KR101363051B1 - Turbine case lifting device for powergeneration - Google Patents

Abstract

The present invention relates to a turbine case lifting device for a power generating unit, which comprises: a tower unit (110) where a vertical pillar (111) is installed to stand at the installation position of a lifting bar (10) and an elevating frame (113) is inserted and combined into the upper part of the vertical pillar (111) in order to be able to vertically move; an initial lifting unit (120) which initially starts an inner case (1) by installing a hydraulic cylinder (121) inside the vertical pillar (111) of the tower unit (110); a main lifting unit (130) which elevates the inner case (1) up to a safe position by being installed on the elevating frame (113) of the tower unit (110); a main supporting unit (140) which combines a supporting block (141) with the lower part of the vertical pillar (111) of the tower unit (110) in order to firmly supply the installation state of the vertical pillar (111); and a seating unit (150) which seats the supporting block (141) of the main supporting unit (140) on the bottom for firm fixation. The turbine case lifting device for a power generating unit can significantly improve workability and safety by smoothly and safely separating the heavy weight inner case, and can also improve work efficiency by rapidly separating or inserting the inner case which is inserted into the inner circumference.

Description

Turbine case lifting device for power generation

The present invention relates to a turbine case lifting device for power generation equipment, and more specifically, to generate or smoothly draw a high load inner case located inside the main case when disassembling and inspecting a turbine for power generation equipment. A turbine case lifting device for equipment.

In general, thermal power generation refers to the development of a method of converting thermal energy obtained by burning fossil fuels such as coal, oil, and gas into mechanical energy and converting it into electrical energy.

In the thermal power generation method, the water generated by burning fuel is heated to make steam, and then the steam is used to drive a steam turbine connected to the generator, and the generator is driven by an internal combustion engine such as a diesel engine. System and power generation system using a gas turbine as a prime mover.

The turbine installation of such a thermal power plant is a device that generates electricity by rotating a generator by converting thermal energy of the working medium into mechanical energy in a thermodynamic cycle using working steam or gas, and a steam turbine and a gas turbine are mainly used in a power plant.

A steam turbine is an engine that converts the thermal energy of high pressure steam into mechanical energy.The principle of operation is to accelerate and expand the steam flow by blowing and expanding the high temperature and high pressure steam produced in a boiler at a nozzle or a fixed vane, Recoil causes the rotating vanes to rotate and ultimately convert the rotating forces into electrical energy.

The gas turbine uses combustion gas instead of steam. It is a power generation facility that generates electricity by using combustion gas of fuel. For initial start-up, it must be supplied with external power or have a separate self-starting facility. It becomes possible.

Such power generation equipment is usually rotated by the rotational force of the turbine to produce power.

In other words, as the rotary shaft of the power plant is connected to the turbine shaft, as the turbine shaft rotates, the power shaft of the power plant is rotated to produce power.

At this time, the turbine shaft is rotated by the high-pressure steam bar, by adjusting the steam inflow of a constant pressure supplied to the turbine to maintain the rotation of the turbine shaft to the rated rotational speed to produce electricity.

On the other hand, if the rotation of the power plant turbine exceeds the rated rotation speed, and the rotation speed is excessive, vibration may spread and serious damage may occur to the power plant itself. It has been kept within speed.

However, such a conventional power plant turbine has been frequently dismantled in order to maximize efficiency by grasping preventive maintenance, identifying problems caused by output improvement or output degradation, and performing abnormality measurement and inspection of each part. When the inner case is separated from the main case to take a long time due to the high weight of the inner case, the operation is difficult and there is a high risk of safety accidents.

In addition, there is a patent registration No. 10-593173 that measures the tilt of the rotor to minimize the deviation of the tilt, and to reduce the interference during insertion and withdrawal of the rotor to safely lift, but it is difficult to start the inner casing with the grooved engagement In addition, there was a difficult problem to cope with the occurrence of deviation.

Accordingly, an object of the present invention is to provide a turbine case lifting device for a power plant, which enables to smoothly and safely separate a high weight inner case when disassembling a turbine for a power plant, thereby greatly improving workability and safety. .

It is another object of the present invention to provide a turbine case lifting device for a power plant that can improve the work efficiency by allowing the inner case inserted into the inner circumference of the main case of the turbine to be quickly removed or inserted.

Turbine case lifting device for power generation equipment of the present invention in order to achieve the above object is to install a vertical column in the lifting bar installation position, but the tower portion coupled to move vertically by inserting the lifting frame from the top of the vertical column, An initial lifting unit for initially starting the inner case by installing a hydraulic cylinder inside the vertical column of the tower unit, a main lifting unit for elevating the inner case to a safe position by installing on the lifting frame of the tower unit, and a vertical column of the tower unit It consists of a main support part that firmly supports the standing state of the vertical pillar by coupling the support block to the lower part, and a support part of the main support part of the main support part placed on the floor to be firm and fixed. .

Therefore, the turbine case lifting device for the power generation equipment of the present invention combines the lifting block and the lifting bar, and raises the lifting plate by controlling the hydraulic cylinder to initially separate the inner case and the main case, and then rotate the computer bolts to gradually rotate the inner case. It is possible to remove and insert the inner case inserted in the inner circumference quickly as well as to improve the workability and safety by allowing the high weight inner case to be removed smoothly and safely. It can be effective to improve the work efficiency.

1 is a perspective view showing an installation state of a turbine case lifting device for a power plant according to the present invention.
Figure 2 is a cross-sectional view showing a part of the lifting tower of the turbine case lifting device for power generation equipment according to the present invention.
Figure 3 is a cross-sectional view showing a lifting tower coupled state of the turbine case lifting device for power generation equipment according to the present invention.
Figure 4 is a cross-sectional view showing a state during the lifting tower primary lifting of the turbine case lifting device for power generation equipment according to the present invention.
Figure 5 is a cross-sectional view showing a state after the lifting tower primary lifting of the turbine case lifting device for power generation equipment according to the present invention.
Figure 6 is a cross-sectional view showing a state before the lifting tower secondary lifting of the turbine case lifting device for power generation equipment according to the present invention.
Figure 7 is a cross-sectional view showing a state during the lifting tower secondary lifting of the turbine case lifting device for power generation equipment according to the present invention.
8 is a cross-sectional view showing a lifting tower support of the turbine case lifting apparatus for a power plant according to the present invention.
9 is an exploded perspective view showing a lifting tower support of the turbine case lifting apparatus for a power plant according to the present invention.
10 is a plan view showing before and after fastening the lifting tower support of the turbine case lifting device for a power plant according to the present invention.

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

As shown in Figure 1 to 10, the turbine case lifting device for the power generation equipment of the present invention is installed upright vertical pole 111 in the installation position of the lifting bar 10, but the elevating frame (up and down) at the top of the vertical pillar (111) Initially starting the inner case (1) by installing a hydraulic cylinder 121 in the tower portion 110 and the vertical column 111 of the tower portion 110 to be coupled to the vertical movement by inserting 113; The lifting unit 120 and the main lifting unit 130 installed on the elevating frame 113 of the tower unit 110 to elevate the inner case 1 to a safe position, and the tower unit 110 vertically. The main support part 140 for firmly supporting the standing state of the vertical column 111 by coupling the support block 141 to the lower part of the pillar 111, and the support block 141 of the main support part 140 on the bottom surface. It consists of a settled part 150 to be secured and secured by placing.
Here, the safety position refers to a position where the inner case 1 does not hit the main case 2 even when shaken.
In other words, each case separated during lifting is a position that can be quickly transported in a position that cannot interfere with each other.

The tower unit 110 is coupled to the lower end of the elevating frame 113 coupled to the vertical column 111 to rotate the elevating frame 113 by combining a circular rotary block 112, on one side It is formed by drilling the slide long hole 114 vertically.

The initial lifting unit 120 is provided with a hydraulic cylinder 121 in the vertical column 111, the lifting plate 122 is attached to the rod end of the hydraulic cylinder 121 and the upper surface of the lifting plate 122 Attached to the rotary block 122 to the elevating frame 113 coupled to the upper side of the rotary block 122 to control the height.

The main lifting unit 130 is installed vertically in the elevating frame 113, the mounting bolt 132 and screwed up and down the lifting block 131 to the computing bolt 132 through the elevating block 131 ) So as to protrude to the outside through the slide long hole 114 of the elevating frame 113 so as to vertically correspond to the left and right sides of the lifting bar (10).

Here, the lifting block 131 is provided with a fastening member 135 to be firmly fastened to the lifting bar 10.

Further, the worm wheel 133 is coupled to the upper end of the computer bolt 132, and the worm 134 is coupled to the worm wheel 133, but the drive bolt 142 is coupled to the rotation shaft of the worm 134 by the computer bolt 142. As it rotates, the lifting block 131 screwed to the computer bolt 142 is moved up and down while being guided to the slide long hole (114).

The main support unit 140 is provided with a support block 141 coupled to the lower end of the vertical column 111 to keep the standing state firmly, but the slide groove 142 in a straight line in front, rear, left and right on the upper surface of the support block 141. ) Respectively.

In addition, the upper surface of the support block 141 is coupled to the pressing jig 143 in the front, rear, left and right, respectively, is coupled to the slide groove 142 on the bottom of the pressing jig 143 to form a slide piece 144 to move from side to side. .

In addition, the upper surface of the pressing jig 143 is coupled to the pressing block 146 for pressing the front, rear, left and right surfaces of the vertical pillar 111, the pressure screw 146 is coupled to the pressure screw rod 145 to the vertical column 111 Make sure to support it firmly and safely.

In addition, the pressure block 146 is preferably formed to form a pair of opposing pressure block 146 facing each other including a pair of pressure block 146, it is preferable to be firmly pressed.

The settled part 150 is installed to be firmly embedded in the support housing 151 on the ground, but forms a settled groove 152 in the center so that the support block 141 can be fitted.

The operation of the present invention will be described as follows.

First, the lifting bar 10 is placed on the upper surface of the inner case 1 to which the main case 2 is coupled and fastened with the fastening member 11, and then the chain of the crane 20 is coupled to the connector 13, but the inner case is Place the dial gauge (14) on the upper surface of the flange (1) to check the horizontal state.

Further, the hydraulic cylinder 121 and the driving motor 136 are controlled to lower the elevating plate 122 in a state of slightly lowering the elevating plate 122, thereby closely contacting the coupling groove 12 of the lifting bar 10. Then, the lifting block 131 and the lifting bar 10 are coupled to the fastening member 135.

In this state, when the lifting plate 122 is raised by controlling the hydraulic cylinder 121, the lifting frame 113 is raised, and thus the lifting block 131 and the lifting bar 10 are also raised, thus lifting the bar. The inner case 1 coupled to the 10 is separated from the main case 2.

In particular, the initial startup is to smoothly and safely initially separate from the main case (2) of the inner case (1) of the interlocking state by the grooving by the strong force of the hydraulic cylinder (121).

Furthermore, when the initial separation of the inner case 1 is completed, the drive motor 136 is controlled to rotate the computer bolt 132 to gradually raise and lower the lifting block 131, so that the inner case 1 is moved to a safe position 1. The car is lifted up and completely separated.

At this time, it is preferable to maintain the tension of the crane 20 to some extent by pulling the chain.

In addition, when the inner case 1 is first raised to a safe position, the elevating block 131 and the lifting bar 10 are separated, and the elevating frame 113 is rotated 180 degrees, and then the inflow cylinder 121 is formed. By controlling the elevating frame 113 is lowered to the bottom dead center and transports the inner case 1 to the working position with the crane (20).

On the other hand, when recombining the inner case 1 to the main case 2 can be safely and accurately recombined in the reverse order.

1: inner case 2: main case
10: lifting bar 11: fastening member
12: coupling groove 13: connector
14: dial gauge 20: crane
100: lifting tower 110: tower portion
111: vertical column 112: rotation block
113: lifting frame 114: slide slot
120: initial lifting unit 121: hydraulic cylinder
122: lifting plate 130: main lifting unit
131: ascent block 132: computer bolt
133: worm wheel 134: worm
135: fastening member 136: drive motor
140: main support 141: support block
142: slide groove 143: pressure jig
144: slide piece 145: pressure screw rod
146: pressure block 150: settle
151: support housing 152: settling groove

Claims (7)

Lift and install the vertical column (111) upright in the installation position of the lifting bar 10, but the tower unit 110 coupled to move vertically by inserting the elevating frame (113) from the top of the vertical column (111),
An initial lifting part 120 for installing the hydraulic cylinder 121 inside the vertical column 111 of the tower part 110 to start the inner case 1;
A main lifting unit 130 installed on the elevating frame 113 of the tower unit 110 to elevate the inner case 1 to the primary position;
The main support portion 140 to firmly support the standing state of the vertical column 111 by coupling the support block 141 to the lower portion of the vertical column 111 of the tower portion 110, and
Turbine case lifting device for a power plant characterized in that the support block 141 of the main support portion 140 is placed on the bottom surface solid and fixed to secure the fixed portion 150.
The method of claim 1,
The tower unit 110 is coupled to the lower end of the elevating frame 113 coupled to the vertical column 111 to rotate the elevating frame 113 by combining a circular rotary block 112, on one side Turbine case lifting device for a power plant, characterized in that configured by drilling the slide long hole (114) vertically.
3. The method according to claim 1 or 2,
The initial lifting unit 120 is provided in the part, the lifting plate 122 is attached to the rod end of the hydraulic cylinder 121 and the rotating block 122 is attached to the upper surface of the lifting plate 122 by rotating block Turbine case lifting device for a power generation equipment, characterized in that the lifting frame 113 coupled to the upper side of the 122 is configured to control the height.
3. The method according to claim 1 or 2,
The main lifting unit 130 is installed in the elevating frame 113, the vertically installed computer bolt 132, and screwed through the elevating block 131 to the computer bolt 132, elevating block 131 ) Is projected to the outside through the slide long hole 114 of the elevating frame 113, the elevating block 131 is provided with a fastening member 135, characterized in that configured to be fastened to the lifting bar (10) Turbine case lifting device for power plant.
5. The method of claim 4,
Combine the worm wheel 133 to the top of the computer bolt 132 and the worm 134 to the worm wheel 133, but combines the drive motor 136 to the rotation axis of the worm 134 to rotate the computer bolt 142 Since the lifting block 131 screwed to the computer bolt 142 is configured to move up and down while being guided to the slide long hole 114, turbine case lifting device for power generation equipment.
The method of claim 1,
The main support unit 140 is provided with a support block 141 coupled to the lower end of the vertical column 111 to keep the standing state firmly, but the slide groove 142 in a straight line in front, rear, left and right on the upper surface of the support block 141. ), Respectively, and the upper and lower sides of the support block 141 is coupled to the pressing jig 143, respectively, the slide piece 144 moving to the left and right by engaging the slide groove 142 to the bottom of the pressing jig 143 Form a), and coupled to the upper surface of the pressing jig 143, the pressing block 146 for pressing the front, rear, left and right surfaces of the vertical column 111, the pressure screw rod 145 is coupled to the pressure block 146 and facing Turbine case lifting device for a power plant characterized in that any one of the pressure block (146) formed by the depressor formed so as to be pressed while receiving the other pair of pressure block (146).
The method of claim 1,
The settled part 150 is installed to install the support housing 151 firmly on the ground, but form a settled groove 152 in the center configured to fit the support block 141, characterized in that the turbine case for power generation equipment Lifting device.

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