KR200309959Y1 - Bearing assembling device of turbin - Google Patents

Abstract

The present invention relates to an apparatus for disassembling / assembling a journal bearing for safely and quickly disassembling / assembling a journal bearing installed from a turbine shaft to support a turbine.

The disassembly / assembly device of the present invention is composed of a main frame, a frame block, an adjust screw, an adjust plate, a guide plate, a screw handle, an eye bolt, and the like. It is composed.

According to the present invention, when disassembling / assembling the journal bearing, only one set (two) of the apparatus is assembled to the lower bearing, and then the fastening screw provided in the apparatus is tightened so that the lower bearing is in close contact with the turbine shaft.

Therefore, by disassembling / assembling vertically divided journal bearings installed to support large turbines of power plants or medium and small turbines in various industrial sites safely and quickly from turbine shaft, it is possible to prevent component damage and reduce maintenance time and maintenance manpower. can do.

Description

Bearing disassembly and assembly device for turbines {Bearing assembling device of turbin}

The present invention relates to an apparatus for disassembling / assembling a journal bearing for safely and quickly disassembling / assembling a journal bearing installed from a turbine shaft to support a turbine.

More specifically, the top and bottom split journal bearings installed to support the large turbines of power plants and the medium and small turbines of various industrial sites can be safely and quickly disassembled and assembled from the turbine shaft to prevent damage to parts and to maintain maintenance time and maintenance. The present invention relates to a bearing disassembly / assembly device for a turbine capable of reducing manpower.

In general, a large-capacity turbine installed in a power plant is supported by a journal bearing. The journal bearing is a bearing supporting horizontal loads. The journal bearing is generally divided into upper and lower sections, is made of metal (white metal), and weighs about 2 tons. .

Therefore, such journal bearings are difficult to disassemble and assemble during maintenance due to weight and material problems.

The journal bearing of the turbine is composed of upper and lower bearings 110 and 120 fitted to the turbine shaft 100 and upper and lower rings 130 and 140 which surround the turbine shaft 100, and the upper and lower bearings and the upper and lower rings are bolts, respectively. 150, 160).

Conventionally, when assembling the journal bearing, the upper and lower bearings 110 and 120 are fitted to the upper and lower parts of the turbine shaft 100 and fastened with bolts 150, and the upper bearing (the lower ring 140 is fitted to the lower end of the lower bearing 120). The upper ring 130 is fitted to the upper end of the 110 and fastened to the lower ring 140 and the bolt 160, and the upper ring is fixed to the support through the bolt 170.

In disassembly, the upper ring 130 and the upper bearing 110 are disassembled, and then the lower bearing 120 installed at the lower part of the turbine shaft 100 is rotated from the lower part to the upper part along the turbine shaft 100 and then disassembled. do.

When the lower bearing 120 is rotated, the turbine shaft 100 is about 140 tons, so the weight is about 0.80 mm by using a hydraulic jack and then rotated.

This is to prevent the interference between the turbine shaft 100 and the lower bearing during the rotation of the lower bearing 120.

However, in the structure as described above, when rotating the lower bearing 120, the load interference between the lower ring 140 and the lower bearing 120 and the clearance between the turbine shaft 100 and the lower bearing 120 (about 0.80 mm) As the lower bearing is twisted due to occurrence, the lower ring and the lower bearing are fixed, resulting in component damage, and there is a problem of causing excessive loss of maintenance time and maintenance personnel.

The reason why the lower bearing 120 and the lower ring 140 are fixed as described above is due to the load interference between the lower bearing and the lower ring, which is a weight body (about 1 ton), and the twisting of the lower bearing generated when the bearing is rotated. It is.

As such, when the lower bearing is rotated and the sticking phenomenon occurs, not only the rotation is performed but also scratches are generated on the lower ring and the ball seat of the lower bearing, which takes a lot of time and manpower.

The present invention was devised to solve this problem, and the technical problem is to provide a dedicated disassembly / assembly device in the form of an air ball so that the lower bearing is in close contact with the turbine shaft in parallel when disassembling / assembling the journal bearing. To reduce the load on the lower bearing and to prevent the turbine shaft from twisting when the lower bearing rotates.

1 is an exploded perspective view of a journal bearing for a turbine

2 is an assembled front view of a journal bearing for a turbine;

3 is an assembled front view of the present invention

4 is an assembled bottom view of the present invention

5 is a front view of the main frame

6 is a bottom view of the main frame

7 is an assembled plan sectional view of the frame block;

8 is an assembled front view of the frame block;

9 is an assembled front sectional view of the adjust screw.

10 is a plan view of the adjuster plate

11 is a cross-sectional view of the guide plate

12 is a front view of an eye bolt

※ Explanation of code for main part of drawing

10 main frame 11: base plate

12: long hole 13: hole

14: screw hole 20: frame block

21: Long hole 22: Insertion groove

23: screw hole 30: adjust screw

40: adjust plate 41: cover

42: bolt 50: guide plate

51: screw 60: eye bolt

100 turbine shaft 110 upper bearing

120: lower bearing 130: upper ring

140: lower ring

The disassembly / assembly apparatus of the present invention for achieving the above object is a main frame, a frame block, an adjusting screw, an adjusting plate, a guide plate, a screw handle, an eye bolt, and the like, and these components are assembled. Two devices consist of one set.

According to the present invention, when disassembling / assembling the journal bearing, only one set (two) of the apparatus is assembled to the lower bearing, and then the fastening screw provided in the apparatus is tightened so that the lower bearing is in close contact with the turbine shaft.

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

3 is an assembled front view of the present invention, and FIG. 4 shows an assembled bottom view.

As shown, the disassembly / assembly device of the present invention is composed of two pieces assembled in an arc shape and constitutes one set, and the main frame 10 of the variable position type fixed to the support through the base plate 11 having the long hole 12 is provided. )and;

A frame block 20 having a long hole 21 for binding the two main frames 10 in a variable manner;

An adjust screw (30) screwed into the main frame (10) and the frame block (20) toward the center of the turbine shaft (100) and having a handle (31) for fastening and relaxation;

A self-aligning adjuster plate (40) having a sufficient clearance therewith at the end of the adjuster screw (30), the center of which is automatically adjusted;

A guide plate (50) attached to an end of the adjust plate (40) and circumferentially separated / coupled from the turbine shaft (100) by the fastening and loosening of the adjust screw (30);

Eyebolt 60 for fixing the base plate 11 of the main frame 10 to the support;

The main frame 10, as shown in Figures 5 and 6 when rotating the bearing for disassembly / assembly, two are assembled in an arc shape in order to prevent the component sticking due to the twisting of the bearing constitutes one set, 1 Both base plates 11 are fixed to the support via the eye bolts 60 in a state of being assembled into two sets.

A long hole 12 is formed in the base plate 11 so as to change the assembly position, and is fixed to the support through the long hole 12 and the eye bolt 60, and opposite to the connecting portion connected to each other. A hole 13 is formed in the hole.

In the middle portion of the main frame 10 is formed a screw hole 14 for fastening the dust screw 30 toward the turbine shaft 100.

As shown in FIGS. 7 and 8, the frame block 20 has a long hole 21 and an insertion groove 22 formed at right sides thereof so that a connection portion of the main frame 10 is inserted into the insertion groove 22. In the long hole 21 is inserted into the bolt 70 and the nut 80 is fastened.

The frame block 20 is variably assembled to bearings having the same dimensions (26 to 30 inches) through the long holes 21, and a screw hole 23 is formed at the center thereof in which the just screw 30 is screwed. do.

The adjust screw 30 is screwed toward the center of the turbine shaft 100 to the threaded holes 14 and 23 of the main frame 10 and the frame block 20, as shown in FIGS. 8 to 9. The handle 31 for fastening and relaxation is assembled, and the handle 31 is provided with a bar installation hole 32 for convenient operation of the adjust screw 30, and the fastening force is increased on the surface thereof. It is nulled to make it work.

The adjust plate 40 is assembled with sufficient clearance to be self-aligning through the cover 41 and the bolt 42 at the inner end of the adjust screw 30 as shown in FIGS. 9 and 10.

9 to 11, the guide plate 50 is attached to the inner end of the adjuster plate 40 through a screw 51 or a bolt and moves integrally therewith. It is rounded.

The eye bolt 60 is fixed to the main frame in a variable position by fastening the main frame with the flat washer through the long hole 12 formed in the base plate 11 of the main frame 10 as shown in FIG.

Referring to the operation and operation of the present invention configured as described above are as follows.

First, the operation of disassembling the turbine bearing is as follows.

After disassembling the upper bearing 110 and lifting the turbine shaft 100 about 0.80 mm, one set of devices are placed on the lower bearing 120 in accordance with the dimensions of the bearing, and then the eye bolt 60 is used. To the support firmly.

Thereafter, the fastening screw 30 is fastened to check whether the lower bearing 120 is spaced about 0.05 mm from the lower ring 140.

At this time, the degree of separation is checked by attaching a dial gauge, and after checking, rotate the bearing using a chain block.

At this time, since the two devices are assembled, the bearing is not twisted.

When the bearing is completely rotated and the lower bearing 120 rises upward, the device of the present invention is disassembled in a state of being held by a crane to prevent reverse rotation of the lower bearing 120.

Thereafter, the lower bearing 120 is lifted by a crane.

The operation during assembly is as follows.

The lower bearing 120 is lifted by a crane, and the lower bearing 120 is placed on the turbine shaft 100, and the device of the present invention is installed from the bottom as in the disassembly state, and then the lower bearing is lowered using a chain block. Rotate

When the rotation of the lower bearing is completed, the turbine shaft 100, which is about 0.80 mm apart by the hydraulic jack after removing the device is completed, the work is completed.

During the above operation, since the device of the present invention is composed of two sets of one, the fixing of parts due to torsion during the rotation of the bearing is prevented, and the lower bearing 120 is simply the turbine shaft 100 by simply mounting the device to the bearing. Automatically parallel to

In addition, the frame block 20, which is a variable means, enables interchangeability of bearings of which the external dimensions are not the same, and the position can be varied by 26 to 30 inches by the frame block.

When the lower bearing is brought into close contact with the turbine shaft by fastening the adjust screw 30, the rounded contact surface of the guide plate 50 is self-aligning while being in contact with the turbine shaft 100. Damage to the turbine shaft is prevented.

In addition, the handle 31 assembled to the adjust screw 30 is formed with a bar mounting hole 32, the operation of the adjust screw is convenient, it is possible to maximize the tightening force.

Eye bolt 60 is also used as a lifting ring while fixing the lower bearing 120 and the device.

As described above, the disassembly / assembly apparatus of the present invention is composed of components such as a main frame, a frame block, an adjust screw, an adjust plate, a guide plate, a screw handle, and an eye bolt, and thus, two apparatuses in which these components are assembled are It is composed of one set, and when disassembling / assembling the journal bearing, only one set of apparatus is assembled to the lower bearing, and then the fastening screw provided in the apparatus is tightened so that the lower bearing is in close contact with the turbine shaft.

Therefore, the load of the lower bearing applied to the lower ring is reduced, and the rotation of the lower bearing is prevented from being distorted with the turbine shaft, so that the journal bearing can be safely and quickly disassembled / assembled from the turbine shaft, and the damage of parts is prevented. Together, it can reduce maintenance time and maintenance manpower.

Claims (3)

In constructing a device for disassembling / assembling a journal bearing of a turbine, A main frame 10 having a variable position in which two are assembled in an arc shape to constitute one set and fixed to a support through a base plate 11 provided with a long hole 12; A frame block 20 having a long hole 21 for binding the two main frames 10 in a variable manner; An adjust screw (30) screwed into the main frame (10) and the frame block (20) toward the center of the turbine shaft (100) and having a handle (31) for fastening and relaxation; A self-aligning adjuster plate (40) having a sufficient clearance therewith at the end of the adjuster screw (30), the center of which is automatically adjusted; A guide plate (50) attached to an end of the adjust plate (40) and circumferentially separated / coupled from the turbine shaft (100) by the fastening and loosening of the adjust screw (30); An eye bolt (60) for fixing the base plate (11) of the main frame (10) to the support; bearing disassembly / assembly of the turbine, characterized in that consisting of. According to claim 1, wherein the main frame 10 has a long hole 12 is formed in the base plate (11) on both sides to change the assembly position, the middle portion toward the turbine shaft (100) the screw screw ( 30) The bearing disassembly / assembly device of the turbine, characterized in that the threaded hole (14) is fastened. According to claim 1, The frame block 20 has a long hole 21 is inserted into both sides of the bolt 70 and the nut 80 and the insertion groove 22 is inserted into the connection portion of the main frame 10 is orthogonal to each other. The bearing disassembly / assembly device of a turbine, characterized in that the assembly is formed to be variable in the bearing.