KR101335519B1 - Rotor supporting device for power generation - Google Patents

Abstract

The present invention relates to an apparatus for supporting a rotating shaft for power generation. The apparatus for support the rotating shaft for power generation comprises: an external plate (110) coupled with a rotational block by allowing the rotational block to pass through the center of the external plate (110) and having a slide groove (111) formed by inwardly bending front and rear end portions of the external plate (110); a safety support (120) uprightly installed at left and right sides of the external plate (110), fitted into the slide groove (111) to be folded, and provided at an upper portion thereof with a mounting groove (121); an internal plate (130) attached to the top surface of the external plate (110) so that the internal plate (130) is integrated with the external plate (110), having a slide groove (131) by inwardly bending front and rear ends of the internal plate (130), provided at the center thereof with a central hole, and making a space (132) between the slide groove (111) of the external plate (110) and the slide groove (131); a pair of slide plates (140) moving left or right inside the internal plate (130); and a main support (150) uprightly mounted in the slide plate(140) to move up or down, so that a turbine rotor (10) is mounted at the upper end thereof. Accordingly, the turbine rotor (10) is conveniently mounted, and the height of the rotor is simply adjusted, so that various works can be performed at the optimal height. The rotor is exactly and safely mounted by rotating a support device, and a reducer is controlled to rotate a mounting roller, so that various works can be performed while gradually rotating the rotor at a low speed.

Description

ROTOR SUPPORTING DEVICE FOR POWER GENERATION

The present invention relates to a rotor support device for a power plant, and more particularly, to a rotor support device for a power plant to allow a variety of inspections while smoothly and safely rotating a turbine rotor.

In general, a turbine rotor, which is a core facility of a coal-fired power plant, is a component facility that converts thermal energy into mechanical energy and transfers it to a generator by the action of steam introduced into a casing.

These rotary turbine rotors are regularly inspected and checked for abnormalities.Because the failure of turbines is a problem directly related to the amount of power generation and the reliability of power generation, the preventive maintenance work is planned and carried out regularly. There is a situation.

However, these rotary turbine rotors work with the rotor on the floor when replacing or servicing bearings or sleeves, so that the rotor is scratched and damaged as well as crushing, scratching, etc. Interfering with the work takes a long time replacement or maintenance inspection of the bearings or sleeves and the work was cumbersome and difficult.

Therefore, Utility Model Registration Nos. 20-0363293 and 20-0452895 are also used to solve the above problems, but this is simply by mounting a rotor using a crane at a certain height, so that the rotor with a high load is placed in the correct position. Not only to precisely adjust the height, it is impossible to adjust the height, the safety is lowered, there was a problem that takes a long time working.

Therefore, the main purpose of the present invention is not only to allow the turbine rotor to be quickly and conveniently seated, but also to easily adjust the height of the settled rotor and safely and smoothly rotate the rotor for the power plant to perform various tasks at the highest height. To provide a support device.

Another object of the present invention, even if the turbine rotor moved by the crane does not exactly match, the support device is rotated correctly and securely settled by seating, as well as automatically rotate or reverse rotation or adjust the rotation speed to various inspection or work It is to provide a rotor support device for a power plant that can smoothly perform.

In order to achieve the above object, the rotor support device for power generation equipment of the present invention is coupled to penetrate through a rotating block in the center, but the front and rear ends of the outer plate and the slide groove formed inward, and installed on the left and right of the outer plate However, it is possible to fold the slide groove and to form a settled groove in the upper, and a safety support having a pressure block coupled to the upper side of the settled groove, attached to the upper surface of the outer plate to integrate and bend the front and rear ends to slide inward An inner plate for forming a groove but having a center hole in the center and forming a space between the slide groove and the slide groove of the outer plate, a pair of slide plates that move left and right inside the inner plate, and the slide plate Install the turbine rotor on the top and move it up and down so that the turbine rotor But that the main support consists of which a reduction gear coupled to the rotor of the roller is formed and placed placed upstream roller to shall be based on the feature that the technical configuration.

Therefore, the rotor support device for power generation equipment of the present invention adjusts the position by rotating the support device around the rotating block in consideration of the left and right angles of the turbine rotor can be safely and securely seated on the safety support and the main support, safety Supported by the support and the main support double, so that you can work safely and adjust the height or position of the safety support to work safely and conveniently in the best conditions, as well as raise the mounting block after combining the pressure block Since the rotor is firmly and securely supported between the settling roller and the pressure roller, and the reducer is controlled to rotate the settling roller, there is an effect of performing various operations while slowly rotating the rotor at a low speed.

1 is a perspective view showing a folded state of the rotor support device for a power plant according to the present invention.
Figure 2 is a perspective view showing a state before mounting of the rotor support device for a power plant according to the present invention.
Figure 3 is a plan view showing a state before mounting of the rotor support device for a power plant according to the present invention.
Figure 4 is a plan view showing a state after the seating of the rotor support device for a power plant according to the present invention.
Figure 5 is a perspective view showing a state after the seating of the rotor support device for a power plant according to the present invention.
Figure 6 is a front view showing a state after seating of the rotor support device for a power plant according to the present invention.
Figure 7 is a side view showing a state after the seating of the rotor support device for a power plant according to the present invention.
8 is a perspective view showing a rotor support device for a power plant according to the present invention.
9 is an enlarged perspective view of a main portion of a rotor support for a power plant according to the present invention;
10 is a perspective view for explaining the slide plate movement of the rotor support device for a power plant according to the present invention.
11 is an exploded perspective view illustrating the operation of the main support of the rotor support device for a power plant according to the present invention.
12 is a front view showing a partial cross-sectional view for explaining the operation of the main support of the rotor support device for power generation equipment 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 12, the rotor support device for power generation equipment 100 of the present invention is coupled through the rotary block 114 in the center, but the front and rear ends are bent to form a slide groove 111 inwards. The outer plate 110, and installed on the left and right of the outer plate 110 to be fitted into the slide groove 111, and folded to form a settled groove 121 in the upper and coupled to the upper side of the settle groove 121 The safety support 120 having the pressure block 125 and the upper surface of the outer plate 110 are integrated and integrated to form a slide groove 131 to the inside by bending the front and rear ends, but the center hole 133 in the center. Perforated and the inner plate 130 to form a space 132 between the slide groove 111 and the slide groove 131 of the outer plate 110, and to move left and right inside the inner plate 130 A pair of slide plates 140 and the slides The main support 150 is installed in the rate 140, but installed to move up and down to settle the turbine rotor at the upper end, but forms the enveloping roller 152 upward and coupled the reducer 159 to the rotating shaft of the enveloping roller 152. ).

Since the outer plate 110 is installed by penetrating the center hole 113 in the center to penetrate the rotation block 114 in the center hole 113, the outer plate 110 may be easily rotated.

In addition, while bending the front and rear ends of the outer plate 110 to form a slide groove 111 inward, the guide slot 112 is formed on the outer side wall of the slide groove 111.

Further, it is preferable to combine the support bolts 115 perpendicular to the edge of the outer plate 110 to adjust the height of the front and rear left and right so that it can be accurately leveled.

The safety support 120 is installed on the left and right sides of the outer plate 110 to be folded into the slide groove 111 and to form a settled groove 121 for seating the rotor 10 in the upper guides on the lower left and right The pin 123 is coupled so that the guide pin 123 is fitted into the guide slot 112 of the outer plate 110.

In addition, a pressure block 125 is coupled to the upper side of the settling groove 121 of the safety support 120 and a pair of pressure rollers 126 are formed downward in the pressure block 125 to form the turbine rotor 10. Make sure to support the upper side.

Here, the fastening holes corresponding to the left and right sides of the safety support 120 and the pressure block 125 are respectively formed to be fastened by the conventional fastening means 124 and coupled.

The inner plate 130 is attached to the upper surface of the outer plate 110 to integrate and bend the front and rear ends to form a slide groove 131 inward, but the center hole 133 in the center of the outer plate 110 A space 132 is formed between the slide groove 111 and the slide groove 131.

The slide plate 140 is coupled to the slide groove 131 of the inner plate 130 to move from side to side, but drills the screw hole 141 from side to side and couples the screw hole 141 to the computer bolt 142 It moves to the left and right by the rotation of the computer bolt 142.

Here, the computer bolt 142 is formed of left and right screws around the center of the left and right screws to move the pair of left and right slide plate 140 close to the center by the rotation of the computer bolt 142 or spaced outwardly Move away.

Further, the computer bolt 142 is provided with a drive motor 144 for rotating or reverse rotation, but the computer bolt 142 is formed in front and rear pairs, and bevel gear 143 coupled to the rotating shaft of the drive motor 144 by power To be delivered.

The main support 150 is placed on the upper surface of the slide plate 140, and coupled to the vertical operation block 154 to the support 153 to move up and down, but at the top of the vertical operation block 154 Combining the settling block 151 and the pair of settling rollers 152 back and forth on the upper surface of the settling block 151 to seat the rotor 10 between the front and back settling roller 152.

In addition, the main support 150 is installed on the upper surface of the slide plate 140 as described above so as to interlock with the slide plate 140 to move from side to side to adjust the gap.

Here, the vertical operation block 154 formed downward in the lower portion of the settle block 151 drills the screw hole 155 vertically, and installs the screw rod 156 vertically inside the support 153 to screw the coupling. .

In addition, the support 153 forms a key hole 153a in a tubular shape and forms a key 154a on the outer periphery of the vertical operation block 154 to move the vertical operation block 154 up and down by the rotation of the screw rod 156. It is strong so that the height of the settle block 151 can be adjusted.

In addition, the lower portion of the screw rod 156 is preferably connected to the drive motor 158 for rotating or reverse rotation of the screw rod 156 to the worm wheel 157 to smoothly transmit power.

Furthermore, any one settling roller 152 of the main support 150 is coupled to the reducer 159 to rotate the settling roller 152 so that the seated heavy load rotor 10 can be slowly rotated at low speed.

Referring to the operation of the present invention in detail as follows.

When the turbine rotor 10 is transported by the crane 1 to approach the upper portion of the support apparatus 100, the support apparatus 100 is rotated around the rotary block 114 in consideration of the left and right angles of the rotor 10. The position is fixed by adjusting the support bolts 115 and then the rotor 10 is lowered to be seated simply and safely on the safety support 120 and the main support 150.

In this case, the safety support 120 may be supported first and the high load rotor 10 may be seated by adjusting the height of the main support 150.

Here, the main support 150 of the support device 100 to adjust the height to position the rotor 10 to the desired height, as well as to adjust the left and right spacing of the inner plate 130 in which the main support 150 is placed. To support the rotor 10 at a desired position and to safely perform various operations.

Moreover, after mounting the turbine block 10, the pressure support block 125 of the safety support 120, and then raise the mounting block 151 of the main support 150, the mounting roller 152 of the mounting block 151 And the rotor 10 is sandwiched between the pressure roller 126 of the pressure block 125 is to firmly and securely support.

In particular, when the settling roller 152 is rotated by controlling the reduction gear 159, the rotor 10 in a pressurized state is gradually rotated at a low speed, and at this time, various safety inspections and the like are performed.

1: crane 10: rotor
100: support device 110: external plate
111: slide groove 112: guide slot
113: center ball 114: rotating block
115: support bolt 120: safety support
121: settle groove 122: support protrusion
123: guide pin 124: fastening means
125: pressure block 126: pressure roller
130: inner plate 131: slide groove
132: space 133: center ball
140: slide plate 141: screw hole
142: computer bolt 143: bevel gear
144: drive motor 150: main support
151: enamel block 152: enamel roller
153: support 153a: key ball
154: vertical operation block 154a: key
155: screw hole 156: screw rod
157: worm wheel 158: drive motor
159: reducer

Claims (6)

The outer plate 110 is coupled to penetrate the rotating block 114 in the center but bent front and rear ends to form a slide groove 111 inward,
It is installed on the left and right of the outer plate 110 so as to be folded into the slide groove 111, and forms a settle groove 121 in the upper portion is provided with a pressure block 125 for coupling to the upper side of the settle groove 121. One safety support 120,
Attached to the upper surface of the outer plate 110 to integrate and bend the front and rear ends to form a slide groove 131 inward, but the center hole 133 in the center and the slide groove 111 of the outer plate 110 and An inner plate 130 to form a space 132 between the slide groove 131,
A pair of slide plates 140 moving left and right inside the inner plate 130, and
Installed on the slide plate 140, but installed to move up and down, the turbine rotor 10 is placed on the top, but the upset roller 152 is formed upward and reducer 159 is coupled to the rotating shaft of the settle roller 152 Rotor support device for power generation equipment, characterized in that consisting of the main support 150.
The method of claim 1,
The outer plate 110 is installed by penetrating the center hole 113 in the center to penetrate the rotating block 114 in the center hole 113, and forms a guide hole 112 on the outer side wall of the slide groove 111 Rotor support device for power generation equipment, characterized in that configured to combine the support bolts 115 perpendicular to the edge.
The method of claim 1,
The safety support 120 forms a pair of pressure rollers 126 downward on the pressure block 125, but the left and right of the safety support 120 and the pressure block 125 is coupled to the fastening means 124 to constitute Rotor support device for power generation equipment characterized in that.
The method of claim 1,
The slide plate 140 is coupled to the slide groove 131 of the inner plate 130 to move from side to side, punctures the screw hole 141 from side to side, and couples the screw hole 141 to the computer bolt 142. , Computing bolt 142 is a rotor support device for a power plant characterized in that it comprises a drive motor 144 to form a left and right screws to the left and right screws around the center and to rotate the bolt 142.
The method of claim 1,
The main support 150 is placed on the upper surface of the slide plate 140, and coupled to the vertical operation block 154 to the support 153 to move up and down, but at the top of the vertical operation block 154 Power generation characterized in that the coupling block 151 and coupled to a pair of the settle roller 152 back and forth on the upper surface of the settle block 151 to seat the rotor 10 between the front and back settle roller 152 Rotor support for equipment.
The method of claim 5, wherein
The vertical operation block 154 formed downward in the lower portion of the settle block 151 drills the screw hole 155 vertically and forms a key 154a on the outer circumference thereof, but vertically inside the support 153. And a driving motor 158 which forms a key hole 153a corresponding to the key 154a, vertically installs a screw rod 156 corresponding to the screw hole 155, and rotates the screw rod 156. Rotor support device for power generation equipment, characterized in that.

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