KR20170130142A - Device turning for rotor - Google Patents

Abstract

The present invention relates to a rotor turning device and, more specifically, to a rotor turning device capable of horizontally positioning a rotor by the own weight of the rotor. The rotor turning device according to the present invention comprises a pair of roller support units for supporting one end and the other end of the rotor. The roller support unit includes a base frame, a turn bed, a roller portion, and a support member. The turn bed is disposed on the base frame to be able to slide on the base frame. The roller portion includes a pair of rollers that support the rotor and is spaced apart from each other by a predetermined distance on the turn bed. The support member is disposed between the turn bed and the roller portion so that the turn bed can support the roller portion and the roller portion can be tilted by the own weight of the rotor.

Description

Device turning for rotor

The present invention relates to a rotor turning apparatus, and more particularly, to a rotor turning apparatus capable of horizontally positioning a rotor by its own weight.

Various rotor turning devices have been filed for rotating and driving the rotor.

The turning apparatus for the steam turbine rotor disclosed in the Japanese Patent No. 10-1192105 repeatedly raises and lowers the slide ram by the operation of the hydraulic cylinder for the maintenance of the steam turbine rotor. Then, the ratchet lever pushes the rotor gear part downward to perform the turning operation.

The rotor turning apparatus disclosed in the Japanese Patent Registration No. 10-1149015 includes a chucking means having a ring-shaped body and a ring gear to rotationally drive the rotor shaft upon checking of the gas turbine.

The conventional rotor turning apparatus has a problem in that the configuration is complicated because the slide ram is repeatedly moved up and down by the operation of the inlet cylinder and the turning operation is started by the movement of the ratchet lever.

In addition, the conventional rotor turning device requires a rotor to be inserted through a ring-shaped body, and thus the structure is complicated.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a rotor turning apparatus which is simple to implement because the roller is rotated by the drive motor to turn the rotor.

Further, it is an object of the present invention to provide a rotor turning apparatus which can easily realize its configuration by providing a pair of roller supporting means for supporting the rotor.

It is another object of the present invention to provide a rotor turning device capable of placing the rotor horizontally due to its own weight by having a supporting member for supporting the roller portion.

The rotor turning apparatus according to the present invention includes a pair of roller supporting means for supporting one end and the other end of the rotor. The roller supporting means includes a base frame, a turnbear, a roller portion, and a support member. The turnbeds are positioned above the base frame so as to be able to slide on the base frame. The roller unit includes a pair of rollers for supporting the rotor and is spaced apart from the top of the turn-bed by a predetermined distance. The support member includes a support member positioned between the turn-bed and the roller portion so that the roller portion can support the roller portion so that the roller portion can be inclined by the self-weight of the rotor.

The roller supporting means for supporting one end of the rotor further includes a drive motor for rotating the pair of rollers.

In addition, in the above-described rotor turning apparatus, the support member is formed in a cylindrical shape, and the turnbeds are formed with grooves into which one side of the support member can be inserted, And a support block formed at a lower portion of the pair of rollers.

Further, in the above-described rotor turning apparatus, it is preferable that the roller supporting means for supporting the other end of the rotor is mounted such that the pair of rollers can slide left and right.

In the above-described rotor turning apparatus, it is preferable that the turn bed frictionally slides on the base frame with oil or a bearing.

Further, in the above-described rotor turning apparatus, the roller supporting means may include a spring having one end contacting the support block and the other end contacting the turn bed so as to elastically support the support block, And the other end of the bolt is exposed through the support block, and a nut is fastened to the other end of the bolt so as to press and fix the support block, and the other end of the bolt penetrates through the support block It is preferable that a through hole is further formed which is larger than the diameter of the bolt.

According to the present invention, the roller supporting means for supporting one end of the rotor includes a driving motor to rotate one end of the rotor, and the roller supporting means for supporting the other end of the rotor slides the other end of the rotor to the left and right, . Therefore, it is possible to work efficiently when processing the rotor.

Further, according to the present invention, the roller portion is inclined by the own weight of the rotor, and the rotor can be positioned horizontally. Thus, the rotor can be efficiently machined.

1 is a conceptual diagram of an embodiment of a rotor turning apparatus according to the present invention.
2 is a perspective view of an embodiment of a rotor turning apparatus according to the present invention.
3 is a conceptual view of a roller supporting means for supporting one end of the rotor disclosed in Fig.
Fig. 4 is a conceptual view of a roller supporting means for supporting the other end of the rotor shown in Fig. 3;
5 is a conceptual view of the turn bed disclosed in FIG.
Figure 6 is a side view of the roller support means disclosed in Figure 3;
Figure 7 is a side view of the roller support means disclosed in Figure 4;

1 to 7, an embodiment of a rotor turning apparatus according to the present invention will be described in detail.

The rotor turning apparatus according to the present invention includes a pair of roller supporting means (10, 20) for supporting one end and the other end of the rotor (1).

The roller supporting means 10 and 20 are supported by the base frames 11 and 21, the turnbeds 12 and 22, the roller portions 13 and 23, the support members 15 and 25, the springs 18 and 28, 19 and 29 and nuts 19-1 and 29-1.

The turnbeds 12 and 22 are positioned above the base frames 11 and 21 so as to be able to slide on the base frames 11 and 21. At this time, the turnbeds 12 and 22 are formed with oil grooves 12a and 22a on the lower surface so that they can slide on the upper portions of the base frames 11 and 21, and oil is supplied to the oil grooves 12a and 22a Can slide on the base frame (11, 21). However, a ball bearing or the like may be inserted into the turnbeds 12 and 22 and the base frames 11 and 21 to slide. Grooves 12b and 22b are formed on the turnbeds 12 and 22, respectively.

The roller portions 13 and 23 are provided with a pair of rollers 13a and 23a and support blocks 13b and 23b. The pair of rollers 13a and 23a support the rotor 1. The support blocks 13b and 23b are coupled to the lower portions of the pair of rollers 13a and 23a and are spaced apart from the upper portions of the turn beds 12 and 22 by a predetermined distance. The supporting blocks 13b and 23b are formed with through holes 14 and 24 through which the bolts 19 and 29 are inserted and grooves 13b 'and 23b' are formed on the lower surface. At this time, the diameters of the through holes (14, 24) are larger than the diameters of the bolts (19, 29).

The support members 15 and 25 serve to support the support blocks 13b and 23b in the turn beds 12 and 22 so that the support blocks 13b and 23b can be tilted by the own weight of the rotor 1. To this end, the support members 15 and 25 are formed in a cylindrical shape and one side thereof is inserted into the grooves 12b and 22b of the turnbeds 12 and 22 and the other side thereof is inserted into the grooves 13b 'and 23b' of the support blocks 13b and 23b. ). Therefore, the support blocks 13b and 23b and the turn beds 12 and 22 are spaced apart by the support members 15 and 25 at regular intervals. When the rotor 1 is positioned above the pair of rollers 13a and 23a, the support blocks 13b and 23b are inclined by the weight of the rotor 1 and move the rotor 1 in direction A to rotate the rotor 1 1) and the other end (1b).

The springs 18 and 28 serve to elastically support the support blocks 13b and 23b when the support blocks 13b and 23b are tilted by their own weight. To this end, one end is in contact with the support blocks 13b, 23b and the other end is in contact with the turn beds 12, 22. Therefore, when the support blocks 13b and 23b are inclined, a buffering action can be performed.

The bolts 19 and 29 and the nuts 19-1 and 29-1 are formed in such a manner that the support blocks 13b and 23b are tilted in the A direction by the self weight of the rotor 1 and the support blocks 13b and 23b and the turnbeds 12, and 22, respectively. The bolts 19 and 29 are fastened to the turn beds 12 and 22 at one end and inserted into the through holes 14 and 24 at the other end. At this time, the through holes 14 and 24 are formed to be wider than the diameter of the bolts 19 and 29 so that the other ends of the bolts 19 and 29 can be inserted and moved.

The nuts 19-1 and 29-1 are fastened to the other ends of the bolts 19 and 29 so as to press and fix the support blocks 13b and 23b. The nuts 19-1 and 29-1 are not fastened so that the support blocks 13b and 23b can be tilted until the rotor 1 is leveled. However, after the rotor 1 is leveled, The nuts 19-1 and 29-1 are fastened to fix the support blocks 13b and 23b so that they do not move any more.

The roller supporting means 10 for supporting the one end 1a of the rotor among the pair of roller supporting means 10 and 20 serves as a driving portion for rotating the rotor 1 and the other end 1b of the rotor 1, The roller supporting means 20 for supporting the roller 20 serves as a driven portion. The roller portion 13 of the roller supporting means 10 serving as a driving portion further includes a motor 16 and a speed reducer 17 for rotating the pair of rollers 13a. The roller portion 23 of the roller supporting means 20 serving as a follower can be mounted so that the pair of rollers 23a can be moved to the left and right by the pair of rollers 23a, If the intervals between the pair of rollers 13a and 23a of the roller portions 13 and 23 supporting the both ends of the rotor 1 are equal to each other when the diameters of one end and the other end of the rotor 1 are different, Because it is difficult to level the horizontal. Therefore, if the diameter of the other end 1b of the rotor is larger than the diameter of the one end 1a of the rotor, the distance between the pair of rollers 23a_2 and 23a_2 of the follower portion is widened to be horizontal, The interval between the pair of rollers 23a-1 and 23a-2 is narrowed to align the pair of rollers 23a-1 and 23a-2.

The sliding block 23c, the bracket 23d, the feed screw 23e, and the stopper bolt 23f are further provided to move the pair of rollers 23a-1 and 23a-2 to the left and right.

The sliding block 23c is coupled to the pair of rollers 23a-1 and 23a-2.

One end of the bracket 23d is connected to the sliding block 23c.

The moving screw 23e is screwed to the bracket 23d so as to slide the bracket 23d to the left and right.

The stopper bolt 23f is engaged with the sliding block 23c so as to fix the sliding block 23c after the pair of rollers 23a-1 and 23a-2 move.

When the feed screw 23e is turned, the bracket 23d moves left and right. Then, the pair of rollers 23a-1 and 23a-2 move left and right because the sliding block 23c connected to the bracket 23d slides left and right. After the gap between the pair of rollers 23a-1 and 23a-2 is adjusted, the sliding block 23c is fixed to the stopper bolt 23f so that the pair of rollers 23a-1 and 23a-2 can be fixed.

In the case of the rotor turning apparatus according to the present invention, the turnbeds 12 and 22 can slide in the direction of the arrow B at the top of the base frames 11 and 21 and the support blocks 13b and 23b can slide in the direction of the arrow B, 25 in the direction of arrow A. When the rotor 1 is placed on the pair of rollers 13a and 23a as shown in Fig. 1, the turnbeds 12 and 22 are rotated in the direction of arrow B by the own weight of the rotor 1, ) Is inclined. At this time, the springs 18 and 28 relax the impact generated when the support blocks 13b and 23b are inclined.

On the other hand, when the diameter of the one end 1a of the rotor is different from the diameter of the other end 1b of the rotor, the distance between the pair of rollers 23a-1 and 23a-2 must be adjusted to level the rotor 1 . In this embodiment, when the feed screw 23e is turned, the bracket 23d moves and the sliding block 23c connected to the bracket 23d is slid to the left and right. Thus, the pair of rollers 23a-1 and 23a-2 can slide left and right to adjust their spacing.

Therefore, in the rotor turning apparatus according to the present invention, not only the turn beds 12 and 22 and the support blocks 13b and 23b can move and balance themselves by the own weight of the rotor 1, The spacing between the pair of rollers 23a-1 and 23a-2 can be adjusted to be horizontal.

10, 20: roller supporting means 11, 21: base frame
12, 22: Turnbeds 12a, 22a: Oil groove
12b, 22b: grooves 13, 23: roller portion
13a, 23a: a pair of rollers 13a-1, 13a-2, 23a-1, 23a-2:
13b, 23b: supporting block 13b ', 23b': groove
14, 24: through-hole 15, 25: support member
16: motor 17: speed reducer
18, 28: spring 19, 29: bolt
19-1, 29-1: Nut 23c: Sliding block
23d: Bracket 23e: Feed screw
23f: Stopper bolt

Claims (5)

A base frame,
A turnbear located at an upper portion of the base frame so as to be able to slide on the base frame,
A roller portion having a pair of rollers for supporting the rotors and spaced apart from each other at an upper portion of the turnbeds,
And a support member positioned between the turn-bed and the roller so as to support the roller in the turn-bed so that the roller can be tilted by the self-weight of the rotor, so as to support one end and the other end of the rotor A pair of roller support means,
Wherein the roller supporting means for supporting one end of the rotor further comprises a drive motor for rotating the pair of rollers. The method according to claim 1,
Wherein the support member is formed in a cylindrical shape,
Wherein the turnbeds are formed with grooves into which one side of the support member can be inserted,
Wherein the roller unit further comprises a support block formed with a groove into which the other side of the support member can be inserted and coupled to a lower portion of the pair of rollers. 3. The method of claim 2,
And the roller supporting means for supporting the other end of the rotor is mounted such that the pair of rollers can slide left and right in the supporting block. The method of claim 3,
Wherein the turn bed frictionally slides on the base frame with an oil or a bearing. 5. The method of claim 4,
The roller supporting means includes a spring having one end contacting the supporting block and the other end contacting the turn bed so as to elastically support the supporting block, one end being fastened to the turn bed and the other end passing through the supporting block And a nut fastened to the other end of the bolt so as to press and fix the support block,
Wherein the support block further includes a through hole inserted through the other end of the bolt and wider than the diameter of the bolt.

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