KR102138461B1 - Jig for adjusting step for journal bearing - Google Patents

Abstract

The present invention relates to a jig for adjusting a journal bearing step. In order to make it easier and convenient to adjust steps of each component when assembling a journal bearing, provided is the jig for adjusting the journal bearing step, which comprises: plates installed on end shields of a lower bearing on both sides of a rotor and placed horizontally on the lower bearing; a fixation unit for fixing the plates to the end shields of the lower bearing to be detachable; a gasket installed between upper ends of both the plates and the end shields and forming a gap between the plates and the lower bearing; and an adjustment unit installed on the plates, and pressing a bearing member and a ring member and moving the same or regulating movement of the same.

Description

Jig for ADJUSTING STEP FOR JOURNAL BEARING

The present disclosure relates to a jig for step adjustment of a journal bearing.

Generally, journal bearings are used in gas turbines or steam turbines of power plants to support rotors stably and to support circumferential loads to maintain dynamic characteristics.

The journal bearing is divided in half and includes a lower bearing disposed under the rotor and an upper bearing disposed thereon.

Journal bearings need to be inspected after a certain period of time during the initial operation of the turbine engine, and even after the initial inspection, disassembly and assembly are required for periodic inspection or replacement if an abnormality occurs.

When assembling the journal bearing, prior to fastening the upper bearing to the lower bearing, the steps of the lower bearing are adjusted. That is, in a state in which the rotor is spaced from the lower bearing, a step adjustment operation is performed to precisely match the horizontal state of each ring member and the bearing member of the lower bearing. When the steps of each ring member and the bearing member are adjusted, the spaced rotor is placed on the lower bearing and the upper bearing is installed on the lower bearing to complete assembly.

The journal bearing has a structure in which a plurality of ring members are installed between the outer end shield and the bearing members in contact with the rotor, and in the conventional case, the operator finely adjusted the steps by tapping the ring members and the bearing members using a hammer.

However, in this conventional structure, when adjusting the ring member or the bearing member, other bearing members and the ring member also move together, and it takes a lot of time and effort to adjust each of them. In addition, there is a problem in that the work deviation is severe between the skilled and the non-skilled, and even if it is an expert, the work is difficult and accurate adjustment is not easy.

The object of the present invention is to provide a journal bearing step adjusting jig that makes it easier and simpler to perform step adjustment of each component when assembling the journal bearing.

The jig of this embodiment, the upper end of the journal bearing member including an end shield disposed outside, a bearing member disposed inside the end shield and contacting a rotor, and at least one ring member disposed between the bearing member and the end shield In order to assemble the bearing and the lower bearing, the lower bearing may be installed to adjust the steps of the bearing member and the ring member.

The jig is installed on the end shields of the lower bearings on both sides of the rotor, a plate placed horizontally on the lower bearings, a fixing part for detachably fixing the plate to the end shields of the lower bearings, the plate and the end It may include a gasket installed between the upper end of the shield to form a gap between the plate and the lower bearing, and an adjustment unit installed on the plate to press the bearing member and the ring member to move or regulate movement.

The fixing part may include a fixing hole formed on the plate at a position corresponding to a fastening hole formed on the top of the end shield, and a fixing bolt that is screwed to the fastening hole of the end shield through the fixing hole to fix the plate. have.

The gasket may be formed of a copper material installed on the bottom surface of the plate and having relatively less rigidity than the end shield.

The adjustment unit is a screw hole formed through the plate at a position corresponding to the bearing member and/or the ring member, a screw screwed to the screw hole and protruding downward from the plate to press the bearing member or/and the ring member Bolts may be included.

The screw holes may be formed to be spaced apart along the axial direction of the rotor in a pair of two, and jack bolts are respectively fastened to the screw holes forming the pair to press the bearing member or the ring member in two places. .

The jack bolt may be provided with a tip portion made of the same material at a tip end contacting the bearing member or the ring member.

The adjusting unit may further include a measuring hole formed on the plate to measure the upper surfaces of the bearing member and the ring member with a dial gauge.

As described above, according to this embodiment, even a non-skilled person can easily and simply adjust the steps of the bearing member and the ring member by using a jig, and shorten the time required for step adjustment to increase productivity.

In addition, it is possible to adjust the step more precisely, thereby improving maintenance quality.

In addition, damage to each part of the journal bearing can be prevented during the use of the jig.

1 is a schematic view showing a state in which the jig for step adjustment according to this embodiment is mounted on a journal bearing.
2 is a schematic perspective view showing a jig for adjusting a journal bearing step according to the present embodiment.
3 is a schematic diagram showing a part of the configuration of the jig for journal bearing step adjustment according to the present embodiment.
4 is a schematic cross-sectional view showing a state in which the journal bearing step adjusting jig according to the present embodiment is mounted on the journal bearing.
5 is a schematic view for explaining the operation of the journal bearing step adjustment jig according to this embodiment.

Hereinafter, embodiments of the present invention will be described in detail. However, this is provided as an example, and the present invention is not limited thereto, and the present invention is only defined by the scope of claims to be described later. The embodiments described below may be modified in various forms within limits that do not depart from the concept and scope of the present invention. Where possible, the same or similar parts are indicated by the same reference numerals in the drawings.

The terminology used hereinafter is for reference only to specific embodiments and is not intended to limit the invention. The singular forms used herein include plural forms unless the phrases clearly indicate the opposite. As used herein, the meaning of “comprising” embodies certain properties, regions, integers, steps, actions, elements, and/or components, and other specific properties, regions, integers, steps, actions, elements, components, and/or groups It does not exclude the existence or addition of.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. However, the following examples are only preferred examples of the present invention, and the present invention is not limited to the following examples.

1 shows a state in which a jig is mounted for journal bearing step adjustment according to this embodiment, and FIG. 2 shows a jig for step adjustment according to this embodiment.

As shown, the journal bearing 100 is a bearing member 112 in contact with the rotor 200, at least one ring member 114 disposed outside the bearing member 112, and a bearing member installed outside the ring member ( 112) and an end shield 116 supporting the ring member 114.

Journal bearing 100 according to the present embodiment illustrates a structure in which two ring members 114 are installed between the bearing member 112 and the end shield 116. Hereinafter, a journal bearing 100 having two ring members 114 will be described as an example. The jig of this embodiment is not limited to this, and it is also applicable to the journal bearing 100 in which one or three ring members 114 are installed.

The journal bearing 100 is separated into a semicircle shape so as to be installed outside the rotor 200 and is assembled while surrounding the rotor 200. The portion that is divided into a semicircle and disposed under the rotor 200 is called a lower bearing 110, and a portion coupled to the upper portion is called an upper bearing (not shown). Combining the upper bearing to the lower bearing 110 constitutes a journal bearing 100 that encloses the rotor 200 as a whole.

The step adjustment jig 10 of this embodiment is installed on the lower bearing 110 so that the steps of the bearing member 112 and the ring member 114 of the lower bearing 110 can be easily adjusted according to the end shield 116. have. The step adjustment can be understood as aligning the upper surfaces of the freely flowing bearing member 112 and the ring member 114 with the horizontal surface of the end shield 116.

To this end, the jig 10 of the present embodiment is installed on the end shield 116 of the lower bearing 110 on both sides of the rotor 200, and the plate 20, the plate placed horizontally on the lower bearing 110, plate ( 20) the fixing part for detachably fixing the end shield 116 of the lower bearing 110, is installed between the plate 20 and the top of the end shield 116, between the plate 20 and the lower bearing 110 Gasket 22 to form a gap, and is installed on the plate 20 may include an adjustment unit for regulating movement or pressing the bearing member 112 and the ring member 114 to move.

Accordingly, it is possible to easily and easily adjust the steps of each bearing member 112 and the ring member 114 by using the adjustment unit while the jig 10 is fixed to the end shield 116.

The jig 10 may be installed on both sides of the lower bearing 110 around the rotor 200. Each jig 10 installed on both sides of the lower bearing 110 is made of the same structure, is disposed opposite to the center of the rotor 200 is installed on the lower bearing 110.

The plate 20 is a plate-shaped structure, and may be formed to have a size approximately covering the upper surface of the lower bearing 110, that is, covering the end shield 116, the ring member 114, and the bearing member 112. The plate 20 may be formed of a material that is not bent or deformed during step adjustment. For example, the plate 20 may be formed of a steel material.

The plate 20 may further include a measurement hole 24 formed through the front surface to measure the upper surface of the bearing member 112 or the ring member 114 with a dial gauge. The shape and size of the measuring hole 24 can be variously modified. In the present embodiment, the measurement hole 24 may be formed in a long elongated shape so that both the bearing member 112 and the upper end of each ring member 114 are exposed. Accordingly, if necessary, the operator can accurately detect the steps of the bearing member 112 or the ring member 114 through the measurement hole 24 with a dial gauge.

The fixing part 30 is formed in the plate 20 at a position corresponding to the fastening hole 118 formed on the upper end of the end shield 116, the fastening hole of the end shield 116 through the fastening hole 30 ( It may include a fixing bolt 32 for fixing the plate 20 is screwed to 118).

A plurality of fastening holes 118 for fastening with the upper bearing are formed on the upper end of the end shield 116 of the lower bearing 110. The fixing hole 30 is formed at a position corresponding to the fastening hole 118 of the end shield 116. Accordingly, when the fixing bolt 32 penetrates through the fixing hole 30 of the plate 20 and is screwed into the fastening hole 118 of the end shield 116, the plate 20 is firmly attached to the top of the end shield 116. Is fixed.

The gasket 22 may be attached to the lower portion of the plate 20. The gasket 22 is inserted between the top of the plate 20 and the end shield 116 to form a gap between the plate 20 and the lower bearing 110. The gasket 22 is attached to the plate 20 at a position where the fixing hole 30 is formed with a thin plate piece having a predetermined thickness. A hole may be formed in the gasket 22 so that the fixing bolt 32 can penetrate through the fixing hole 30.

The gasket 22 is a member in contact with the top of the end shield 116, and is pressed against the top of the end shield 116 as the plate 20 is fastened to the top of the end shield 116 by the fixing bolt 32. Accordingly, the gasket 22 may be formed of a material having a relatively less rigidity than the end shield 116. In this embodiment, the gasket 22 may be formed of the same material. Accordingly, even if the gasket 22 is pressed against the upper end of the end shield 116, it is possible to prevent the upper end of the end shield 116 from being damaged by the gasket 22.

Since the plate 20 is tightly coupled to the end shield 116 via the gasket 22, a gap is formed between the plate 20 and the bearing member 112 and the ring member 114. Thus, before the step adjustment, the upper end of the bearing member 112 or the ring member 114 does not directly contact the plate 20, thereby preventing the bearing member 112 and the ring member 114 from being damaged by the plate 20. I can do it.

In addition, the adjustment portion is moved to the gap spaced from the plate 20, so that the steps of the bearing member 112 and the ring member 114 can be easily adjusted.

Adjustment part of the present embodiment is a screw hole (40) formed through the plate (20) at a position corresponding to the bearing member (112) or the ring member (114), screwed into the screw hole (40) and lowered to the plate (20). It may protrude from the bearing member 112 or the ring member 114 may include a jack bolt 42.

In the state in which the plate 20 is fixed to the end shield 116, each screw hole 40 is formed in a position corresponding to the upper position of the bearing member 112 and each ring member 114 that require step adjustment. Thus, the tip of the jack bolt 42 fastened to each screw hole 40 is accurately located on the upper part of the bearing member 112 and each ring member 114, and the bearing member 112 or each ring member 114 You can contact.

The screw hole 40 is formed with a female screw on the inner circumferential surface, and is screwed with the jack bolt 42. Accordingly, when the jack bolt 42 is fastened or loosened by fastening it to the screw hole 40, the protruding amount of the tip of the jack bolt 42 with respect to the plate 20 is variable so that the bearing member 112 and the ring member 114 The step can be precisely adjusted.

In this embodiment, the screw holes 40 may be formed spaced along the axial direction of the rotor 200 in a pair of two. That is, two screw holes 40 are formed in accordance with the bearing member 112 or each ring member 114, respectively. The jack bolts 42 are fastened to the two screw holes 40 forming a pair, and the two jack bolts 42 are spaced apart from the bearing member 112 or the ring member 114. Accordingly, by adjusting the two jack bolts 42 for the bearing member 112 or the ring member 114, it is possible to precisely adjust the steps of the bearing member 112 and the ring member 114.

As shown in FIG. 1, the bearing member 112 is formed in a spherical shape such as a ball so as to correspond to the flow of the rotor 200. Accordingly, the bearing member 112 and each ring member 114 move not only around the axial direction of the rotor 200, but also around the direction perpendicular to the axis of the rotor 200. Therefore, as in the present embodiment, the two jack bolts 42 disposed along the axial direction individually press both axial ends of the bearing member 112 or the ring member 114, thereby making the bearing member in the desired direction ( 112) and the ring member 114 can be pressed to adjust the step.

As shown in FIG. 3, the jack bolt 42 is a bolt structure having a male screw formed on an outer circumferential surface, and a tip portion 43 made of the same material may be further installed at a tip end contacting the bearing member 112 or the ring member 114. have. Thus, in the process of adjusting the steps of the bearing member 112 or the ring member 114, even if the jack bolt 42 is pressed close to the top of the bearing member 112 or the ring member 114, the bearing member 112 or the ring member It is possible to prevent the upper end of the 114 is damaged.

Preferably, the tip portion 43 may be formed in a circular arc shape. Accordingly, the distance between the tip portion 43 of the jack bolt 42 and the upper end of the bearing member 112 or the ring member 114 can be accurately measured, and the bearing member 112 or the ring member 114 can be more precisely measured. Can be moved.

Hereinafter, the operation of the present embodiment will be described with reference to FIGS. 4 and 5.

By lifting the rotor 200 on the lower bearing 110 to remove the load, the steps of the bearing member 112 and each ring member 114 of the lower bearing 110 are roughly adjusted. In this state, the steps of the bearing member 112 and each ring member 114 are precisely adjusted using the jig 10 of this embodiment.

4, the jig 10 of this embodiment is installed on both sides of the rotor 200 of the lower bearing 110, respectively.

First, the plate 20 of the jig 10 is fixed to the end shield 116. Fix the fixing bolt 30 through the fixing hole 30 in the state where the fixing hole 30 of the plate 20 is matched with the fastening hole 118 of the end shield 116 to fasten the fixing bolt 32 to the fastening hole 118. If it is, the plate 20 is fixed to the end shield 116.

When the plate 20 is fixed to the end shield 116, the plate 20 is placed on the lower bearing 110 in a horizontal state on the upper surface of the end shield 116. In addition, the plate 20 is spaced apart above the bearing member 112 and each ring member 114 by the gasket 22 installed at the bottom of the plate 20. Accordingly, the step is slightly shifted so that the upper end of the bearing member 112 or the ring member 114 that is raised upward does not contact the plate 20.

In this state, by rotating the jack bolts 42 installed in each screw hole 40 of the plate 20, the position of the tip end of the tip portion 43 is adjusted to the step adjustment position, or the corresponding bearing member is fitted with the jack bolt 42. Step 112 can be adjusted by pushing or moving the ring member 114.

5 shows a step adjustment action of the bearing member by the jack bolt in one embodiment. In Fig. 5, the dotted line represents a step line L to be adjusted, that is, a linear surface parallel to the end shield 116. Hereinafter, if necessary for convenience of description, the plates and jack bolts symmetrically disposed on the left and right sides of the rotor are divided into right and left sides, respectively, and reference numbers are also described differently.

When the steps of the ring member 114 are adjusted by jack bolts 421 and 424 located on the ring member 114 next to the bearing member 112, the ring member 114 is placed on the step line L. Then, the upper surface of the ring member 114 is brought into contact with the front ends of the jack bolts 421 and 424 from the left and right.

Thus, the ring member 114 does not move in the step adjustment process of the bearing member 112 while being supported by the jack bolts 421 and 424 on both sides.

For step adjustment of the bearing member 112, the right jack bolt 423 is tightened by tightening the jack bolts 423 of the right plate 202 located on the lower side of the upper ends of both sides of the bearing member 112 with the rotor interposed therebetween. ) So that the tip is located at the step line (L).

Here, in order to position the right jack bolt 423 on the step line L, the heights of the bearing members 112 may be detected on both sides of the lower bearing 110. The height of the bearing member 112 may be obtained, for example, by detecting a distance between the bottom of each plate 201 and 202 and the top of the bearing member 112 with a measurement gauge. If the heights of both sides of the bearing member 112 are detected, the average value is obtained, and the tip position of the right jack bolt 423 is adjusted to the average value. Accordingly, it is possible to accurately position the tip of the right jack bolt 423 on the step line L.

As described above, when the adjustment of the right jack bolt 423 is completed, the step of the bearing member 112 is adjusted by rotating the left jack bolt 422 installed on the opposite left plate 201.

When the left jack bolt 422 is tightened, the left jack bolt 422 descends and presses the bearing member 112 with the tip of the jack bolt rising above the step line L. As the bearing member 112 is pushed and moved by the left jack bolt 422, the upper end of the bearing member 112 rises from the right side.

When the front end of the left jack bolt 422 is tightened until it reaches the step line L, the bearing member 112 is moved downward, and the bearing member 112 is raised from the right side to contact the front end of the right jack bolt 423. do. The bearing member 112 is no longer moved while contacting the tip of the right jack bolt 423. That is, the right end of the jack bolt 423 is positioned on the step line L to act as a stopper for stopping the movement of the bearing member 112.

Therefore, the upper right side of the bearing member 112 located below the step line L rises to fit the step line L while contacting the right jack bolt 423, and the upper left side of the bearing member 112 is While being pushed by the left jack bolt 422 to be tightened, it descends and fits to the step line L. Thus, by tightening the left jack bolt 422 to the step line (L) position, the bearing member 112 is precisely aligned with the step line (L).

In this process, the ring member 114 next to the bearing member 112 maintains a fixed state without moving like the bearing member 112 with the position fixed to the jack bolts 421 and 424.

As described above, by fixing the plate and tightening the jack bolt, even an unskilled person can adjust the journal bearing step more simply and easily.

As described above, although exemplary embodiments of the present invention have been illustrated and described, various modifications and other embodiments may be made by those skilled in the art. These modifications and other embodiments are all to be considered and included in the appended claims will not depart from the true spirit and scope of the invention.

10: jig 20: plate
22: gasket 30: fixed hole
32: fixing bolt 40: screw hole
42: jack bolt

Claims (6)

Assembly of the upper and lower bearings of the journal bearing member including an end shield disposed on the outside, a bearing member disposed inside the end shield and contacting the rotor, and at least one ring member disposed between the bearing member and the end shield. A jig for step adjustment which is installed on the lower bearing to adjust the steps of the bearing member and the ring member,
The jig is installed on the end shields of the lower bearings on both sides of the rotor, a plate placed horizontally on the lower bearings, a fixing part for detachably fixing the plate to the end shields of the lower bearings, the plate and the end A gasket installed between the upper end of the shield to form a gap between the plate and the lower bearing, and an adjustment unit installed on the plate to press the bearing member and the ring member to move or regulate movement,
The adjusting unit includes a screw hole formed through the plate at a position corresponding to the bearing member and the ring member, a screw bolt screwed to the screw hole and protruding downward from the plate to press the bearing member and the ring member and,
The screw holes are formed by a pair of two spaced apart along the axial direction of the rotor, and jack bolts are respectively fastened to the screw holes forming the pair to press the bearing member or the ring member in two places. Jig for adjusting the bearing step. According to claim 1,
The fixing part includes a fixing hole formed on the plate at a position corresponding to a fastening hole formed on the top of the end shield, and a fixing bolt screwed to the fastening hole of the end shield through the fixing hole to fix the plate Jig for adjusting the journal bearing step. According to claim 1,
The gasket is installed on the bottom of the plate and is a jig for adjusting the journal bearing step formed of a copper material having a relatively less stiffness than the end shield. delete delete According to claim 1,
The jack bolt is a jig for adjusting a journal bearing step at which a tip portion of the same material is installed at a tip end contacting the bearing member or the ring member.

Images