KR101364435B1 - Safety lifting device for turbine inner case - Google Patents

Abstract

The present invention relates to a safety lifting device for a turbine inner case, the tower portion 110 for installing the vertical column 111 in the installation position of the lifting bar 10, and the vertical column 111 of the tower portion 110 Install the moving frame 125 in the operation unit 120 coupled to the moving plate 121 to extend the lifting height to the moving frame 125, and the wire rope (120) on the moving plate 121 of the operating unit 120 131 is integrally coupled to the lifting unit 130 and the wire rope 131 extending downward from the upper end of the vertical column 111 and fastened to the lifting bar 10, the moving frame (120) Coupling the hydraulic cylinder 141 to 125, the power transmission unit 140 for pushing down the moving frame 125 downward, and the support block 151 is coupled to the lower portion of the vertical column 111 of the tower unit 110 Main support portion 150 for firmly supporting the standing state of the vertical column 111, and the support block of the main support portion 150 Since the lock 151 is composed of a settled portion 160 which is firmly fixed to the bottom surface, the inner case of the heavy weight can be smoothly and safely separated, thereby greatly improving workability and safety as well as inner peripheral edge. It is possible to improve the work efficiency by being able to quickly remove or insert the inner case inserted in the.

Description

Safety lifting device for turbine inner case

The present invention relates to a safety lifting device for a turbine inner case, and more particularly, to a turbine inside which enables to smoothly withdraw or settle a high load inner case located inside the main case when disassembling and inspecting a turbine for a power generation facility. It relates to a safety lifting device for the case.

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 safety lifting device for a turbine inner case that enables to smoothly and safely separate a high weight inner case when disassembling a turbine for a power generation facility, thereby greatly improving workability and safety.

Another object of the present invention is to provide a safety lifting device for a turbine inner case to 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.

In order to achieve the above object, the safety lifting device for the inner case of the turbine of the present invention installs a vertical column at a lifting bar installation position, and installs a moving frame inside the vertical column of the tower, but the lifting height is increased on the moving frame. An operating unit coupled to the moving plate to extend, a lifting unit which integrally couples the wire rope to the moving plate of the operating unit and extends the wire rope downward from the upper end of the vertical column and fastens the lifting bar to the moving frame; The power transmission unit which pushes down the moving frame downward by combining the cylinder, the main support unit firmly supporting the standing state of the vertical column by coupling the support block to the lower vertical column of the tower, and the support block of the main support unit It consists of a settled part which is firmly fixed and fixed on the surface. It is a basic feature.

Therefore, the safety lifting device for the inner case of the turbine of the present invention is fixed by combining the wire rope to the lifting bar and then driving the hydraulic cylinder to move the moving frame downward by moving the moving frame is moved by the moving frame is lowered by the LM guide coupled to the moving frame Since the plate is advanced, the wire rope coupled to the upper side of the moving plate is also pulled up to lift the lifting bar to lift the inner case. In particular, the moving plate lowers simultaneously with the lowering of the moving frame, thereby doubling the lowering distance of the moving plate. Therefore, not only can it be lifted efficiently by the hydraulic cylinder, but also it can remove the heavy inner case smoothly and safely, which greatly improves workability and safety, and also quickly separates the inner case inserted in the inner circumference. Hager It can be inserted to improve the work efficiency.

1 is a perspective view showing an installation state of the safety lifting device for the turbine inner case according to the present invention.
Figure 2 is a perspective view showing a part of the lifting tower of the safety lifting device for the turbine inner case according to the present invention.
Figure 3 is a cross-sectional view showing a lifting tower coupled state of the safety lifting device for the turbine inner case according to the present invention.
Figure 4 is a cross-sectional view showing a state after the lifting tower primary lifting of the safety lifting device for the turbine inner case according to the present invention.
Figure 5 is a cross-sectional view showing a state before the lifting tower secondary lifting of the safety lifting device for the turbine inner case according to the present invention.
Figure 6 is a cross-sectional view showing a state during the lifting tower secondary lifting of the safety lifting device for the turbine inner case according to the present invention.
Figure 7 is a perspective view showing the main portion of the lifting portion of the safety lifting device for the turbine inner case according to the present invention.
8 is an exploded perspective view showing a slide assembly of the safety lifting device for the turbine inner case according to the present invention.
9 is a perspective view showing a slide assembly operating portion of the safety lifting device for the turbine inner case according to the present invention.
10 is a cross-sectional view sequentially showing a slide assembly operating state of the safety lifting device for the turbine inner case according to the present invention.
11 is a cross-sectional view showing a lifting tower support of the safety lifting device for the turbine inner case according to the present invention.
12 is an exploded perspective view showing a lifting tower support of the safety lifting device for the turbine inner case according to the present invention.
Figure 13 is a plan view showing before and after fastening the lifting tower support of the safety lifting device for the turbine inner case 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 Figures 1 to 13, the safety lifting device for the turbine inner case of the present invention is a tower portion 110 to install a vertical column 111 in the lifting bar 10 installation position, and the tower portion 110 Installing the moving frame 125 inside the vertical column 111 of the operating unit 120 coupled to the moving plate 121 to extend the lifting height to the moving frame 125, the moving plate of the operating unit 120 (121) the lifting unit 130 is coupled to the wire rope 131 integrally on the upper end and the wire rope 131 extends downward from the upper end of the vertical column 111 and fastened to the lifting bar 10, and the operation The power transmission unit 140 coupled with the hydraulic cylinder 141 to the moving frame 125 of the unit 120 and pushes the moving frame 125 downward, and the lower portion of the vertical column 111 of the tower unit 110. The main support portion 150 to firmly support the standing state of the vertical column 111 by coupling the support block 151 to, and Is not composed of the teeth 160 to firmly secure to settle the support block 151 of the main support group 150 to the bottom surface.

The tower unit 100 is coupled to the rotary block 112 on the upper end of the vertical column 111 and vertically coupled with the guide pulley 114 on the upper surface of the rotary block 112 to support the guide pulley 114 (113) to be firmly fixed.

The operation unit 120 is coupled to the vertical movement of the movable plate 121 in the vertical column 111 of the tower unit 110 to pull the lifting bar 10 to the front and rear ends of the movable plate 121 One end of the timing belt 123 is attached and integrated.

In addition, the other end of the timing belt 123 is attached to the fixing block 121a attached to the vertical column 111, respectively, but the length of each timing belt 123 is formed the same.

Here, the slide pieces 122 are formed on the left and right sides of the movable plate 121, and the through holes 121b are drilled back and forth.

In addition, the movable plate 121 is coupled to the inner side of the movable frame 125 to guide the movable plate 121 and move independently.

In addition, the pinion 124 is installed in the front and rear of the moving frame 125 to guide the timing belt 123, and the slide piece 122 of the moving plate 121 is formed by forming the slide groove 127 on the left and right sides of the moving frame 125. ) So that the slide piece 126 may be protruded outward from the left and right sides of the moving frame 121.

In addition, the front side of the moving frame 125 drills a through hole 125a facing the through hole 121b of the moving plate 121, and the position before the moving of the moving plate 121 is located above the moving frame 125. The timing belt 123 and the pinion 124 may be used instead of the chain and the sprocket.

Furthermore, the left and right sides of the moving frame 125 are installed in the pair of LM guides 128, but the slide pieces 129 of the moving frame 125 are formed by forming the slide grooves 129 on the corresponding surfaces of the LM guides 128 facing each other. Since the 126 is inserted, the moving frame 125 can be accurately guided to smoothly move.

The lifting unit 130 is coupled to the rear end of the wire rope 131 to the moving plate 121 to integrate the other end through the guide pulley 114 of the vertical column 111 to correspond to the lifting bar 10. .

In addition, the other end of the wire rope 131 to form a support 132 and a fastener 133 to maintain a coupling state with the lifting bar 10 to support the support 132 of the lifting groove (10) 12) to restrain the locking state by the fastener 133.

The power transmission unit 140 is provided with a hydraulic cylinder 141 for operating the moving frame 125, the upper end of the hydraulic cylinder 141 is firmly coupled to the vertical pillars 111, the hydraulic cylinder 141 ) Passes through the through-holes 125a and 121b of the moving frame 125 and the moving plate 121 in sequence so that the rod 142 is coupled to the front end of the moving frame 141 so as to be telegraphed downward.

The hydraulic cylinder 141 is preferably connected to the hydraulic device (not shown) to control the hydraulic pressure.

The main support part 150 is provided with a support block 151 coupled to the lower end of the vertical column 111 to maintain the standing state firmly, but the slide groove 152 in a straight line in front, rear, left and right on the upper surface of the support block 151. ) Respectively.

In addition, the upper surface of the support block 151 is coupled to the pressing jig 153 in front, rear, left and right, respectively, is coupled to the slide groove 152 on the bottom of the pressing jig 153 to form a slide piece 154 to move from side to side. .

In addition, the upper surface of the pressing jig 153 is coupled to the pressing block 156 for pressing the front, rear, left and right surfaces of the vertical column 111, the vertical screw 111 by coupling the pressure screw rod 155 to the pressure block 156. Make sure to support it firmly and safely.

In addition, the pressing block 156 is preferably formed to form a pair of opposing pressure block 156 facing each other including a pair of pressing block 156 to be pressed firmly to be pressed.

The settled portion 160 is installed by firmly embedding the support housing 161 on the ground to form a settled groove 162 in the center so that the support block 151 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 inside Place the dial gauge 14 on the upper surface of the flange of the case 1 to check the horizontal state.

In this state, the wire rope 131 is fixed to the coupling groove 12 of the lifting bar 10, and then the hydraulic cylinder 141 is driven to push the movable frame 125 downward to move the movable plate 121.

At this time, while the wire rope 131 is kept taut, the lifting bar 10 can be pulled at the same time while the crane is properly pulled to maintain the chain in a taut state.

Furthermore, when the loader 142 of the hydraulic cylinder 141 is charged, the moving frame 125 descends while maintaining the straightness by the LM guide 128 to advance the moving plate 121 coupled to the moving frame 125. The wire rope 131 coupled to the upper side of the movable plate 121 is also pulled up to lift the lifting bar 10 to lift the inner case 1.

At the same time, since the pinion 124 pulls the timing belt 123 forward by moving the moving frame 125 forward, the moving plate 121 located above the moving frame 125 to which the timing belt 123 is coupled moves downward. .

That is, since the upper timing belt 123 of the moving plate 121 is released and the lower timing belt 123 is pulled downward as the moving frame 125 moves forward, the moving plate 125 moves down simultaneously with the lowering of the moving frame 125. 121 is also lowered, so that the forward distance of the moving plate 121 is arithmetically doubled than the forward distance of the moving frame 125 by the hydraulic cylinder (131).

When the inner case 1 is raised to a safe position as described above, the crane pulls a little and separates the wire rope 131 from the lifting bar 10 and moves to the work place by the crane.

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: support bracket 114: guide pulley
120: operating unit 121: moving plate
121a: fixed block 121b: through hole
122: slide piece 123: timing belt
124: pinion 125: moving frame
125a: through hole 126: slide piece
127: slide groove 128: LM guide
129: slide groove 130: lifting unit
131: wire rope 132: support
133: fastener 140: power transmission unit
141: hydraulic cylinder 142: rod
150: main support 151: support block
152: slide groove 153: pressure jig
154: slide piece 155: pressure screw rod
156: pressure block 160: settle
161: support housing 162: settling groove

Claims (9)

A tower portion 110 for installing the vertical column 111 at the lifting bar 10 at an installation position;
An operating part 120 having a moving frame 125 installed inside the vertical column 111 of the tower part 110, and a moving plate 121 coupled to the moving frame 125 to extend a lifting height;
The wire rope 131 is integrally coupled to the moving plate 121 of the operation unit 120, and the wire rope 131 extends downward from the upper end of the vertical pillar 111 to be fastened to the lifting bar 10. Section 130,
A power transmission unit 140 coupled with the hydraulic cylinder 141 to the moving frame 125 of the operation unit 120 to push down the moving frame 125 downward;
The main support part 150 for firmly supporting the standing state of the vertical column 111 by coupling the support block 151 to the lower portion of the vertical column 111 of the tower portion 110, and
Safety lifting device for a turbine inner case, characterized in that the support block 151 of the main support portion 150 is placed on the bottom surface solid and fixed to secure the fixed portion 160.
The method of claim 1,
The tower unit 110 is coupled to the rotary block 112 on the upper end of the vertical column 111 and vertically coupled to the guide pulley 114 on the upper surface of the rotary block 112, but the support pulley 114 bracket Safety lifting device for the turbine inner case, characterized in that fixed to (113).
The method of claim 1,
The operation unit 120 is coupled to the vertical movement of the movable plate 121 in the vertical column 111 of the tower unit 110 to pull the lifting bar 10 to the front and rear ends of the movable plate 121 One end of the timing belt 123 is attached and integrated, and the other end of the timing belt 123 is attached to the fixing block 121a attached to the vertical pillar 111, and the length of each timing belt 123 is fixed. Safety lifting device for a turbine inner case, characterized in that formed and configured in the same way.
The method of claim 3, wherein
A slide piece 122 is formed on the left and right sides of the movable plate 121, and the through plate 121b is drilled back and forth, and the movable plate 121 is coupled to the inner side of the movable frame 125 to guide the movable plate 121. And at the same time to be able to move independently, the front and rear of the moving frame 125 to install the pinion 124 to guide the timing belt 123, the left and right inside the slide groove 127 to form a moving plate A safety lifting device for a turbine inner case which allows the slide piece 122 of 121 to be inserted and protrudes the slide piece 126 outward on the outside left and right of the moving frame 121.
5. The method of claim 4,
The front side of the moving frame 125 drills a through hole 125a facing the through hole 121b of the moving plate 121, and the position before the moving of the moving plate 121 is located above the moving frame 125. On the left and right sides of the moving frame 125, a slide groove 129 is formed on a corresponding surface of the LM guide 128 and faces each other, and the slide piece of the moving frame 125 is formed. Safety lifting device for a turbine internal case, characterized in that configured to insert (126).
The method of claim 1,
The lifting unit 130 is coupled to the one end of the wire rope 131 to the moving plate 121 to integrate and to the other end through the guide pulley 114 of the vertical column 111 to correspond to the lifting bar 10, The other end of the wire rope 131 safety lifting device for a turbine inner case, characterized in that formed by forming the support 132 and the fastener 133 to maintain a coupling state with the lifting bar (10).
6. The method according to any one of claims 1 to 5,
The power transmission unit 140 is provided with a hydraulic cylinder 141 for operating the moving frame 125, the upper end of the hydraulic cylinder 141 is firmly coupled to the vertical pillars 111, the hydraulic cylinder 141 ) Is passed through the through-holes 125a and 121b of the moving frame 125 and the moving plate 121 in sequence so that the rod 142 is coupled to the front end of the moving frame 141 so that the whole body can be moved downward. Safety lifting device for turbine inner case.
The method of claim 1,
The main support part 150 is provided with a support block 151 coupled to the lower end of the vertical column 111 to maintain the standing state firmly, but the slide groove 152 in a straight line in front, rear, left and right on the upper surface of the support block 151. And a sliding piece 154 which is coupled to the slide jig 152 on the bottom of the pressing jig 153, respectively, and is coupled to the pressing jig 153 in front, rear, left, and right sides of the support block 151, respectively. And a pressing block 156 for pressing the front, rear, left, and right surfaces of the vertical column 111 on the upper surface of the pressing jig 153, and the pressing screw rod 155 is coupled to and facing the pressing block 156. Safe lifting device for a turbine inner case, characterized in that any one of the pressure block 156 is formed of a depressor is configured to be pressed while receiving the other pair of pressure block (156).
The method of claim 1,
The settled portion 160 is installed to be firmly embedded in the support housing 161 on the ground, but form a settled groove 162 in the center safety lifting for the inner case of the turbine, characterized in that configured to fit the support block 151 Device.

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