter using the fine adjustment lever 109.

As described above, the present invention enables the polishing operation of the seal pin 101a to be performed immediately in the field without removing the labyrinth seal 101 from the turbine, thereby reducing work time and labor time required for disassembly and assembly work. The workforce can be minimized.

In addition, in the present invention, the polishing operation of the seal pin 101a is performed in the state of maintaining the original assembly state without changing it.

Therefore, it is possible to prevent the risk of assembly error that can occur during the disassembly operation process, it is possible to maintain the optimum precision.

In addition, since the polishing is performed on the surface of the seal pin 101a while rotating along the trajectory of the labyrinth seal 101 in the circumferential direction, a separate fixing device is not required.

Figure 2 is a front view showing a seal pin polishing apparatus for a turbine according to the present invention.

Figure 3 is a side view showing a seal pin polishing apparatus for a turbine according to the present invention.

Figure 4 is a plan view showing a seal pin polishing apparatus for a turbine according to the present invention.

<Description of the symbols for the main parts of the drawings>

101: labyrinth seal 101a: seal pin

102: cutter 103: drive motor

104: rail coupling portion 105: fixing plate

106: fixed shaft 107: left and right adjustment guide

107a: Horizontal rail 108: Up and down adjustment guide

108a: vertical rail 109: fine adjustment lever

110: power transmission means 112: motor fixing bracket

115: cutting part

Claims (5)

Fixing plate 105; A rail coupling part 104 installed at a lower portion of the fixing plate 105 to be rail-coupled with both left and right ends of the labyrinth seal 101; And And a cutting processing unit (115) installed above the fixing plate (105) for cutting the surface of the inner seal pin (101a) of the labyrinth seal (101). The method of claim 1, The fixed plate 105 is installed so that a pair of plates facing each other with the labyrinth seal 101 therebetween, a plurality of fixed shaft 106 is coupled to be supported therebetween Seal pin grinding machine. The method of claim 1, The rail coupling part 104 is a turbine seal pin polishing device, characterized in that composed of a plurality of guide rollers (104) for pressing and supporting the flesh portion of the left and right both ends of the labyrinth seal 101 from the upper and lower surfaces. The method of claim 1, The cutting processing unit 115 is a rail coupled to the horizontal rail (107a) is installed across the upper plate between the fixed plate 105, the left and right adjustment guide 107 to be moved in the left and right directions; A vertical adjustment guide 108 which is coupled to the vertical rail 108a installed at the center of the left and right adjustment guide 107 and slides in a vertical direction; A drive motor 103 installed in front of the vertical adjustment guide 108 to provide rotational power; Power transmission means for transmitting the rotational force of the drive motor 103; And A cutter 102 installed below the vertical adjustment guide 108 and receiving rotational power from the driving motor 103 using the power transmission means 110; Seal pin polishing apparatus for a turbine comprising a. The method of claim 4, wherein The power transmission means 110 is a turbine seal pin polishing device, characterized in that for connecting the belt drive between the rotary shaft of the cutter 102 to the rotary shaft of the drive motor (103).

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