KR20220001473U - Movable apparatus for measuring a shaft runout - Google Patents

Abstract

A movable shaft runout measuring device is disclosed. A movable shaft runout measuring device according to an embodiment of the present invention includes: a base module formed in a hexahedral shape and having a guide rail having a slidable groove dug on its upper surface; Two bed modules capable of sliding along the guide rail, but having a V block inserted in the center, and spaced apart on the base module according to the length of the shaft to be measured; It is coupled to the bed module disposed on one side of the base module and includes a seating module for closely contacting the shaft to be measured.

Description

MOVABLE APPARATUS FOR MEASURING A SHAFT RUNOUT

The present invention relates to a movable shaft runout measuring device, and more particularly, to a device for measuring the bending of the shaft of a small device regardless of the working environment that was greatly affected by the ground condition.

In general, a shaft (axis) refers to a rod-shaped mechanical part that transmits power, and is a rod-shaped mechanical part that transmits power to a distant place by rotational or linear reciprocating motion. Usually, a hollow ring shaft (中實丸軸) is used, and when the diameter is large or should be light, a hollow ring shaft (中空丸軸) is used.

Runout is a term that refers to vibration or vibration in automobile structural engineering, and is a quantity that usually indicates the defective state of roundness and verticality existing on the shaft of a rotating machine, and is one of the things to check before aligning the shaft.

The shafts, coupling hubs, impellers, or other parts that are rigidly attached to the shaft of any rotating machine also have some degree of runout.

Usually, V-block refers to a die made of cast iron or steel with a V-shaped groove, and is used for engraving or centering round bars. Positioning The V block is used to determine the position of the cylindrical workpiece.

In the past, many V-block jigs have been used to measure the shaft bending of industrial equipment, but if the floor condition of the work site is uneven or uneven, it is greatly affected by measurement errors, so it is difficult to accurately measure the shaft bending of small equipment.

Republic of Korea Public Utility Model No. 1998-013465 (published on May 5, 1998)

Therefore, the technical problem to be solved by the present invention is that the floor condition of the work site is not uneven or uneven, and it is composed of a movable prefabricated type so that it is convenient and accurate to measure the bending of the shaft for a small device installed on the site. It is to provide a shaft runout measuring device.

According to one aspect of the present invention, the base module is formed in a hexahedral shape and is provided with a guide rail having a slidable groove in the upper surface thereof; two bed modules capable of sliding along the guide rail, but having a V block inserted in the center, and spaced apart from the base module according to the length of the shaft to be measured; and a seating module coupled to the bed module disposed on one side of the base module to closely contact the shaft to be measured may be provided.

The bed module may include: a bed unit capable of sliding along a guide rail of the base module; It may include a block unit disposed vertically spaced apart from the bed unit and having a V block inserted therein: and a reinforcing unit installed to overlap the spaced apart bed unit and the V block and fixed without shaking.

The seating module includes: a hand unit in which two are arranged side by side in the shape of a handle; and a push unit disposed between the hand units that are arranged side by side, the push unit is fixed with a screw in the shape of a rod having an empty hollow hole inside, and is in close contact with the shaft through vertical position adjustment, wherein one side of the hand unit is the One end of the bed module is hinged, and the other end of the hand unit may be fixed to the other end of the bed module with a screw.

Embodiments of the present invention, the floor condition of the work site is not uneven or uneven, and is composed of a movable prefab, so that the bending of the shaft for a small device installed in the field can be measured conveniently and accurately.

1 is an overall photograph of a movable shaft runout measuring device according to an embodiment of the present invention.
2 is an enlarged view of a part of a movable shaft runout measuring device according to an embodiment of the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the object achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

1 is an overall picture of a movable shaft run-out measuring device according to an embodiment of the present invention, and FIG. 2 is an enlarged picture of a part of a movable shaft run-out measuring device according to an embodiment of the present invention.

First, the movable shaft runout measuring device 10 includes a base module 100 , a bed module 300 , and a seating module 500 .

The base module 100 is formed in a hexahedral shape, and a guide rail 110 having a slidable groove is formed on its upper surface.

The base module 100 serves to support the movable shaft runout measuring device 10 as a whole, and the bed module 300 to be described later slides over the guide rail 110 .

The base module 100 has a magnetic iron plate 111 located on the outer side of the upper surface, and a handle 113 parallel to the guide rail 110 of the base module 100 so that the movable shaft runout measuring device 10 can be easily moved. ) can be installed in front and back.

Next, the bed module 300 is movable by sliding along the guide rail 110 , but the V block 331 is inserted in the inner center.

As described above, in general, the V block 331 refers to a die made of cast iron or steel having a V-shaped groove, and is used for engraving or centering round bars.

And in the case of the positioning V block 331, it is used to determine the position of the cylindrical workpiece, and in the case of measuring the bending of the shaft, the shaft is placed on the V block 331, and the measurement is performed by lightly touching the measuring ruler of the dial gauge spindle at a right angle. Then, by rotating the shaft, it is measured while reading the amount of movement of the dial gauge needle in clockwise and counterclockwise directions.

In addition, the bed module 300 is spaced apart on the base module 100 according to the length of the shaft to be measured and installed in two.

In detail, the bed module 300 includes a bed unit 310 , a block unit 330 , and a reinforcement unit 350 .

The bed unit 310 is disposed under the bed module 300 to slide along the guide rail 110 of the base module 100 to be movable.

The bed unit 310 is equipped with an adjustment bolt capable of adjusting the height, so that when there is a difference in diameter of the reference plane of the shaft, the bed unit 310 adjusts the height to adjust the height.

And the fixing bolts installed through the bed unit 310 and the block unit 330 are installed, and loosen or tighten the fixing bolts to match the reference plane in contact with the V block of the shaft to be measured to widen the gap between the bed modules 300. or narrow it down

And the block unit 330 is vertically spaced apart from the bed unit 310, and the V block 331 is inserted therein, and a fixing bolt is installed to adjust the height due to the difference in shaft diameter.

The reinforcing unit 350 is installed to overlap the spaced apart bed unit 310 and the V block 331 and serves to fix it without shaking.

The reinforcing unit 350 is installed with a fixing bolt so that when the setting of the shaft device is finished, the reinforcing unit 350 is finally fixed with the bolt so that the upper and lower portions of the bed module 300 are not twisted.

On the other hand, the seating module 500 is coupled to the bed module 300 disposed on one side of the base module 100 serves to closely contact the shaft to be measured.

That is, the seating module 500 serves to adhere to the V block by pressing when one side of the shaft is lifted and skewed because the center of gravity of the shaft to be measured does not match.

In detail, the seating module 500 includes a hand unit 510 and a push unit 530 .

Two hand units 510 are arranged side by side in the shape of a handle, and the push unit 530 is disposed between the hand units 510 arranged side by side and is fixed with screws in a bar shape with an empty hollow hole inside. Tighten the shaft through vertical positioning.

Since there is a screw passing through the hollow hole of the push unit, the amount of movement of the lowering position can be adjusted by tightening or loosening the screw.

And one side of the hand unit 510 is hinged with one end of the bed module, and the other side of the hand unit 510 is fixed to the other end of the bed module with screws.

A brief description of how to use this device is as follows.

Put the shaft on the V block, and when the shaft is lifted and biased because the center of gravity of the ft does not match, press the seating module to attach the V block.

In order to match the reference plane in contact with the V block of the shaft, loosen or tighten the fixing bolts installed through the bed unit 310 and the block unit 330 to widen or narrow the gap between both sides.

If there is a difference in diameter of the reference plane of the shaft, adjust the height by loosening or tightening the fixing bolts of the bed unit 310 .

When the setting of the shaft device is finished, the bolt installed in the reinforcement unit 350 is finally loosened or tightened to prevent the device from being up and down.

Rotate the shaft by hand and measure the degree of deflection of the shaft while reading the value of the dial gauge.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations are included in the claims of the present invention.

100: base module 300: bed module
500: seating module
10: movable shaft runout measuring device

Claims (3)

The base module 100 is formed in a hexahedral shape and has a guide rail 110 having a slidable groove dug in the upper surface thereof;
The two bed modules 300 are movable by sliding along the guide rail 110, but a V block 331 is inserted in the inner center, and spaced apart on the base module 100 according to the length of the shaft to be measured. ); and
A movable shaft runout measuring device (10), characterized in that it comprises a seating module (500) coupled to the bed module (300) disposed on one side of the base module (100) to closely contact the shaft to be measured.
According to claim 1,
The bed module 300,
a bed unit 310 slidable along the guide rail 110 of the base module 100;
A block unit 330 in which the V block 331 is inserted therein is disposed to be vertically spaced apart from the bed unit 310: And
The movable shaft runout measuring device (10), which is installed to overlap the bed unit (310) and the V block (331) disposed to be spaced apart and includes a reinforcement unit (350) for fixing it without shaking.
3. The method of claim 2,
The seating module 500,
A hand unit 510 in which two are arranged side by side in the shape of a handle; and
It is disposed between the hand units 510 arranged side by side, and is fixed with a screw in a bar shape with an empty hollow inside, and includes a push unit 530 that closely contacts the shaft through vertical position adjustment,
One side of the hand unit 510 is hinged with one end of the bed module 300, and the other side of the hand unit 510 is fixed to the other end of the bed module 300 with screws. Runout measuring device (10).

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