KR102082141B1 - Apparatus For Supporting And Rotating Turbine Shell For Maintenance - Google Patents

Abstract

The present invention relates to a rotating support device for repairing a turbine shell to repair and inspect the turbine shell while mounting and rotating the turbine shell which is a housing of a turbine used in a power plant. The rotating support device for repairing a turbine shell includes: a floor frame fixed to the floor of a workshop; a scaffold mount which is installed upright to be spaced apart from each other on the left and right sides of the floor frame and to install left and right scaffolds; a turbine shell support which is installed in a central space provided between the scaffold mounts and can support the turbine shell; a rotating device which rotates the turbine shell support around a horizontal axis that is horizontal to the ground so that the turbine shell can be turned over while rotating within the central space.

Description

Apparatus For Supporting And Rotating Turbine Shell For Maintenance}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a turbine shell rotary workbench, and more particularly, to a turbine shell repair rotary support apparatus for mounting and repairing a turbine shell which is a housing of a turbine used in a power plant.

Various power plants are operated to generate power by operating a turbine using steam generated by heating water. Therefore a turbine with a size corresponding to the plant scale is used. The turbine requires periodic maintenance. However, the turbine is so large that dedicated equipment is needed to service it.

The present invention relates in particular to a turbine shell workbench for the inspection and maintenance of a turbine shell for receiving a turbine rotor which is a rotor in a turbine.

Turbine shells are very large in volume and weight and are asymmetric along their length, so a corresponding workbench is required to reliably support them.

Republic of Korea Patent Application No. 10-2017-7011041 Republic of Korea Patent Application No. 10-2008-0086036

An object of the present invention for the above problems is to provide a workbench for maintenance inspection of a turbine shell for a power plant. More specifically, an object of the present invention is to provide a rotary support device for repairing a turbine shell for allowing a worker to easily approach the inner curved surface of the turbine shell by performing rotation while supporting the turbine shell.

The above object, the floor frame is fixed to the workplace floor; Scaffolding installation for installing the left and right scaffolding to be installed upright to be spaced apart from each other on the left and right sides of the floor frame; A turbine shell support that is installed in a central space provided between the scaffold mounts and which can support the turbine shell; And a rotating device for rotating the turbine shell base about a horizontal axis parallel to the ground so that the turbine shell can be flipped while being rotated in the central space. Is achieved by.

According to another feature of the invention, the turbine shell support is a horizontal plate for supporting a plane on both ends of the turbine shell; A vertical plate coupled to form a right angle to the horizontal plate; A rotating shaft fixedly installed at a right angle to the end plate; It may include; a turbine shell fixing means for fixing the turbine shell placed on the side plate.

According to another embodiment of the present invention, the turbine shell fixing means includes a fastening hole provided in the cross plate to correspond to the position of the bolt hole provided on the assembly plane of the turbine shell; It may include; a fastening bolt screwed to the bolt through the fastening hole.

According to another embodiment of the present invention, the rotary device; A pair of base plates installed on each outside of the turbine shell support so as to be lifted and lowered by a main hydraulic cylinder; A rotating shaft support for rotatably supporting the rotating shaft as being fixed to the base plate at a right angle; It may include; a rotary drive unit installed on any one of the base plate to rotate the rotary shaft.

According to the present invention, there is provided a turbine shell support apparatus which supports a turbine shell of a turbine for a power plant and enables maintenance inspection work. Further, there is provided a turbine shell support device that enables easier maintenance inspection work by rotating and flipping the turbine shell in an installed state. Other effects of the present invention will be further embodied by the following description.

1 is a perspective view of a rotary support for turbine shell repair according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along the line AA of FIG. 1.
3 is a cross-sectional view taken along the line BB of FIG.
Figures 4a, 4b, 4c, 4d, 4e is a state diagram showing the use of the turbine shell maintenance support device according to an embodiment of the present invention step by step.
5 is an exploded perspective view of a part of a turbine shell repair support device according to another embodiment of the present invention.
Figure 6 is an exploded perspective view of the turbine shell support of the turbine shell maintenance support device according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the details of the present invention. First, the configuration of the present invention will be described with reference to FIGS. 1 to 3 simultaneously, and the operation will be described with reference to FIG. 4, and then another embodiment will be described with reference to FIGS. 5 and 6.

The floor frame 1 is fixedly installed on the floor of the workshop. Scaffolding mounting (3) is installed upright so as to be spaced apart from each other on the left and right sides of the bottom frame (1). Scaffolding mounting (3) is for installing the long scaffold (4) to the left and right, it can be installed at a height of 1 to 3m from the ground. Scaffolding 4 is the bottom surface to allow the operator to walk on and is made of uneven surface for slipping. Although not shown, stairs and handrails may be installed on the scaffolding platform 3.

A large central space S is provided between the scaffolding installations 3. Turbine shell support (5) capable of supporting the turbine shell 100 is installed in the central space (S) provided between the scaffold mounting (3). The turbine shell support 5 is installed to face each other and is spaced apart by the length of the turbine shell 100.

The turbine shell rotating device 7 rotates the turbine shell base 5 about the horizontal axis X which is horizontal to the ground, so that the turbine shell 100 is rotated while being positioned in the central space S. To be able. This allows the operator to easily access and work with all parts of the turbine shell through the scaffold 4. When welding or grinding work, there is no need for overhead work, and it is not necessary to work only with a work lamp in the dark area. As such, if the turbine shell 100 separated as needed can be rotated and flipped over, the efficiency of the work for maintenance inspection can be greatly improved.

Hereinafter, the turbine shell support 5 will be described. The turbine shell support 5 is given the same reference numerals for the same components in a symmetrical structure.

The turbine shell support 5 includes a horizontal plate 9 for supporting the assembly planes 101 and 103 at both ends of the turbine shell 100, a vertical plate 11 coupled to form a right angle to the horizontal plate 9, and a vertical plate 11. It may include; and a turbine shell fixing means for fixing the turbine shaft 100 and the rotating shaft 13 is fixed to be installed at a right angle to the) and the side plate (9). The end plate 11 and the side plate 13 may be integrally formed.

The turbine shell fixing means may include a fastening hole 15 and a fastening bolt 17 in the side plate 9 so as to correspond to the positions of the bolt holes 105 provided on the assembly planes 101 and 103 of the turbine shell. Can be. The fastening bolt 17 is screwed into the bolt hole 105 of the turbine shell through the fastening hole 15 to enable the turbine shell 100 to be fixed to the side plate (9).

According to the present embodiment, the turbine shell rotating device 7 includes a pair of base plates 19 installed on each outer side of the turbine shell support 5 and a rotating shaft support fixed to the base plate 19 at right angles. 21 and a rotation driving unit 23.

The base plate 21 is installed to be able to move up and down by the main hydraulic cylinder 25.

The rotary shaft support 21 rotatably supports the rotary shaft 13 by having a bearing. The lower end of the rotary shaft support 21 may be supported by the base plate 19 as shown, but may be supported by the bottom frame 1 in some cases. The rotary driving unit 23 is installed on any one of the base plates 19 to axially rotate the rotary shaft 13.

Under the side plate 9 of the turbine shell support 5, a support cylinder 27 may be further installed to support the turbine shell. It is preferable that four or more supporting cylinders 27 are provided, and the installation position is adjustable according to the shape of the turbine shell 100. Support cylinder 27 is to be installed for stable support. The supporting cylinder 27 may be replaced by a post which is configured by a screw type and which is adjustable in length by manual or electric movement, rather than a hydraulic cylinder.

The hydraulic unit 29 generates hydraulic pressure and then supplies hydraulic pressure to the main hydraulic cylinder 25 and the support cylinder 27. Guide rods 31 are installed to be perpendicular to the bottom frame (1). The guide rod 31 guides the base plate 19 to the turbine shell support 5 vertically, and two or more guide plates 31 are provided on one base plate 19.

The rotary drive unit 23 includes a drive motor 33 fixedly installed on the base plate 19, a reducer 35, and a transmission means. The rotary shaft 13 is provided with a driven gear 37, the output shaft of the reducer 35 transmits the rotational force to the driven gear 37 through the transmission means.

According to another embodiment of the present invention, the main hydraulic cylinder 25, the guide rod 31, the hydraulic unit 29 may be installed on the moving bottom plate 39 as shown in FIG. The moving bottom plate 39 may be installed to move in the direction of the arrow along the bottom rail 41 provided on the bottom frame (1). This is to be able to adjust the separation distance of the turbine shell base 5 in accordance with the length of the turbine shell (100).

5 is an exploded perspective view of the turbine shell support 5 'according to another embodiment of the present invention. According to the present embodiment, the turbine shell support 5 'has a frame 51 in the form of a frame having a hole 51 at the center thereof and a bolt fastening hole 53 provided along the rim thereof, and the frame 49 And a custom block 45 assembled with bolts. The fitting block 45 is provided with a seating portion 43 in accordance with the shape of the turbine shell 100, and a fastening hole 15 is provided at the seating portion. The frame fixing hole 47 is provided at the edge of the fitting block 45 to fix it to the frame 49.

When the turbine shell 100 is seated on the turbine shell support 5 ', the seating portion 43 of the fitting block 45 serves as a guide, so that the turbine shell 100 can be easily seated in the correct position and fastened. Fixing work using the bolt 17 can also be facilitated. The custom block 45 suitable for the model of the turbine shell 100 is selected and fixed to the frame 49 in advance, and the turbine shell 100 is coupled thereto.

The use state according to the present invention will be described step by step with reference to Figs. 4A to 4E.

Using a crane or hoist, the turbine shell 100 is placed on the turbine shell support 5 so as to face upward of the convex surface and fixed by the fastening bolt 17 (see FIG. 4A). The turbine shell 100 is stably supported by the support cylinder 27. If necessary, a key may be provided as an additional safety measure to keep this state stable.

If necessary, check and repair the convex surface first. When the work on the convex surface is made to rotate the turbine shell (100). According to the embodiment of the present invention, the support cylinder 27 is spaced apart from the turbine shell 100 as a preliminary operation for rotating. And the turbine shell 100 is raised by raising the base board 19 using the main hydraulic cylinder 25 (refer FIG. 4B). This is to secure the bottom space for rotation. Therefore, this lifting operation may be omitted if the bottom space is secured in advance.

When the turbine shell 100 rises together with the base plate 19, the rotary shell 23 is driven to rotate the shaft 13 by rotating the shaft 13 around the horizontal axis X (FIG. 4c). Each part of the turbine shell 100 may be gradually rotated while the turbine shell 100 is rotated, and the turbine shell 100 may be repaired while being rotated 180 °.

The turbine shell 100 is rotated 180 ° and then the main hydraulic cylinder 25 is operated to lower the turbine shell 100 and again support the cylinder 27 to support the turbine shell 100 (see FIG. 4D). ). In this state, the concave surface of the turbine shell 100 is repaired. The operator can work in the down head direction, thus making the work convenient and safe. And if necessary, the turbine shell pedestal 5 can be removed so that the bottom surface of the turbine shell 100 is fully exposed and can be worked (see FIG. 4E).

According to another embodiment of the invention, the turbine shell 100 is installed in the turbine shell pedestal 5 in a semi-cylindrical form. Therefore, it is common that the center of gravity of the turbine shell 100 to be worked is not on the rotary shaft 13.

If the center of gravity of the turbine shell 100 is not on the axis of rotation and is too far from the axis of rotation, a lot of power is required to rotate the turbine shell 100 and the size of the device must be increased accordingly. The shape of the turbine shell 100 itself is also asymmetrical, in which case the problem becomes more serious.

In this regard, the present invention allows the relative engagement position of the end plate 11 and the side plate 11 to be adjusted. That is, even when the center of gravity of the turbine shell 100 is rotated, it is always positioned on or close to the rotating shaft 13.

As shown in FIG. 6, the end plate 11 is provided with a setting hole 55 vertically and horizontally, and the side plate 9 is coupled with a bracket plate 57 which is in surface contact with the end plate 11. 57 is provided with a plurality of assembling holes 59 in which the setting holes and the horizontal and vertical intervals coincide with each other.

The operator can accurately determine and determine the center of gravity position of the turbine shell 100 based on its design and then use it to determine the position of the transverse plate 9 relative to the end plate 11.

The configuration shown and described above is only a preferred embodiment based on the technical spirit of the present invention. Those skilled in the art will be able to make various modifications based on common technical knowledge, but it should be noted that this may be included in the protection scope of the present invention.

1: floor frame 3: base plate mounting base
4: scaffold 5: turbine shell support
7: turbine shell 9: diaphragm
11: end plate 13: rotation axis
15: fastening hole 17: fastening bolt
19: base plate 21: rotary shaft support
23: rotating drive part 25: the main hydraulic cylinder
27: support cylinder 29: hydraulic unit
31: guide rod 33: drive motor
35: reducer 37: driven gear
39: moving floor plate 41: floor rail
43: seating portion 45: custom block
47: frame fixing 49: frame
55: setting hole 57: bracket plate
59: assemblyman
100: turbine shell
101,103 assembly plane 105 bolt hole

Claims (7)

A floor frame fixedly installed on the floor of the workshop;
Scaffolding installation for installing the left and right scaffolding to be installed upright to be spaced apart from each other on the left and right sides of the floor frame;
A turbine shell support that is installed in a central space provided between the scaffold mounts and which can support the turbine shell;
Rotating device for rotating the turbine shell base about the horizontal axis which is horizontal to the ground so that the turbine shell can be turned over while rotating in the central space; including;
The turbine shell support is;
A frame 51 in the form of a frame having a hole 51 in the center and a bolt fastening hole 53 provided along an edge thereof;
A fitting block 45 assembled to the frame 49 by bolts;
The fitting block 45 is provided with a seating portion 43 in accordance with the shape of the turbine shell, the turbine is characterized in that the fastening hole 15 is provided in the same position as the bolt hole of the turbine shell. Rotary support for shell repair.
delete A floor frame fixedly installed on the floor of the workshop;
Scaffolding installation for installing the left and right scaffolding to be installed upright to be spaced apart from each other on the left and right sides of the floor frame;
A turbine shell support that is installed in a central space provided between the scaffold mounts and which can support the turbine shell;
Rotating device for rotating the turbine shell base about the horizontal axis which is horizontal to the ground so that the turbine shell can be turned over while rotating in the central space; including;
The turbine shell support is;
Horizontal plates for supporting planes at both ends of the turbine shell;
A vertical plate coupled to form a right angle to the horizontal plate;
A rotating shaft fixedly installed at a right angle to the end plate;
And turbine shell fixing means for fixing the turbine shell placed on the diaphragm;
The turbine shell fixing means,
A fastening hole provided in the cross plate to correspond to a position of a bolt hole provided on an assembly plane of the turbine shell;
Includes; a fastening bolt screwed to the bolt through the fastening hole;
In order to ensure that the center of gravity of the turbine shell is always rotated on or close to the rotation axis,
The vertical plate is provided with a setting hole 55 vertically and horizontally, and the horizontal plate is coupled with a bracket plate 57 which is in surface contact with the vertical plate, and the bracket plate 57 is equally spaced vertically with the setting hole. The plurality of assembling holes 59 are provided;
The turbine shell maintenance rotary support device, characterized in that configured to adjust the relative coupling position of the vertical plate and the horizontal plate. delete delete delete delete

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