KR102000117B1 - Detaching device for Lower Nozzle Box of High Pressure Turbine - Google Patents

Abstract

The present invention relates to a device for disassembling a lower nozzle box of a high-pressure turbine, comprising: a horizontal guide jig connected to and installed at a lower nozzle box by a coupling member, connected to a lifting member for lifting, and provided with a laser distance sensor and a digital level gauge; four hydraulic rams arranged on a lower inner casing to be capable of pushing and lifting four corners of the horizontal guide jig concurrently when receiving hydraulic power; and a lift control unit electrically connected to the laser distance sensor and calculating a laser signal to realize the concurrent lift action of the four hydraulic rams through automatic control, wherein the distances of the four hydraulic rams are automatically controlled. The present invention prevents damage to a snout pipe and a seal by feeding back values of the laser distance sensor using the digital level gauge when the lower nozzle box of the turbine is disassembled and allows convenient disassembly.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high pressure turbine,

The present invention relates to a lower nozzle box disassembling apparatus for a high pressure turbine, and more particularly, to disassemble a lower nozzle box provided in a high pressure / intermediate pressure portion of a turbine, a horizontal level is checked using a digital level gauge, It can safely and conveniently raise and lower the lower nozzle box from the lower inner / outer casing while preventing damage to the snout pipe and seal ring by automatically lifting and controlling the height of the four hydraulic rams through feedback. To a lower nozzle box disassembling device of a high-pressure turbine.

In general, the nozzle box of the high-pressure turbine has already been widely disclosed, and a detailed description thereof will be omitted. Reference may be made to Published Patent No. 10-2008-0022523 "Steam turbine nozzle box and manufacturing method ".

According to the above-mentioned "steam turbine nozzle box and manufacturing method", according to the steam turbine nozzle box, the vaporless pockets in the nozzle box are prevented and the vapor pressure and the temperature are uniformly distributed over the entire nozzle box, Thereby uniformly distributing the steam pressure and the temperature.

As shown in FIG. 1, a shell and a nozzle box of a nozzle box constitute a high-pressure / medium-pressure portion of a turbine. The high-pressure / medium-pressure portion includes a cell S and a nozzle box N). First, the shell S is composed of an outer casing C1 and an inner casing C2 to reduce the temperature difference between the inside and the outside by the thermal stress and the shell thickness. The nozzle box N is connected to a snout pipe P which is assembled inside the inner casing C2 and penetrates through the connection holes H1 and H2 of the shell S. [ A seal ring R is interposed between the snout pipe P and the connection through holes H1 and H2. The seal ring R is completely sealed between the Snout pipe P which freely flows in accordance with the thermal deformation and the connection holes H1 and H2. The outer casing C1, the inner casing C2 and the nozzle box N are all constructed of upper and lower nozzle boxes N1 and N2 and the coupling is assembled by a coupling member (not shown).

In addition, the nozzle box N is used to replace components such as Snout pipe (P) and seal ring (R) at the time of planned preventive maintenance work at a thermal power plant and a nuclear power plant. The replacement of the parts of the snout pipe P and the seal rings R is achieved by installing a sling and a chain block at the fastening portion of the lower nozzle box N2. However, since the snout pipe P and the seal rings R are often fixed to the connection through holes H1 and H2 of the lower inner casing C2b and the lower outer casing C1a, the lower nozzle box N2 Is difficult to disassemble in the lower inner casing C2b and the lower outer casing C1b.

That is, since the lower nozzle box N2 is fixed to the lower inner casing C2a and the lower outer casing C1b with the snout pipe P and the seal ring R, There is a problem in that it receives a heavy load, and there is a problem that it is difficult to carry out the lifting work, thereby delaying the scheduled preventive maintenance work.

When the snare pipe P and the seal ring R are fixed to the lower inner casing C2b or the lower outer casing C1b, eccentricity occurs when the lower nozzle box N2 is lifted. There is a problem in that there is a fear that the parts are damaged.

If the maintenance error occurs due to the carelessness of the operator while the horizontal level of the lifting of the lower nozzle box N2 is not matched, the snout pipe P and the seal ring R are damaged and the maintenance cost is increased There is a problem.

[Patent Literature 0001] Published Patent No. 10-2008-0022523 "Steam Turbine Nozzle Box and Manufacturing Method" (Published Mar. 11, 2008)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide an apparatus and method for easily inspecting a level by using a digital level gauge when disassembling a lower nozzle box equipped with a high- have.

It is another object of the present invention to enable automatic control of the elevation height of four hydraulic rams through feedback of the laser distance sensor value so that the lower nozzle box can be easily lifted and disassembled.

It is a further object of the present invention to disassemble and dismount the lower nozzle box safely and conveniently from the lower inner / outer casing without damaging the snout pipe and seal ring.

According to an aspect of the present invention, there is provided a horizontal guide apparatus comprising a horizontal guide jig having a laser distance sensor and a digital level gauge connected to a lower nozzle box by a fastening member, Four hydraulic rams disposed on the lower inner casing so as to be able to push up four corners of the hydraulic ram in the same direction when the hydraulic pressure is supplied, and four hydraulic rams electrically connected to the laser distance sensor, And a lift control unit for causing the lift control unit to move up and down at a predetermined height.

The horizontal guide jig may include a support plate disposed in two rows at intervals in the longitudinal direction, a reinforcement frame formed to be disposed in three rows at an interval in the lateral direction on the support plate, A bolt hole formed in the support plate to be formed in a square shape and a lug protruding from both sides of the upper side of the reinforcing frame of each of the first to third rows in the first, second and third rows of the reinforcing frame, And a laser distance sensor provided on the side end face so as to measure the distance from the periphery of the lower nozzle box.

In addition, the lift control unit may include a control box formed on the upper part, a hydraulic pump formed on the lower part, a plurality of laser distance sensor connection terminals installed on one side of the control box so as to be electrically connected to the laser distance sensors, A plurality of hydraulic pressure supply ports connected to the hydraulic rams on one side of the control box so as to supply the hydraulic pressure to the hydraulic rams; An initialization setting button provided to initialize the laser distance sensor to '0' at each lower end of the LCD indicators for the laser distance sensor; A hydraulic ram individual elevating button provided to raise only one selected from among the four hydraulic rams at the lower end, A hydraulic ram individual drain button provided at the lower end of each of the LCD indicators for the bottom distance sensor so as to lower the hydraulic pressure of any one of the four hydraulic rams and a hydraulic pump individual drain button provided at a lower portion of the hydraulic pump main power source And a controller electrically connected to the control box and having a hydraulic pump emergency stop switch and a hydraulic ram up / down switch.

The horizontal guide jig is further provided with a digital level gauge for facilitating horizontal measurement on the upper portion of the reinforcing frame disposed in two rows among the reinforcing frames arranged in 1, 2, and 3 rows.

According to the apparatus for disassembling a lower nozzle box of a high-pressure turbine of the present invention, when a lower nozzle box equipped with a high-pressure / medium-pressure portion of a turbine is disassembled, the level can be easily checked using a digital level gauge.

Further, the elevation height of the four hydraulic rams can be automatically controlled through the feedback of the laser distance sensor value, so that the lower nozzle box can be easily lifted and the decomposition can be performed naturally.

Also, there is an effect that the lower inner / outer casing can be operated without damaging the snout pipe and the seal ring even if the lower nozzle box is lifted safely and conveniently.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram of a high pressure / intermediate pressure section of a turbine with a nozzle box according to the prior art;
2 is a view showing a lower nozzle box disassembling apparatus of a high pressure turbine according to the present invention.
3 (a) and 3 (b) are views showing a horizontal guide jig shown in Fig. 2;
Fig. 4 is a view showing an example of installation and lift of the lower nozzle box disassembling apparatus shown in Fig. 2; Fig.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for disassembling a lower nozzle box of a high-pressure turbine according to the present invention will be described in detail with reference to the accompanying drawings.

2 to 4, the lower nozzle box disassembling apparatus 2 of the high-pressure turbine according to the present invention comprises a lower nozzle box N2 connected to the lower nozzle box N2 by a fastening member B, A horizontal induction jig 10 having a laser distance sensor 10a and a digital level gauge 10b while being connected to the horizontal induction jig 10 so that the four corners of the horizontal induction jig 10 can be pushed up Four hydraulic rams 20 disposed on the lower inner casing H and four hydraulic rams 20 electrically connected to the laser distance sensor 10a and operated to calculate laser signals, And a lift control unit (40) for performing lift and elevation.

3 (a) and 3 (b), the horizontal induction jig 10 is fastened to the lower nozzle box N2 with a fastening member (B). That is, in the lower nozzle box N2, bolt grooves are formed so as to be connected to the upper nozzle box N1 by a bolt.

3 (a) and 3 (b), the horizontal induction jig 10 includes a support plate 30 arranged in two rows at intervals in the longitudinal direction, A bolt hole 34 formed in a square shape in a support plate 30 exposed between the reinforcing frame 32 and a reinforcing frame 32 formed to be arranged in three rows at intervals in the lateral direction, A lug 36 protruding from each of upper and both sides of the reinforcing frame 32 in the first to third columns of the first, second and third rows of the reinforcing frame 32; And a laser distance sensor 10a provided on the side end face so as to measure the distance from the periphery of the lower nozzle box N. [

The horizontal guide jig 10 is installed at a predetermined height on the lower nozzle box N2 by the fastening members B inserted through the bolt holes 34 of the support plate 30.

When the horizontal guide jig 10 is installed as the fastening member B, the hydraulic rams 20 are installed on the lower inner casing C2b. That is, the hydraulic rams 20 are arranged so as not to interfere with the rise of the lower nozzle box N2 on the lower inner casing C2b at a position where the horizontal induction jig 10 can be pushed up.

The lift control unit 40 includes a control box 42 formed at an upper portion thereof, a hydraulic pump 44 formed at a lower portion thereof, a control box 42 electrically connected to the laser distance sensors 10a, A plurality of laser distance sensor connection terminals 42b provided on one side of the control box 42 and a hydraulic ram 20 connected to one side of the control box 42 so as to supply the hydraulic pressure to the hydraulic rams 20 An LCD indicator 42d for four laser distance sensors disposed at one side of the control box 42 so as to display signals of the laser distance sensor 10a and a plurality of hydraulic pressure supply ports 42c, An initialization setting button 42e provided at each lower end of the laser distance sensor LCD indicator 42d to initialize the laser distance sensor 10a to "0", and an LCD reset indicator 42d for the laser distance sensor And one of the four hydraulic rams (20) And a hydraulic ram (42) for raising the hydraulic pressure of the selected one of the four hydraulic rams (20) at the lower ends of the LCD indicators (42d) for the laser distance sensor, A hydraulic pump main power switch 44a provided in a hydraulic pump 44 formed at a lower portion of the control box 42 and a hydraulic pump main power switch 44b electrically connected to the control box 42, And a controller 50 having an emergency stop switch 46 and an up / down switch 48 of the hydraulic ram 20.

The horizontal guide jig 10 is provided with a digital level gauge 10b that facilitates horizontal measurement on the reinforcing frame 32 disposed in two rows among the reinforcing frames 32 arranged in 1, ) Is further installed.

Hereinafter, embodiments and examples of the present invention will be described in detail with reference to the drawings.

First, the horizontal induction jig 10 is placed on the turbine ceiling crane C and then placed on the upper portion of the lower nozzle box N2.

The fastening member B such as a bolt inserted through the bolt hole 34 of the support plate 30 forming the horizontal induction jig 10 is fastened to the lower nozzle box N2. At this time, the coupling member B is installed at a predetermined height on the lower nozzle box N2 so that the hydraulic ram 20 can be disposed when the horizontal induction jig 10 is installed.

After the horizontal induction jig 10 is installed in the lower nozzle box N2, the hydraulic rams 20 are disposed on the lower inner casing C2B so that the horizontal induction jig 10 can be pushed up. . The hydraulic rams 20 are installed in contact with the support plate 30 at the corners 4 of the horizontal induction jig 10.

At this time, the four laser distance sensors 10a are horizontally aligned at four corners of the horizontal induction jig 10 so that the horizontal induction jig 10 can be installed horizontally. Then, all four LCD distance indicator LCD indicators 42d provided to display the numerical value of the laser distance sensor 10a are initialized to " 0 "

Thereafter, the digital level gauge 10b is placed on the upper portion of the reinforcing frame 32 in the two rows of the reinforcing frame 32 to perform horizontal measurement.

When the lower nozzle box N2 is ready to be lifted up, the hydraulic pump 44 of the lift control unit 40 is operated to lift the four hydraulic rams 20. That is, when the hydraulic pressure pump main power switch 44a provided in the hydraulic pump 44 provided at the lower part of the control box 42 is operated to pump the hydraulic pressure, the hydraulic rams 20 operate. The hydraulic rams 20 are controlled so as to rise to the same height by the controller 50 that computes the signals of the four laser distance sensors 10a when the hydraulic rams 20 operate.

The lower nozzle box N2 is connected to the lower inner casing C2b or the lower outer casing C1b by the operation of the lifting guide jig 10 and the lift control unit 40 so that the snout pipe P and the seal ring R The lower nozzle box N can be safely lifted without being damaged even if it is fixed. The elevation of the lower nozzle box N2 prevents the elevation of eccentricity by the horizontal level check by the digital level gauge 10b, thereby preventing damage to the parts.

The embodiments of the lower nozzle box disassembling apparatus of the high pressure turbine of the present invention described above are merely illustrative and those skilled in the art can make various modifications and equivalent other embodiments You can see that it is. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

B: fastening member C:
C2b: Lower inner casing N2: Lower nozzle box
10: Horizontal guide jig 10a: Laser distance sensor
10b: Digital level gauge 20: Hydraulic ram
30: support plate 32: reinforcing frame
34: bolt hole 36: rug
40: Lift control part 42: Control box
42b: Laser distance sensor connection terminal 42c: Hydraulic supply port
42d: LCD indicator for laser range sensor 42c: Reset setting button
42f: hydraulic ram individual rise button 42g: hydraulic ram individual drain button
44: Hydraulic pump 44a: Hydraulic pump main power switch
46: Hydraulic pump emergency stop switch 48: Up / down switch
50: controller

Claims (4)

A horizontal induction jig 10 having a laser distance sensor 10a and a digital level gauge 10b connected to a lifting member C connected to the lower nozzle box N2 by a fastening member B, ,
Four hydraulic rams 20 disposed on the lower inner casing C2b so that four corners of the horizontal induction jig 10 can be similarly pushed up when hydraulic pressure is supplied,
And a lift control unit (40) electrically connected to the laser distance sensor (10a) and calculating a laser signal to automatically control the four hydraulic rams (20) so as to ascend and descend to the same height. In the decomposition apparatus,
The horizontal guide jig (10)
A support plate 30 arranged in two rows at intervals in the longitudinal direction,
A reinforcing frame 32 formed on the support plate 30 so as to be arranged in three rows spaced laterally,
A bolt hole 34 formed in a square shape in the support plate 30 exposed between the reinforcing frames 32,
A lug 36 protruding from the first and second rows of the reinforcing frame 32 on both sides of the reinforcing frame 32,
And a laser distance sensor 10a provided on both end faces of the reinforcing frame 32 in the first to third columns of the reinforcing frame 32 so as to be able to measure the distance from the periphery of the lower nozzle box N. And the lower nozzle box disassembly device of the high-pressure turbine. delete delete delete

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