KR20110036194A - Pulling up device for lower shield of a higher capacity dynamo - Google Patents

Abstract

PURPOSE: A pulling up device for a lower shield of a higher capacity dynamo is provided to reduce the period of the coil contact of the stator in a generator. CONSTITUTION: In a pulling up device for a lower shield of a higher capacity dynamo, a first fixed supporting part(30) and a second fixed supporting part(40) has one end which is inserted into the space between the bearing journal of generator stator and a lower shield. The first and second fixed supporting parts are inserted into the space between the bearing journal and the lower shield. An upper cover(50) covers the upper part of the bearing journal and is partly connected to the upper part of the first and second fixed supporting part to prevent the separation of the first and second fixed supporting part in the rotation of a lower shield.

Description

Pulling up device for lower shield of a higher capacity dynamo}

The present invention relates to a lower shield extraction device for a large capacity generator, and more particularly, to a lower shield extraction device for a large capacity generator capable of inspecting and maintaining a generator stator coil without removing the generator rotor.

In general, large-capacity generators used in nuclear power plants, etc., are large-scale heavy products of only 80 tons of the rotor. It is necessary to check and maintain the stator coils of the generator when planning preventive maintenance work and sudden maintenance of such a large capacity generator.

The coil of the generator stator mainly checks the end of the stator coil without removing the rotor of the generator, since most damage occurs at the end, but to remove a part of the shield that seals both ends of the generator. The generator rotor must be left out.

That is, it is preferable to check the stator coils in a state in which the shields that seal both ends of the generator are preferably removed, but in the related art, the shield that shields one end of the turbine side cannot be removed. The electrons were separated and the shield was removed.

In particular, the upper shield of the turbine-side shield of the generator which is divided into two upper and lower parts can be easily removed without separating the rotor of the generator, but the lower shield without the conventional generator rotor Could not be separated.

Conventionally, after separating the coupling connecting the generator rotor and the turbine rotor in order to separate the lower shield, the lower shield is removed in a state in which the heavy generator rotor is removed, and by removing the lower shield The ends of the stator coils exposed were checked.

As described above, the operation of removing the generator rotor and installing the rotor in a circle to check the stator coils of the generator as described above is a dangerous operation of moving a large weight as described above. Since the work takes 15 days, it takes a lot of time and money, and has a high risk of a safety accident.

The problem to be solved by the present invention in view of the above problems is to provide a lower shield take-out device of a large capacity generator that can take out the lower shield without taking out the generator rotor.

In order to solve the above problems, the lower shield removing device of a large-capacity generator includes: first and second fixed support portions each one end of which is inserted into and fixed to a space between the bearing journal of the generator rotor and the lower shield; The first and second fixed support parts are coupled to surround the upper side of the bearing journal in a state where the first and second fixed support parts are inserted and fixed between the bearing journal and the lower shield to be fastened to a part of the upper part of the first and second fixed support parts to be connected to the lower part. And an upper cover part which prevents the first and second fixed support parts from being separated during rotation of the shield.

The lower shield removing device of the high capacity generator of the present invention prevents detachment of the first and second fixed support portions inserted into both sides of the space between the bearing journal of the generator rotor and the lower shield, and the first and second fixed support portions. To rotate the lower shield 180 degrees by rotating the combination of the first and second fixed support portion and the upper cover portion in the state that the upper cover portion is coupled to the upper and removed,

Without removing the generator rotor, it is possible to remove the lower shield of the generator and expose the coil end of the generator stator in a checkable state, thus significantly reducing the air of the generator stator coil inspection and the resulting cost and It has the effect of saving manpower.

When described in detail with reference to the accompanying drawings a preferred embodiment of the lower shield outtake apparatus of the present invention a large capacity generator as described above.

1 is an exploded perspective view of the lower shield take-out device of the large-capacity generator of the present invention, Figure 2 is a perspective view of the coupled state of the lower shield take-off device of the large-capacity generator of the present invention.

1 and 2, the lower shield removing device of the large-capacity generator of the present invention, each one end is inserted into the space between the bearing journal 10 and the lower shield 20 of the generator rotor is fixed The bearing journal in a state where the first and second fixed support parts 30 and 40 and the first and second fixed support parts 30 and 40 are inserted and fixed between the bearing journal 10 and the lower shield 20. It is coupled in a form surrounding the upper side of the (10) is fastened to a portion of the upper portion of the first and second fixed support (30, 40) when the lower shield 20, the first and second fixed support (30) 40 is configured to include an upper cover portion 50 to prevent the departure.

The first fixed support part 30 has an insertion part 31 having a curved shape in a quarter circle so that one end thereof can be inserted into a half of a semicircular space formed by the bearing journal 10 and the lower shield 20. The support shaft portion 32 extending from the insertion portion 31 and in contact with the upper surface side of the lower shield 20, and the protrusion support portion 33 protruding downward from the end of the insertion portion 31 to firmly support the insertion state. It is configured to include).

The second fixed support portion 40 may include an insertion portion 41 having a 1/4 circular shape so that one end may be inserted into a half of a semicircular space formed by the bearing journal 10 and the lower shield 20. A support shaft portion 42 extending from the insertion portion 41 and in contact with an upper surface side of the lower shield 20, and a protrusion support portion 43 protruding downward from an end of the insertion portion 41 to firmly support the insertion state; ), Including

The bearing journal 10 and the lower shield 20 are inserted in opposite directions to each other on the side surface of the space part.

The support shafts 32 and 42 may be provided with fastening holes to allow bolts to be fastened to the upper cover part 50.

Hereinafter, the configuration and operation of the lower shield take-out device of the large capacity generator of the present invention configured as described above will be described in more detail.

3 to 5 are schematic diagrams for explaining a process of removing the fastening process and the lower shield 20 of the present invention configured as described above, respectively.

First, as shown in FIG. 3, insertion portions 31 and 41 of the first fixed support part 30 and the second fixed support part 40 are respectively formed in a space formed by the lower shield 20 and the bearing journal 10. Insert it.

At this time, the cross section of the space formed by the lower shield 20 and the bearing journal 10 is semi-circular, so that the support shafts 32 and 42 are inserted into the inserts 31 and 41 to insert the inserts 31 and 41. ) And end portions of the insertion portions 31 and 41 in the inclined state so as to be lower, respectively at both sides of the side surfaces of the space formed by the lower shield 20 and the bearing journal 10, and then the supporting shaft portion 32 , 42 is rotated to a position in contact with the upper surface of the lower shield 20 in a horizontal state.

By such fastening, the end portions of the insertion portion 31 of the first fixed support portion 30 and the insertion portion 41 of the second fixed support portion 40 are formed at the center of the bearing journal 10 and the lower shield 20. In contact with each other at the central portion of the projection support portion 33, 43 is inserted into the inner diameter side insertion groove 21 of the lower shield 20 is fixed.

Next, as shown in FIG. 4, the first fixed support part 30 and the second fixed support are supported by the upper cover part 50 in a state where the first fixed support part 30 and the second fixed support part 40 are fastened. Combine the part 40.

At this time, the upper cover portion 50 has a semicircular inlet portion in which the upper portion of the bearing journal 10 can be retracted in the center side, and the upper cover portion 50 with the bearing journal 10 retracted. Both sides of the bottom surface of the) are in contact with the upper end of the first fixed support portion 30 and the second fixed support portion 40, respectively.

In this state, the upper cover portion 50 is fixed to the support shaft portions 32 and 42 of the first fixed support portion 30 and the second fixed support portion 40 with bolts.

In the state in which the upper cover portion 50 is fastened, the lower shield 20 is in a state capable of rotating with the bearing journal 10 as an axis.

Then, when the crane 60 is connected to the lower side of the lower shield 20 and lifted by the crane 60, the lower shield 20 rotates the bearing journal 10 axially, although not shown in the drawings. Paired with the lower shield 20 to rotate to the position of the upper shield shielding one end of the generator.

Next, as shown in FIG. 5, when the lower shield 20 is rotated 180 degrees so that the bearing journal 10 is positioned at the lower center of the lower shield 20, the crane 60 is lowered to the lower shield 20. It is prepared to lift by connecting to the center of gravity of the shield 20, and separates the upper cover portion 50 from the first fixed support portion 30 and the second fixed support portion 40 for lifting.

When the upper cover portion 50 is removed in this way, the lower half of the bearing journal 10 is exposed, so that the lower shield 20 can be taken out upward by the crane 60.

One side of the generator stator 70 is completely opened by the withdrawal of the lower shield 20, so that the end of the coil of the generator stator 70 can be checked without removing the rotor.

As described in detail above, the present invention can be easily removed by rotating the lower shield 20 to the position of the upper shield of the pair of shields shielding one side of the generator without removing the rotor of the generator, Not only can the air for checking the coils of the generator stator be significantly shortened, but also the safety and ease of operation is possible by eliminating the risk of safety accidents when heavy objects leave the rotor.

Figure 1 is a perspective view of the separated state of the lower shield take-out device of the high-capacity generator of the present invention.

Figure 2 is a perspective view of the coupled state of the lower shield take-out device of the high-capacity generator of the present invention.

3 to 5 are schematic views showing a process of removing the lower shield with the lower shield removing device of the large-capacity generator of the present invention, respectively.

* Description of the symbols for the main parts of the drawings *

10: bearing journal 20: lower shield

30: first fixed support 40: second fixed support

31, 41: insert 32, 42: support shaft

33, 43: protrusion support 50: upper cover

Claims (4)

First and second fixed support portions 30 and 40, one end of each of which is inserted into and fixed to a space between the bearing journal 10 and the lower shield 20 of the generator rotor, The first and second fixed support portions 30 and 40 are coupled to form a shape surrounding the upper side of the bearing journal 10 in a fixed state inserted between the bearing journal 10 and the lower shield 20. An upper cover part which is fastened to a part of the upper part of the first and second fixed support parts 30 and 40 to prevent the first and second fixed support parts 30 and 40 from being separated when the lower shield 20 is rotated. Lower shield extraction device of a large-capacity generator comprising 50). The method of claim 1, The first fixed support portion 30 has an insertion portion 31 bent in a quarter-circle so that one end can be inserted into a half of the semicircular space formed by the bearing journal 10 and the lower shield 20; A support shaft portion 32 extending from the insertion portion 31 and in contact with an upper surface side of the lower shield 20; And The lower shield take-out apparatus of the large-capacity generator comprising a protrusion support portion 33 protruding downward from the end of the insertion portion 31 to firmly support the insertion state. The method of claim 1, The second fixed support portion 40 may include an insertion portion 41 having a 1/4 circular shape so that one end thereof can be inserted into a half of a semicircular space formed by the bearing journal 10 and the lower shield 20; A support shaft portion 42 extending from the insertion portion 41 and in contact with the upper surface side of the lower shield 20; And The lower shield take-out apparatus of the large-capacity generator comprising a protrusion support (43) protruding downward from the end of the insertion portion (41) to firmly support the insertion state. The method according to any one of claims 1 to 3, The upper cover portion 50, An inlet groove in which the bearing journal 10 is inserted is provided at a central portion thereof, and both ends thereof contact a portion of the upper surface of the first fixing support portion 40 and the second fixing support portion 50, respectively. ) And the lower shield take-out device of the large-capacity generator, characterized in that is fastened to the second fixed support (50).

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