KR101108082B1 - Tool chuck of a vertical lathe to manufacture retainer ring - Google Patents

Abstract

PURPOSE: A machining tool chuck for a retainer ring of a vertical lathe is provided to improve processing efficiency of a retainer ring by rotating an insertion block and property replacing cutting blades according to processing of a retainer ring. CONSTITUTION: A machining tool chuck for a retainer ring of a vertical lathe comprises a gripping member(10), an insertion block(30), and a cutting edge fixing bolt(40). The gripping member has first and second walls(13,19) and a stop ball(15). The insertion block is installed in a space between the first and second wall parts of the gripping member to rotate. The insertion block has a guide groove, a plurality of seating grooves, a cutting edge mounting groove(35), and a rotation preventing groove(37). The guide groove is formed on one surface facing the inside of the first wall portion. The seating grooves are formed in the guide groove in a regular interval. The stop ball is inserted into the seating groove. The cutting edge mounting groove is formed along the center of the rim face. A plurality of cutting edges is inserted into the cutting edge mounting groove. The cutting edge fixing bolt is inserted into the insertion block. The cutting edge fixing bolt fixes the cutting edge, inserted in the cutting edge mounting groove, on the insertion block.

Description

Tool chuck of a vertical lathe to manufacture retainer ring}

The present invention relates to a tool chuck for machining a high precision retainer ring vertical lathe for a generator. It's about Chuck.

A retainer is a part in which ball or roll is inserted so as to keep the same distance at all times in a ball bearing or roller bearing. This retainer ring is used as a key component of large generators in nuclear power, thermal power and combined cycle power. The retainer ring, which is used as a core part of the large-scale generator, is a large forging with a diameter of 3 to 6m and a weight of 2 to 4 tons, and is manufactured through turning of inner and outer diameters. Turning a retainer ring requires a large vertical lathe capable of high precision machining. Moreover, in order to process the shape of each site | part in one installation | equation (process) as a component which requires high precision, several types (shape) of cutting edges are needed.

In the conventional case, the retainer ring was machined using a vertical lathe, and the retainer ring was machined using a plurality of cutting edges while replacing the cutting edges according to the degree of processing. For example, in order to process the inner diameter of the retainer ring, the cutting edge for inner diameter machining is mounted on the tool chuck of the vertical lathe. The retainer ring was processed.

If the content of the retainer ring changes, the cutting edge must be replaced. In the conventional case, the cutting edge was changed by replacing the tool chuck after stopping the vertical lathe. In this case, there was a problem that the machining precision is lowered due to the change of the reference origin, and that the error of the operator is more likely to occur. In addition, it takes a long time to change the tool chuck, there was a problem that the work is cumbersome.

The present invention is intended to solve the above problems. The present invention provides a tool chuck of a vertical lathe for retainer ring machining that can be operated with one tool chuck by mounting a plurality of cutting edges on one tool chuck without changing the tool chuck even when the cutting edge needs to be replaced. It aims to do it.

The tool chuck of the vertical lathe for retainer ring processing includes a gripping means, an insertion block, a cutting blade fixing bolt, and a block fixing means. The gripping means includes a base portion, a first wall portion, a stop ball, a spring, and a second wall portion. The base portion may be detachably mounted to a vertical shelf for retainer ring processing. The first wall portion is formed by extending one end of the base portion and a stop ball groove is formed on the inner surface. The stop ball is inserted into the stop ball groove. The spring is inserted into the stop ball groove so that the stop ball protrudes to support the stop ball. The second wall part is detachably mounted to the other end of the base part to be spaced apart from the first wall part by a predetermined distance and face the inner side of the first wall part in parallel with the first wall part. The insertion block is rotatably mounted in the spaced space between the first wall portion and the second wall portion. And the insertion block is formed with a guide groove in the path formed by the stop ball in contact with the rotation on one side of the first wall portion facing the inner surface. In addition, the insertion block is formed with a plurality of seating grooves into which the stop ball can be inserted into the guide groove at regular intervals, and a plurality of cutting edges can be inserted along the center of the rim between one side and the other side. Cutting edge mounting groove is formed. The cutting blade fixing bolt is inserted into the insertion block so as to press and fix the cutting blade inserted into the cutting blade mounting groove. The block fixing means includes a block fixing bar and a nut. The block fixing bar is inserted from an outer surface of the first wall portion to protrude a threaded end through the insertion block and the second wall portion. The nut is fastened to an end of the block fixing bar. And the block fixing means when the block fixing bar and the nut is fastened the insertion block is pressed to the second wall portion is constrained rotation and loosening the block fixing bar and the nut to rotate the insertion block about the block fixing bar. Can be.

In addition, in the tool chuck of the retainer ring processing vertical lathe, the insertion block is preferably formed on the one side of the insertion block of the same number of anti-rotation grooves at the same interval along the circumferential direction of the chuck groove is further formed. . In this case, the tool chuck of the retainer ring processing vertical shelf further includes a rotation stopper fastened through the first wall portion so that the end portion is inserted into the rotation preventing groove to prevent the insertion block from rotating.

According to the present invention, by providing a tool chuck that can rotate the insertion block for mounting a plurality of cutting edges, it is possible to replace the cutting edge suitable for the processing contents by rotating the insertion block when the processing contents of the retainer ring is changed. . The cutting edge can therefore be replaced without having to change the tool chuck with a single chuck. This not only increases the precision and speed of the work, but also increases the efficiency of the retainer ring.

1 is a front view of an embodiment of a tool chuck of a vertical lathe for retainer ring processing according to the present invention;
2 is a side view of the embodiment shown in FIG. 1;
3 is a partial view of the base portion and the first wall portion of the embodiment shown in FIG.
4 is a partial view of an insertion block of the embodiment shown in FIG.

An embodiment of a tool chuck of a vertical lathe for retainer ring processing according to the present invention will be described with reference to FIGS. 1 to 4.

The tool chuck of the vertical lathe for retainer ring processing according to the present invention includes a gripping means 10, an insertion block 30, a cutting blade fixing bolt 40, a block fixing means 45, and a rotation stopper 50. Include.

The gripping means 10 is mounted on the vertical shelf and serves to hold the insertion block 30. To this end, the gripping means 10 includes a base portion 11, a first wall portion 13, a second wall portion 19, a stop ball 15, and a spring 17.

The base portion 11 may be detachably mounted to the vertical shelf for retainer ring processing. In this embodiment, the bolt 12 is used to mount the vertical ship.

The first wall portion 13 is formed by extending one end of the base portion 11, the stop ball groove 14 is formed on the inner side, the through hole (13a) is formed in the center. The second wall portion 19 has a through hole 19a formed in the center thereof, spaced apart from the first wall portion 13 at a predetermined interval, and parallel to the inner side surface of the first wall portion 13 in parallel with the first wall portion 13. It is detachably mounted to the other end of the base part 11. At this time, the through hole 13a of the first wall portion 13 and the through hole 19a of the second wall portion 19 are formed so that their centers coincide with each other.

The stop ball 15 is inserted into the stop ball groove (14). The spring 17 is inserted into the stop ball groove 14 so that the stop ball 15 protrudes from the first wall portion 13 to support the stop ball 15. The stop ball 15 and the spring 17 serve to guide the insertion block 30 to rotate at a predetermined angle.

The insertion block 30 is rotatably gripped by the holding means 10 so as to mount the plurality of cutting edges 1 and replace the cutting edges 1. To this end, the insertion block 30 is formed in the shape of a six-sided rectangular block, and the first wall portion 13 and one surface thereof face the inner surface of the first wall portion 13 and the other surface thereof faces the second wall portion 19. It is mounted in the spaced space between the second wall 19. At this time, the insertion block 30 is formed with a through hole 30a penetrating from one surface to the other surface, and cutting edge mounting to which a plurality of cutting edges 1 can be inserted along the center portion of the edge surface between the one surface and the other surface. Grooves 35 are formed. The cutting edge 1 is mounted to the cutting edge mounting groove 35 so as to protrude from each corner of the rim surface. Thus, this embodiment is equipped with four cutting edges 1 as shown in FIG.

And the guide groove 31 is formed on one surface of the insertion block (30). Since the stop ball 15 is supported by the spring 17, the stop ball 15 protrudes and contacts one surface of the insertion block 30. In addition, the insertion block 30 is rotated around the centerline of the through hole 30a to replace the cutting edge 1 to be cut when the insertion block 30 is mounted on the holding means 10. Then, one path of the insertion block 30 is formed in a circular path that the stop ball 15 is in contact. The guide groove 31 is formed in a path where the stop ball 15 contacts one surface of the insertion block 30. Thus, the guide groove 31 serves to guide the rotation along the guide groove 31 when the insertion block 30 rotates.

In addition, a mounting groove 33 is formed on one surface of the insertion block 30. The seating groove 33 is formed at regular intervals in the guide groove 31 so that the body dancing ball 15 inserted into the guide groove 31 can be further inserted. Cutting edge 1 is mounted to the insertion block 30 at intervals of 90, as shown in FIG. Therefore, the user has to rotate the insertion block 30 by 90 in order to replace the cutting edge (1). At this time, it is difficult for the user to accurately adjust the angle of 90 degrees. The seating groove 33 serves to inform the user whether the cutting block 30 has been rotated by 90 degrees. To this end, the seating grooves 33 are formed in the guide grooves 31 at intervals of 90 degrees, and when the stop ball 15 is inserted into the seating grooves 33, the cutting edge 1 is seated so as to reach the cutting position. The groove 33 is formed in the guide groove 31.

In addition, the rotation preventing groove 37 is formed on one surface of the insertion block 30. The anti-rotation groove 37 serves to prevent the insertion block 30 from rotating. To this end, the rotation preventing groove 37 is formed in the same number as the seating groove 33 at regular intervals along the circumferential direction on one surface of the insertion block 30. The rotation preventing groove 37 prevents the insertion block 30 from rotating by inserting the rotary stopper 50 described below through the first wall portion 13. Since the insertion block 30 rotates at intervals of 90 degrees, the rotation preventing groove 37 should also be formed at intervals of 90 degrees.

The cutting blade fixing bolt 40 is inserted into the insertion block 30 so as to press and fix the cutting blade 1 inserted into the cutting blade mounting groove 35. That is, when the cutting blade fixing bolt 40 is inserted into the insertion block 30 and fastened, the end of the cutting blade fixing bolt 40 protrudes from the cutting blade mounting groove 35 to press and fix the cutting blade 1.

The block fixing means 45 serves to fix the rotation of the insertion block 45. Block fixing means 45 is provided with a block fixing bar 46 and a nut 48 for the above. The block fixing bar 46 penetrates the through hole 13a of the first wall portion 13 and the through hole 30a of the insertion block 30 and the second block 19 on the outer side of the first wall portion 13. It is inserted so that the end 47 is exposed through the ball 19a. The nut 48 is engaged with the end 47 of the block fixing bar 46. Thus, the end portion 47 of the block fixing means 45 is formed with a thread that can be engaged with the nut 48. At this time, when the nut 48 and the block fixing bar 46 are combined to the maximum, the block fixing bar 46 presses the insertion block 30 so that the insertion block 30 is the second wall 19 and the block fixing bar 46. Constrained by) to limit rotation. To this end, a fixing jaw 46a is formed in the block fixing bar 46, and a mold fitting jaw 30b that is engaged with the fixing jaw 46a is formed in the through hole 30a of the insertion block 30. That is, when the nut 48 is fastened to the end portion 47 of the block fixing bar 46, the fixing jaw 46a presses the mold fitting jaw 30b to bring the insertion block 30 into close contact with the second wall portion 19. In the present embodiment, although the insertion block 30 is constrained by the fixing jaw 46a and the mating jaw 30b, the through hole 30a and the block fixing bar 46 of the insertion block 30 may be taped to restrain the insertion block 30. . When the nut 48 and the end portion 47 of the block fixing bar 46 are released, the pressure applied to the insertion block 30 disappears, so that the insertion block 30 is rotated about the block fixing bar 46. Can be.

The rotary stopper 50 is inserted and fastened to penetrate the first wall portion 13, and an end thereof is inserted into the rotation preventing groove 37 of the insertion block 30. The insertion block 30 may be rotatable and constrained by the block fixing means 45. The rotation stopper 50 is to restrain the rotation of the insertion block 30 secondary. Since the retainer ring is processed using the cutting edge 1, the cutting edge 1 may be a safety problem when the retainer ring is processed. The insert block 30 rotates when the nut 48 is not completely fastened or the nut 48 is released from the block fixing bar 46 during the operation of the vertical shelf. The rotary stopper 50 is a device for securing safety by preventing this in duplicate.

When the tool chuck shown in FIG. 1 is mounted on a vertical lathe, the retainer ring can be machined using the cutting edge 1. At this time, the four cutting edges (1a ~ 1d) are mounted on the insertion block (30). Therefore, the inner surface of the retainer ring can be processed with the first cutting edge 1a, and the outer surface of the retainer ring can be processed with the second cutting blade 1b. In other words, the inner and outer surfaces of the retainer ring can be machined without changing the cutting edge. And if it is necessary to replace the cutting edge according to the machining process, loosen the coupling of the nut 48 and the block fixing bar 46. Then, the pressure applied to the insertion block 30 is removed. Meanwhile, the rotation stopper 50 is rotated to remove the rotation stopper 50 from the rotation prevention groove 37. Then, the insertion block 30 may freely rotate about the block fixing bar 46. At this time, the user rotates the insertion block 30. A guide groove 31 is formed on one surface of the insertion block 30, and the stop ball 15 is protruded in the first wall portion 13 to be inserted into the guide groove 31, so that the insertion block 30 is a guide groove ( It can rotate along the path of 31). When the insertion block 30 rotates 90 degrees, the detent 15 is inserted into the seating groove 33. When the insertion block 30 is rotated 90 degrees and the stop ball 15 is inserted into the seating groove 33, the user detects this and the fourth cutting blade 1d is positioned at the position of the first cutting blade 1a before the rotation. It is seated correctly. Then, the nut 48 and the block fixing bar 46 are fastened, and the rotation stopper 50 is rotated and inserted into the rotation preventing groove 37. Insertion block 30 is fixed can be cut.

In the conventional case, tool chucks of large vertical lathes generally exchanged cutting edges individually as needed during the work process. In this case, the machining precision was lowered due to the change of the reference origin, and there was a high possibility that an error of the operator would occur. However, in the present embodiment, the cutting edges required for the initial machining process design may be mounted on four surfaces, respectively, to set a reference point, and may be rotated as necessary for each shape. Therefore, it is possible not only to increase the machining precision but also to prevent the error of the operator.

10: holding means 12: bolt
13: 1st wall part 13a: through-hole
14: stop ball groove 15: stop ball
17: spring 19: second wall portion
19a: through hole 30: insertion block
30a: through hole 30b: mold chin
31: guide groove 33: seating groove
35: cutting edge mounting groove 37: rotation preventing groove
40: cutting edge fixing bolt 45: block fixing means
46: block fixing bar 46a: fixed jaw
47: end 48: nut
50: rotating stopper

Claims (2)

A base portion that can be detachably mounted on a retainer ring vertical shelf, a first wall portion having one end of the base portion extended and a stop ball groove formed on an inner side thereof, a stop ball inserted into the stop ball groove, and the stop A spring which is inserted into the stop ball groove to protrude a ball, and supports the stop ball, and is spaced apart from the first wall by a predetermined distance and parallel to the first wall to face the inner surface of the first wall to face the other end of the base. Holding means having a second wall portion detachably mounted thereon;
The guide groove is rotatably mounted in the spaced space between the first wall portion and the second wall portion, and a guide groove is formed in contact with the stop ball by the rotation on one side surface facing the inner surface of the first wall portion. It is formed, a plurality of seating grooves are formed that can be inserted into the guide groove at a predetermined interval in the guide groove, cutting edges can be inserted into a plurality of cutting edges along the central portion of the rim surface between one side and the other side A mounting groove is formed, and an insertion block having the same number of rotation preventing grooves as the seating groove at a predetermined interval along the circumferential direction on one side thereof;
A cutting blade fixing bolt inserted and fastened to the insertion block so as to press and fix the cutting blade inserted into the cutting blade mounting groove;
A block fixing bar having a fixing jaw for pressing the inserting block and inserted from an outer surface of the first wall to protrude an end portion formed with a thread through the inserting block and the second wall, and an end of the block fixing bar; And a nut engaged with the block fixing bar and the nut, the block fixing bar presses the insert block so that the insertion block is pressed against the second wall, and the rotation is constrained, and the block fixing bar and the nut are loosened. Block fixing means for rotating the insertion block about the block fixing bar;
And a rotary stopper fastened through the first wall portion so that the insertion block is inserted into the anti-rotation groove to prevent the insertion block from rotating. delete

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