KR100337125B1 - Bearing block for checking bend of shaft - Google Patents

Abstract

An object of the present invention is to provide a bearing block for shaft bending inspection that is easy to rotate the shaft in the block in which the shaft is seated to measure the bending of the shaft and can accommodate shafts of various diameters.

According to the present invention, in the block for supporting the shaft (1) for measuring the bending of the shaft (1), the block 11 is formed with an open groove in the upper direction, and the inner part is inserted into the groove of the block 11 Is fixed, the outer portion protrudes to the upper portion of the block 11, the first bearing (18R) is installed to be rotatable, and inserted into the groove of the block 11 is movable along the groove of the block 11, the outer portion Is a second bearing 18L protruding to an upper portion of the block 11 and installed in a direction in contact with the circumferential surface of the first bearing 18R, and an outer portion of the second bearing is rotatably accommodated. There is provided a bearing block for a shaft bending test including a bearing holder 23 inserted into a groove of the block 11 and moving along the groove of the block 11.

Description

Bearing block for checking bend of shaft

The present invention relates to a block on which a shaft is seated to measure a shaft bending, and more particularly, to a bearing block for inspecting a shaft bending that can smoothly rotate a shaft and accommodate various types of shafts.

A shaft is a round rod that rotates around its centerline. When bending occurs in such a shaft, the shaft rotates in a circle while the centerline of the shaft rotates.

Therefore, various devices such as gears installed on the shaft vibrate and are less accurate. On the other hand, in order to measure the bending of the shaft while measuring the bending degree of the shaft with a dial gauge while rotating the shaft while keeping the shaft horizontal.

1 is a perspective view showing a V block for checking the shaft bending according to the prior art.

As shown in Figure 1, the upper surface of the V blocks (3R, 3L) is formed with a V-shaped groove, the lower portion of the V blocks (3R, 3L), the transfer screw 5 is installed to the V block (3R, Move 3L) up and down. On the other hand, the shaft 1 is seated on top of the left and right V blocks 3R and 3L to measure the bending. Then, the dial gauge is installed while the shaft 1 is rotated, and the bending degree of the shaft is measured while the dial gauge is moved along the longitudinal direction of the shaft 1.

However, the shaft 1 seated and rotated on the upper surfaces of the V blocks 3R and 3L supporting the shaft 1 may cause scratches on the shaft 1 by friction with the V blocks. In addition, the rotation of the shaft 1 is not made smoothly because of the friction force.

And if the diameter of the shaft 1 which measures bending is large, the V blocks 3R and 3L which can accommodate such a shaft 1 fully are needed. Therefore, there is a disadvantage in that the V blocks 3R and 3L need to be replaced according to the diameter size of the shaft 1.

The present invention is provided to solve the problems of the prior art as described above, the object of the present invention is to provide a bearing block for shaft bending inspection that can reduce the friction with the shaft and accommodate a variety of shaft diameter.

1 is a perspective view showing a V block for checking the shaft bending according to the prior art,

Figure 2 is a plan view showing a state in which the bearing block for the shaft bending test bearing according to an embodiment of the present invention,

3 is a perspective view showing a bearing block and a bearing holder for the shaft bending test shown in FIG.

4 is a plan view of the bearing block for the shaft bending inspection shown in FIG.

♠ Explanation of symbols on the main parts of the drawing ♠

1: Shaft 3L, 3R: V Block

10L, 10R: Bearing Block 11: Slide Block

13: screw hole 15: bolt

16: groove 18R: first bearing

18L: second bearing 23: bearing holder

According to the present invention for achieving the object as described above, in the block for supporting the shaft to measure the bending of the shaft, the block is formed with a groove that is open in the upper direction, and the inner portion is fixed by being inserted into the groove of the block A first bearing protruding to the top of the block to be rotatable, and an outer part of the first bearing inserted into the groove of the block to move along the groove of the block, and an outer part of the first bearing to protrude above the block and For a shaft bending test including a second bearing installed in a direction in contact with a circumferential surface, and a bearing holder accommodated to be rotatable and inserted into a groove of the block and moving along the groove of the block. Bearing blocks are provided.

In addition, according to the present invention, a bolt fastened through the slide block is in contact with the bearing holder.

In the following, with reference to the accompanying drawings, preferred embodiments of the bearing block for the shaft bending test according to the present invention will be described in detail.

2 is a plan view showing a state in which the bearing block for the shaft bending test according to an embodiment of the present invention supports the shaft, Figure 3 is a bearing block and bearing holder for the shaft bending test shown in FIG. Figure 4 is a perspective view, Figure 4 is a plan view of the bearing block for shaft bending inspection shown in FIG.

As shown in Figures 2 to 4, the two shaft bending test bearing blocks (10L, 10R) are located on the lower left and right sides of the shaft (1) to measure the bending. Each shaft bending test bearing block (10L, 10R) includes two bearings (18L, 18R), the shaft (1) is in contact with the two bearings (18L, 18R) located on the lower left and right of the shaft (1) To rotate. Therefore, the outside of the two bearings 18L and 18R in contact with the shaft 1 is rotated by the rotation of the shaft 1.

On the other hand, the slide block 11 is a block that is open in the upper direction, the length is relatively longer than the width of the slide block 11, the groove of a predetermined depth in the middle portion of the longitudinal direction of the slide block (11). ) Is formed. Two bearings 18L and 18R are located inside the opening of the slide block 11. In addition, a threaded screw hole 13 is formed in the width surface of the slide block 11. Bolts 15 are fastened through these threaded holes 13.

Among these two bearings 18L and 18R, the first bearing 18R is located inside the slide block 11, the inside of the first bearing 18R is fixed to the slide block 11, and the first bearing 18R The outer side is installed to be smoothly rotatable. In addition, the second bearing 18L is inserted into the opening of the slide block 11 so that a plane moving along the longitudinal direction of the slide block 11 is accommodated in the bearing holder 23 having a "c" shape. An inner side of the second bearing 18L is fixed to the bearing holder 23, and an outer side of the second bearing 18L is installed to rotate. Therefore, this second bearing 18L is located in the opening of the slide block 11 and rotates while moving along the longitudinal direction.

Meanwhile, the first bearing 18R is installed on the opposite side of the screw hole 13 formed in the slide block 11, and the second bearing 18L accommodated in the bearing holder 23 faces the first bearing 18R. Located. Accordingly, the end of the bolt 15 fastened to the screw hole 13 is in contact with the outer surface of the closure of the bearing holder 23 and the second bearing 18L is rotated by the rotation of the bolt 15. It moves in the longitudinal direction.

In that case, the space | interval between 1st, 2nd bearing 18L, 18R will become narrow.

On the other hand, when the space | interval of 1st, 2nd bearing 18L, 18R becomes moderate, the shaft 1 will be seated on 1st, 2nd bearing 18L, 18R, and will rotate.

It will be described in detail the operation relationship of the bearing block for the shaft bending test configured as described above.

Two slide blocks 11 are seated on the top of the horizontal. Then, the diameter of the shaft 1 is measured, and the bolt 15 is rotated to adjust the position of the bearing holder 23 accommodated in the slide block 11 and moving in the longitudinal direction.

Thereafter, the shaft 1 is seated on top of the two slide blocks 11. Then, the shaft 1 is supported by the first and second bearings 18L and 18R and installs a dial gauge on the shaft 1 to measure the bending of the shaft 1. When the shaft 1 is rotated, the first and second bearings 18L and 18R in contact with the shaft 1 also rotate while the shaft 1 rotates.

Therefore, the friction which generate | occur | produces in the place where the outer side of the shaft 1 and the 1st, 2nd bearing 18L, 18R abuts is reduced.

The bolt 15 is rotated according to the size of the diameter of the shaft 1 to adjust the gap between the outside of the first bearing 18R and the outside of the second bearing 18L to smoothly support the shaft 1. To help.

As described in detail above, the bearing block for the shaft bending inspection of the present invention, since the bearing rotates with the rotation of the shaft in contact with the shaft, it is possible to reduce the frictional force with the shaft. Therefore, there is an advantage that can reduce the scratch of the shaft that can be caused by friction.

In addition, since the gap between the two bearings can be increased or decreased according to the diameter of the shaft, there is an advantage that the gap between the two bearings can be freely adjusted according to the size of the shaft.

The technical idea of the bearing block for the shaft bending inspection of the present invention has been described above with reference to the accompanying drawings, but this is only illustrative of the preferred embodiment of the present invention and not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (2)

A block for supporting a shaft to measure the bending of the shaft, A block having a groove open in an upward direction, A first bearing inserted into a groove of the block to fix an inner portion thereof and an outer portion protruding to an upper portion of the block to be rotatable; A second bearing inserted into the groove of the block and movable along the groove of the block, the outer part protruding to an upper portion of the block and installed in a direction contacting the circumferential surface of the first bearing; The bearing block for the shaft bending test, characterized in that it comprises a bearing holder which is rotatably received on the outer side of the second bearing, is inserted into the groove of the block and moves along the groove of the block. The method of claim 1, The bearing block for the shaft bending test, characterized in that the bolt fastened through the slide block is in contact with the bearing holder.