KR102027946B1 - Jig for pick out of guide bearing gap adjusting plate installed on power plant turbine - Google Patents

Abstract

The present invention a jig for drawing out a gap adjustment plate of a guide bearing installed in a power plant turbine and, more specifically, to a gap adjustment plate of a gap adjustment assembly installed between a guide bearing and a fixed body which are installed on a turbine shaft of a pumped storage power plant and a jig for drawing out a gap adjustment plate to easily draw out the same. The jig comprises: a ring type supporter; and a lifter installed in each of a pair of short bars that connects a pair of long bars in the ring type supporter so that the lifter can be rotated toward the center of a space of the ring type supporter. When the gap adjustment plate of the adjustment assembly installed between the guide bearing and the fixed body which are installed on the turbine shaft of the pumped storage power plant is jammed, the gap adjustment plate can be easily drawn out by being struck upward from a lower portion.

Description

Jig for pick out of guide bearing gap adjusting plate installed on power plant turbine}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a jig for drawing a gap control plate of a guide bearing installed in a turbine of a power plant. It relates to the gap adjustment plate pull-out jig of the guide bearing installed in the turbine of the power plant, which can be easily removed by squeezing the adjustment plate from the bottom to the top.

In general, a guide bearing installed in a turbine of a positive power station is already widely disclosed and detailed description thereof is omitted, and a method for installing and dismantling a turbine bearing and a method for carrying out the method are disclosed. Device ”and the like.

The above-described method for installing and dismounting turbine bearings and an apparatus for implementing the method is for installing a turbine bearing on a rotor of a turbo engine or detaching a turbine bearing from the rotor. 2 rail-shaped beams installed on the support plate and the push / pull rods installed on the support plate are removed from the turbine bearing housing by removing them from the turbine bearing housing. There is a problem that gap correction cannot be performed.

On the other hand, as shown in Fig. 1 (a) (b), the gap control assembly 30 for adjusting the gap between the guide bearing 10 and the fixed body 20 of the pump station turbine is shown in Fig. As described above, the gap between the guide bearing 10 and the fixed body 20 by using the gap control plate 30a installed so as to be forward-reversely mounted on the fixed body 20 on which the turbine shaft 40 of the pumping station is installed. Will be corrected. That is, when the gap adjusting plate 30a constituting the gap adjusting assembly 30 is raised up or down, the gap between the fixture 20 and the guide bearing 10 can be adjusted. To this end, the gap adjusting plate 30a has a vertical surface V on the side of the fixing body 20 and an inclined surface T on the side of the guide bearing 10. That is, the upper part of the gap control plate 30a is thick and the lower part is narrow by the formation of the inclined surface T. And the upper part of the gap control plate (30a) is formed with a protruding jaw (30c) extending while having a pin hole (30b) to the side closer to the guide bearing 10. The pin hole 30b facilitates the lifting movement of the gap control plate 30a. In addition, on the side of the guide bearing 10 in the gap control plate 30a, the guide plate 10 is mounted so as to slide on the supporting jaw 20a of the fixed body 20 so that it can be pushed or retracted as the gap control plate 30a moves up and down. Cylindrical block 30d is provided. In this cylindrical block 30d, a roller bearing 30e in contact with the guide bearing 10 is provided. In addition, the cylindrical pin 30d is provided with a guide pin 30f so that the lifting and lowering of the gap adjusting plate 30a assembled through the pin hole 30b can be easily performed. The tightening nut 30g is fastened to the upper end of the guide pin 30f so that the gap adjusting plate 30a is not separated by an external force.

That is, during hydropower generation, the turbine shaft 40 deteriorates the durability of the turbine such as the guide bearing 10 and the gap control assembly 30 collide with each other due to eccentricity generated when the turbine shaft 40 rotates vertically for a long time. To prevent this, the gap adjusting plate 30a is deeply driven or partially removed to correct the gap between the guide bearing 10 and the fixed body 20.

However, the collision between the guide bearing 10 and the cylindrical block 30d causes a problem that the gap adjusting plate 30a embedded between the cylindrical block 30d and the fixed body 20 is deeply embedded and cannot be adjusted. In such a case, there is a case where conventionally, a drawing (not shown) is used to hook the protruding jaw 30c of the gap control plate 30a and then forcibly pull it out. However, if the gap adjustment plate (30a) can not be removed even by rejection, it will be disassembled by welding. When the gap adjusting plate 30a is disassembled by welding, a problem arises that damages not only the guide bearing 10 but also peripheral components. That is, there is a problem such that a large number of workers and time is put into the disassembly and maintenance check according to the replacement of the guide bearing 10.

[Patent Document 0001] Published Patent No. 10-2014-0113998 Method for Installing and Disassembling Turbine Bearings and Apparatus for Implementing the Method (Publication 2014.09.25.)

The present invention has been invented to solve the above problems, the object of which is that when the gap control plate of the adjustment assembly installed between the guide bearing and the stationary body installed in the turbine shaft of the pumping station is pinched from the top to the gap control plate It can be easily removed by hitting it.

Another object of the present invention is to place on a stationary body of a turbine so that the operator can easily pull out the gap adjusting plate on the principle of lever without incurring great force.

The present invention for achieving the above technical problem, the gap adjusting plate of the gap adjusting assembly provided between the guide bearing and the fixed body installed on the turbine shaft of the pumping station, and the gap adjusting plate to facilitate the removal of the gap adjusting plate In the drawing jig,

The jig includes a ring type supporter and a lifter installed on each of the pair of short bars connecting the pair of long bars in the ring type support to be rotatable toward the space center of the ring type support. do.

In addition, the ring-type support, characterized in that the long bar is formed to the length that can reach the grounding portion of the lifter to the flange of the fixed body with the gap control assembly therebetween.

The lifter may include a central body portion inserted through the shaft hole so as to use a short bar of the ring type support, and a striking portion formed to protrude outward from the upper portion of the ring type support so as to protrude outward. And a ground portion protruding in an arc shape to the lower side of the shaft hole so as to protrude outward from the lower portion of the ring type support, and horizontally protruding from the inner inward end of the ground portion so as to be easily caught by the protruding jaw of the gap adjusting plate. Characterized in that it comprises a finger portion.

In addition, the ring-type support is characterized in that formed in at least one of rectangular, circular, square, triangle.

In addition, the striking portion is characterized in that it is formed extending from the top of the shaft hole into which the short bar is inserted to a length that can be easily raised in the finger portion.

In addition, the grounding portion is characterized in that it is formed in an arc shape of a certain curvature so as to protrude outward from the bottom of the shaft hole inserted into the short bar toward the space center of the ring type support.

In addition, the finger portion, characterized in that the pin groove is formed on the front end so as to be protruded so as to be easily caught on the protruding jaw of the gap adjustment plate to engage around the guide pin.

According to the jig for pulling out the gap adjusting plate of the guide bearing installed in the turbine of the power plant of the present invention, when the gap adjusting plate of the adjusting assembly installed between the guide bearing and the fixed body installed on the turbine shaft of the pumping station is sandwiched, It is effective to make it easy to remove by hitting the top.

In addition, there is an effect that can be easily placed on the stationary body of the turbine, the operator can easily remove the gap control plate on the principle of leverage without applying a large force.

Figure 1 (a) (b) is a diagram showing a gap control assembly for adjusting the gap between the guide bearing and the fixture of the pump station turbine.
2 is a perspective view showing a guide bearing gap adjustment plate pull-out jig according to the present invention.
Fig. 3 is a partial side cross-sectional view showing the jig shown in Fig. 2.
4 is a view schematically showing an example of use of the jig illustrated in FIG. 2.
5 is a view showing an embodiment of a finger portion in the jig shown in FIG.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

Hereinafter, by describing the preferred embodiment of the present invention with reference to the accompanying drawings, the gap control plate withdrawal jig of the present invention will be described in detail.

As shown in FIG. 2, the gap control plate withdrawal jig 60 according to the present invention is provided with a gap control assembly provided between the guide bearing 10 provided on the turbine shaft 40 of the pumping station and the fixture 20. The gap control plate 30a of the 30 and the gap control plate 30a are formed to be easily taken out. The jig 60 has a ring type support 62 on each of the ring type support 62 and a pair of short bars 62b connecting the pair of long bars 62a to the ring type support 62. It includes a lifter 64 is installed so as to rotate toward the space center (C) of the.

In addition, the ring-type support 62 is long to a length such that the ground portion 64a of the lifter 64 can contact the flange 20b of the fixture 20 with the gap adjustment assembly 30 therebetween. 62a is formed. In addition, the lifter 64 includes a central body portion 64c inserted through the shaft hole 64b so that the short bar 62b of the ring type support 62 can be used as an axis, and the ring type support 62. A striking portion 64d formed by protruding from the upper portion to the outer side of the shaft hole 64b, and an arc shape below the shaft hole 64b so as to protrude outward from the lower portion of the ring-type support 62. The ground portion 64a is formed to protrude, and the finger portion 64f is formed to protrude horizontally at the inner side end of the ground portion 64a so as to be easily caught by the protruding jaw 30c of the gap control plate 30a. It is made to include.

In addition, the ring type support 62 may be formed of at least one of a rectangle, a circle, a rectangle, and a triangle. The striking portion 64d is formed to extend from the top of the shaft hole 64b into which the short bar 62b is inserted to an outwardly extending length of the finger portion 64f.

 In addition, the ground portion 64a protrudes outward from the lower portion of the shaft hole 64b inserted into the short bar 62b so as to be easily shaken toward the space center C of the ring type support 62. It is formed into an arc of constant curvature. In addition, a pin groove 64g is formed at the tip of the finger portion 64f so as to be protruded to be easily caught by the protruding jaw 30c of the gap control plate 30a so as to engage around the guide pin 30f. It is.

Hereinafter, embodiments and examples of use of the present invention made as described above will be described in detail with reference to the accompanying drawings.

First, the gap adjustment plate 30a is deeply driven or partially pulled out to correct the gap between the guide bearing 10 and the fixed body 20. When the power plant turbine is operated for a long time, the guide bearing 10 and the cylindrical block 30d are fixed. As the collision between the gap control plate (30a) is embedded between the cylindrical block 30d and the fixture 20 is deeply embedded.

Then, when it is necessary to adjust the interval between the guide bearing 10 and the fixture 20 during maintenance and inspection according to the planned maintenance schedule of the power plant, the gap adjusting plate 30a is removed and adjusted. However, when the gap control plate 30a is firmly sandwiched or stuck, it is removed using the prepared jig 60.

In order to use the jig 60, the ground parts 64a of the two lifters 64 are placed on the flange 20b of the fixture 20. At this time, it is placed on the flange 20b so that the gap adjusting assembly 30 is located at the space center C of the ring type support 62.

Then, the finger portion 64f of the jig 60 is set to be positioned on both sides with the guide pin 30f therebetween. In this state, both of the striking portions 64d of the lifter 64 are alternately hit with a hammer or a hammer. Accordingly, the lifter 64 has a lever function in which the finger portion 64f is raised relative to the ground portion 64a. The finger portion 64f is pulled up by the gap adjusting plate 30a through the action of lifting the hanging gap adjusting plate 30a upward.

Subsequently, the gap between the guide bearing 10 and the fixed body 20 may be adjusted by using the extracted gap adjusting plate 30a again. That is, the gap adjusting plate 30a has a vertical surface V and an inclined surface T formed therein, and after adjusting the gap so that the gap does not escape even when subjected to a shock when the turbine is driven, the tightening nut 30g is attached to the guide pin 30f. It is fastened to prevent the departure.

As described above, only the method of hitting the jig 60 can easily pull out the gap adjusting plate 30a without using the dumping method or the welding method, thereby preventing the damage of the guide bearing 10. It is possible to quickly adjust the gap between the fixture 20 and.

Embodiments of the jig for drawing out the gap control plate of the guide bearing installed in the power plant turbine of the present invention described above are merely exemplary, and those skilled in the art to which the present invention pertains various modifications and equivalents therefrom. It will be appreciated that other embodiments are possible. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims.

2: Jig for drawing gap adjustment plate
10: guide bearing 20: fixture
20b: flange 30: gap adjustment assembly
30a: gap adjusting plate 30c: protruding jaw
30f: guide pin 40: turbine shaft
60: jig 62: ring type support
62a: long bar 62b: short bar
64: lifter 64a: ground portion
64b: shaft hole 64c: central body portion
64d: blow part 64f: finger part
64g: Pin Groove C: Center of Space

Claims (7)

delete delete A gap control plate 30a of a gap control assembly 30 provided between the guide bearing 10 and the stationary body 20 installed on the turbine shaft 40 of the pumping station; The jig 60 has a ground portion 64a of the lifter 64 on the flange 20b of the fixing body 20 with the gap control assembly 30 therebetween so that the gap adjusting plate 30a can be easily taken out. A ring-type support (62) in which a long bar (62a) is formed to a length that can be touched; A lifter installed to rotate toward the center of space C of the ring-type support 62 in each of the pair of short bars 62b connecting the pair of long bars 62a in the ring-type support 62. 64; In the gap control plate pull-out jig 60 of the guide bearing installed in the power plant turbine comprising a,
The lifter 64,
A central body portion 64c inserted and installed through the shaft hole 64b so that the short bar 62b of the ring type support 62 can be used as the shaft;
A striking portion 64d formed to protrude above the shaft hole 64b so as to protrude outward from an upper portion of the ring type support 62;
A grounding portion 64a formed to protrude in an arc shape on the lower side of the shaft hole 64b so as to protrude outward from the lower portion of the ring type support 62;
Installed in the power plant turbine, characterized in that it comprises a finger portion (64f) protruding horizontally to the inner side end of the ground portion (64a) so as to be easily caught by the projection jaw (30c) of the gap control plate (30a) Jig for pulling gap adjustment plate of guide bearing. delete The method of claim 3, wherein
The striking portion 64d,
Pull out the gap control plate of the guide bearing installed in the power plant turbine, characterized in that the short bar (62b) is formed extending to the length that can easily raise the finger portion (64f) from the top of the shaft hole (64b) to be inserted Dragon jig. The method of claim 3, wherein
The ground portion 64a,
It protrudes from the lower side of the shaft hole 64b inserted into the short bar 62b toward the outer direction, and is formed in an arc shape having a predetermined curvature so as to easily shake toward the space center C of the ring type support 62. Jig for drawing gap adjustment plate of guide bearing installed in power plant turbine. The method of claim 3, wherein
In the finger portion 64f,
Installed in the power plant turbine, characterized in that the pin groove (64g) is formed on the front end so as to protrude so as to be easily caught by the projection jaw (30c) of the gap control plate (30a) to engage around the guide pin (30f) Jig for pulling gap adjustment plate of guide bearing.

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