KR200473470Y1 - Shaft deformation measure device - Google Patents

Abstract

The present invention relates to a shaft deformation measuring apparatus, and more particularly, to a shaft deformation measuring apparatus capable of minimizing an operator error in measuring a rotating apparatus and improving the maintenance quality of the rotating apparatus. To this end, A frame having a first guide rail formed in a longitudinal direction thereof; A support member that moves along the first guide rail and supports the shaft; A pair of rotary members mounted on the frame in the longitudinal direction and rotating the shaft; A plurality of dial gauges contacting the upper surface of the shaft; And a control unit formed on a side surface of the frame for rotating the rotary member.

Description

[0001] SHAFT DEFORMATION MEASURE DEVICE [0002]

The present invention relates to a shaft deformation measuring apparatus, and more particularly, to a shaft deformation measuring apparatus capable of improving a maintenance quality of a rotating apparatus by minimizing an error of an operator in measuring a rotating apparatus.

In general, various types of rotating machines are used in the industrial field, such as transfer of raw materials, circulation of air, or progress of processing. Such a rotating machine is determined according to its use, its material is determined, and the medium through which the rotating machine is made varies. However, since these rotating machines commonly rotate at a high speed, whether or not shaft bending is the most important consideration in planning prevention or safety inspection.

In the case of power plant facilities, most of the rotating equipment is connected in parallel so that one unit is operated and the other unit is stationary. At this time, when a cyclic load or a repetitive stress is applied to the shaft of the rotating machine, a yielding stress is generated. When the shaft passes through this point, the shaft is brought to a firing state, and the shaft is actually rotated about 10 to 15 times The plastic elongation of the substrate is generated.

The plastic deformation caused by this causes a bending phenomenon in the shaft. When the shaft is continuously operated in the bending state, a contact phenomenon occurs in the fixed portion and the rotating portion, causing them to abrade each other, causing the rotating device itself to vibrate And in the worst case, the device itself can be developed to the stage of breaking.

Therefore, when dismounting and inspecting the rotating machine, it is necessary to check the plastic deformation of the shaft, so that the integrity of the shaft must be checked.

In the following, a manual measurement method for the shaft deformation value is described.

1 is a perspective view showing a shaft deformation measuring apparatus according to the prior art.

As shown in Fig. 1, two V-blocks 20a and 20b are arranged on the frame 10 at regular intervals in accordance with the length of the shaft S, and the shaft S to measure the deformation value is arranged on the V- (20a, 20b).

In the method of measuring the state of the shaft (S), one operator measures one point of the shaft (S) while another operator rotates the shaft (S) in place, .

First, a dial gauge 30 for measuring the deformation value of the shaft S is fixed at an appropriate position of the frame 10 to measure a predetermined point of the shaft.

Thereafter, the gauge point 35 is brought perpendicular to the measuring point, the gauge point 35 is pushed up by about 10 mm, and then fixed by using the adjusting handle 33.

After the adjustment handle 33 is fixed, the instruction value of the gauge crystal 31 is adjusted to zero, and a worker slowly rotates the shaft S by hand.

At this time, another operator visually reads and records the instruction value of the gauge crystal 31, which changes in accordance with the bending of the surface of the shaft (S).

The measurement of the deformation value is performed three times at the same point, and the measured value is averaged. Since the purpose of the average value is rotated by the hand (S) of the object to be measured, the measurement point may fluctuate with each measurement, There is a problem that the measurement value of the deformation state is not accurate due to the error of the gauge 30 itself.

Korea Registered Utility Model 20-0266910 (Registered on February 22, 2002)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a method for controlling a measuring device, which comprises providing a pair of rotating members and a shaft supporting member, rotating the shaft by a rotating member, So that it is possible to automatically measure the deformation value of various shafts up to a small shaft as well as a large shaft without any error.

Another object of the present invention is to provide a shaft deformation measuring apparatus which is highly reliable with respect to measurement data by setting the dial gauge to measure when the shaft rotates 90 degrees and measuring the same position with respect to all the measuring positions of the shaft.

In order to achieve the above object, the present invention provides a frame having a frame having a first guide rail formed in a longitudinal direction on an upper surface thereof; A support member that moves along the first guide rail and supports the shaft; A pair of rotary members mounted on the frame in the longitudinal direction and rotating the shaft; A plurality of dial gauges contacting the upper surface of the shaft; And a control unit formed on a side surface of the frame for rotating the rotary member.

Further, in the present invention, a pair of rotating members is provided with a driving unit connected to the control unit.

In addition, in the present invention, the control unit includes: a safety button for stopping the rotation of the rotary member in an unexpected situation; A drive button for rotating or stopping the rotary member; A speed adjusting button for adjusting the speed of the rotating member; And a height adjustment button for adjusting the height of the support member.

In addition, in the present invention, the support member includes: a support table for supporting the bottom surface of the shaft; And a support ball for supporting both ends of the shaft.

In the present invention, the guide rail is in the form of a rack gear, and the support base is in the form of a pinion gear engaged with the rack gear.

Further, in the present invention, the pair of rotary members are movable in the left and right directions according to the shaft diameter.

In the present invention, a second guide rail for moving the pair of rotary members to the left and right is formed on both upper surfaces of the frame in a direction perpendicular to the first guide rail.

Further, in the present invention, there is provided a moving unit which is engaged with the second guide rail in the vertical direction at both ends of the pair of rotating members.

In the present invention, the second guide rail is a rack gear, and the moving portion of the pair of rotating members is a pinion gear engaged with the rack gear.

In addition, in the present invention, a first adjustment lever for adjusting the interval of the pair of support members is further provided on one side of both ends of the frame.

Further, in the present invention, a second adjusting lever for adjusting the interval of the rotary member is further provided on the other side of the frame at both ends thereof.

Further, in the present invention, the bar is provided with a jig to which a plurality of dial gauges are attached.

Further, in the present invention, two to four dial gauges are provided.

Further, in the present invention, a fixing portion is formed in a vertical direction from the center of the bar to the upper surface of the frame in order to prevent deformation of the bar.

Further, in the present invention, a work light is provided on one side of the bar.

According to the shaft deformation value measuring apparatus of the present invention, a support member capable of adjusting the position and height according to the diameter and the length of the shaft and a rotation member capable of adjusting the position according to the diameter of the shaft are provided, to configurations whereby, depending on the length and diameter of the shaft it can be adjusted the measuring device, and thus, a large shaft, as well as provides a shaft deformation value measuring apparatus which can automatically measure without error value variations of the various shaft to the small shaft.

Further, when the shaft rotates by 90 degrees, the dial gauge is set to measure, and the same position is measured with respect to all the measurement positions of the shaft, thereby providing a shaft deformation measuring apparatus with high reliability with respect to measurement data.

1 is a perspective view showing a shaft deformation measuring apparatus according to the prior art;
FIG. 2 is a perspective view showing a shaft deformation measuring apparatus according to the present invention; FIG.
3 is an enlarged view showing a state of engagement between a guide rail and a support member of a shaft deformation measuring apparatus according to the present invention;
4 is an enlarged view showing a state of engagement between a rotating ball and a shaft of a shaft deformation measuring apparatus according to the present invention;
5 is an enlarged view showing a rotating member of a shaft deformation measuring apparatus according to the present invention;
6 is an enlarged view showing a bar of a shaft deformation measuring apparatus according to the present invention;
7 is a side view of a shaft deformation measuring apparatus according to the present invention; And
8 is a front view of a shaft deformation measuring apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings and the following description. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of this invention to those skilled in the art. Like reference numerals designate like elements throughout the specification.

FIG. 2 is a perspective view showing a shaft deformation measuring apparatus 200 before the shaft S according to the present invention is supported. FIG. 3 is a perspective view showing the guide deformation measuring apparatus 200 according to the present invention, 4 shows an assembled state of the support ball 224 and the shaft S of the shaft deformation measuring apparatus 200 according to the present invention FIG. 5 is an enlarged view showing the rotating member 230 of the shaft deformation measuring apparatus 200 according to the present invention, and FIG. 6 is an enlarged view of the shaft deformation measuring apparatus 200 according to the present invention. And an enlarged view showing the bar.

2, the shaft deformation measuring apparatus 200 includes a frame 210, a support member 220 for supporting the shaft S, a pair of rotary members 230 for rotating the shaft S, A bar 240 formed on the upper surface of the frame 210 in correspondence with the frame 210 and a control unit 250 formed on the side surface of the frame 210.

A first guide rail 212 extending in the longitudinal direction of the frame 210, a second guide rail 214 formed on both upper surfaces of the frame 210 so as to be perpendicular to the first guide rail 212, A first control lever 216 for moving the support ball 224 along the length of the shaft S and a second control lever 216 for moving the rotary member 230 for adjusting the distance between the second control lever 218 and the second control lever 218.

3, the support member 220 is composed of a support base 222 for supporting the bottom surface of the shaft S, and a support ball 224 for supporting both ends of the shaft S. As shown in Fig.

4, the support base 222 and the support ball 224 are installed on the lower surface of the lower surface so as to be movable along the first guide rail 212 with a gear engaged with the first guide rail 212 The support base 222 and the support ball 224 can be adjusted up and down in accordance with the length and diameter of the shaft S and the support ball 224 can be rotated in the left and right directions .

The gears of the first guide rail 212 and the support member 220 are installed in a rack and pinion manner and the first guide rail 212 is a rack gear having a concave groove formed on the upper surface of the straight rod The support member 220 and the support ball 224 are formed in a circular shape on the lower surface of the support member 220 and are formed of a pinion 222a gear having protrusions formed on a circular outer circumferential surface to engage with the rack gear .

5, the pair of rotary members 230 are formed along the first guide rails 212 on both sides of the first guide rail 212, and the upper surface of the pair of rotary members 230 And is disposed in the frame 210 so as to be movable left and right so that the distance between the pair of rotary members 230 can be adjusted according to the diameter of the shaft S. [

A moving part 232 for engaging with the second guide rail 214 in the vertical direction at both ends of the rotating member 230 is formed so that the rotating member 230 moves left and right on the frame 210, The rail 214 and the moving part 232 are also coupled in a rack and pinion manner.

A driving unit 234 for rotating the rotating member 230 is formed at the center of the pair of rotating members 230. The driving unit 234 is connected to a control unit 250 to be described later.

6, a support bar 219 is installed in a vertical direction at both ends of the frame 210, a bar 240 is installed at both ends of the support bar 219, A plurality of dial gauges 260 for measuring the deformation of the shaft S are provided.

The dial gauge 260 includes a numerical value arrow 262 indicating a deformation value, a gauge adjusting handle 264 for adjusting a zero point of the numerical arrow 262 and a gauge pointer 266 placed at a deformation value measuring position of the shaft S .

The dial gauge 260 is preferably connected through a jig 242 coupled to the bar 240 and the number of dial gauges 260 connected to the bar 240 is preferably two to four . However, the present invention is not limited to this. Depending on the length of the shaft S or the position at which the diameter of the shaft S varies, the number of the dial gauges 260 to be installed can be changed.

Further, the dial gauge 260 is set to measure every time the shaft S rotates through 90 [deg.]. That is, since the shaft rotates 360 degrees, the dial gauge 260 is set to measure the same measurement position of the shaft S four times.

In addition, a plurality of dial gauges 260 may be installed in the bar 240, so that the center of the bar 240 may be deformed in a downward direction. In order to prevent deformation of the bar 240, a fixing portion 244 is formed in a vertical direction from the center of the bar 240 to the upper surface of the frame 210. A work light 246 is provided on one side of the bar 240 .

The control unit 250 is installed on the side of the frame 210 and includes a safety button 252 for emergency stopping the rotation of the shaft S immediately upon occurrence of an unexpected event during operation, A speed adjusting button 256 for adjusting the speed of the rotating member 230 and a height adjusting button 258 for adjusting the height of the supporting table 222 and the supporting ball 224. [

A method of placing and operating the shaft S on the shaft deformation measuring apparatus 200 having the above-described configuration will be described later with reference to Figs. 7 and 8. Fig.

Fig. 7 shows a side view of the shaft deformation measuring apparatus 200 according to the present invention, and Fig. 8 shows a front view of the shaft deformation measuring apparatus 200 according to the present invention.

The gap between the support balls 224 is adjusted and fixed by using the first control lever 216 provided on one side of the frame 210 along the length of the shaft S, The position of the support rod 222 to be supported is also moved and fixed along the guide rail 212 and the second control lever 218 provided on the other side of the frame 210 according to the diameter of the shaft S, The distance between the rotating members 230 is adjusted.

The height of the support table 222 and the support ball 224 is also adjusted according to the diameter of the shaft S by using the height adjustment button 258. [

The support base 222 may be provided at two positions at which the load is evenly divided in consideration of the load of the shaft S so that the support base 222 can be positioned on the bottom surface of the shaft S, The support base 222 can be positioned on the bottom surface of the shaft S at 1/4 point from both ends of the shaft S when the thicknesses are uniform.

When the distance between the support table 222, the support ball 224 and the rotary member 230 is adjusted, the shaft S is positioned, and a dial gauge (not shown) The gauge pointer 266 of the display unit 260 is positioned.

The position where the measuring point of the deformation value of the shaft S is set is as follows.

(1) Measure all the positions where other parts are assembled to the shaft (S).

(2) The position at which the diameter of the shaft S changes is measured and measured.

(3) The shaft S having a uniform diameter of the shaft S and having no parts to be assembled is measured by setting one center of the shaft S as a measurement position.

(4) When the diameter of the shaft S is uniform and a single component is assembled, two points of the shaft S are measured when the length of the shaft S exceeds twice the diameter.

(5) If the deformation of the shaft (S) is severe or data for correction is required, the measurement point may be added as required.

(6) Measure both ends of the shaft (S) by setting.

It is possible to measure the deformation value of the shaft S by setting the position of the shaft S deemed necessary by the operator.

When the position to measure the deformation value of the shaft S is set, the gauge pointer 266 of the dial gauge 260 is positioned at the set position. For reference, the dial gauge 260 adjusts the zero point using the gauge adjustment handle 264, and then places the gain pointer 266 at the deformation value measuring position of the shaft S. [

When the driving button 254 is pressed after the speed of the rotating member 230 is adjusted by the speed adjusting button 256 of the controller 250, the driving unit 234 disposed at the center of the rotating member 230 rotates the rotating member 230, (230) is rotated.

The rotation of the rotating member 230 causes the shaft S to rotate and the dial gauge 260 shows a certain value and if there is no deformation of the shaft S, The dial gauge 260 shows the same numerical value and if there is a deformation of the shaft S, the numerical value of the dial gauge 260 placed at the position where the deformation of the measurement position of the shaft S is located, The numerical value of the gauge 260 is different from that of the gauge 260.

Further, since the dial gauge 260 is set so as to be able to perform measurement every time the shaft S rotates by 90 degrees, four numerical values appear at a position of the shaft S to be measured, and the deformation of the shaft S If not, four numbers in one position will show the same number.

By using the above-described apparatus, it is possible to identify whether or not the deformation of the shaft S has occurred.

As described above, the shaft deformation measuring apparatus 200 according to the embodiment of the present invention includes a support member 220 capable of adjusting the position and height according to the diameter and length of the shaft S, position adjustment are installed rotatable member 230, by rotating the shaft (S) by the rotating member 220, it is possible to adjust the measuring device in accordance with the length and diameter of the shaft (S) in accordance with.

Accordingly, it is possible to automatically measure the deformation values of various shafts (S) not only to the large shaft but also to the small shaft.

Further, when the shaft S is rotated by 90 degrees, the dial gauge 260 is set to measure, and the same position is measured with respect to all the measurement positions of the shaft S, so that the reliability of the measurement data is high.

As described above, the shaft deformation measuring apparatus according to the present invention has been described based on the preferred embodiment of the present invention. However, it should be apparent to those skilled in the art that modifications, changes and various modified embodiments are possible within the scope of the present invention. Do.

200: Shaft deformation value measuring device 210: Frame
212: first guide rail 214: second guide rail
216: first control lever 218: second control lever
219: support rod 220: support member
222: support base 224: support ball
230: rotating member 232: moving part
234: driving part 240: bar
242: jig 244:
246: Working light 250:
252: safety button 254: drive button
256: Speed control button 258: Height control button
260: Dial gauge 262: Numerical arrow
264: Gauge adjustment handle 266: Gauge pointer

Claims (15)

A frame having a first guide rail formed on an upper surface thereof in a longitudinal direction;
A support member that moves along the first guide rail and supports the shaft;
A pair of rotary members mounted on the frame in the longitudinal direction to rotate the shaft and movable left and right according to the diameter of the shaft;
A plurality of dial gauges contacting the upper surface of the shaft are installed; And
And a control part formed on a side surface of the frame for rotating the rotating member and adjusting a speed of the rotating member,
Wherein the support member comprises a support for supporting a bottom surface of the shaft, and a support ball for supporting both ends of the shaft. The method according to claim 1,
And the driving unit connected to the control unit is provided in the pair of rotating members. The method according to claim 1,
The control unit includes:
A safety button for stopping the rotation of the rotary member in an unexpected situation;
A driving button for rotating or stopping the rotating member;
A speed adjusting button for adjusting a speed of the rotating member; And
And a height adjustment button for adjusting a height of the support member. delete The method according to claim 1,
Wherein the guide rail is in the form of a rack gear, and the support member is in the form of a pinion gear engaged with the rack gear. delete The method according to claim 1,
And a second guide rail for moving the pair of rotary members to the left and right is formed on both upper surfaces of the frame in a direction perpendicular to the first guide rail. 8. The method of claim 7,
And a moving portion that engages with the second guide rail in a vertical direction at both ends of the pair of rotating members. 9. The method of claim 8,
Wherein the second guide rail is a rack gear, and the moving part of the pair of rotating members is a pinion gear engaged with the rack gear. The method according to claim 1,
And a first adjustment lever for adjusting an interval of the pair of support members is further provided on one side of both ends of the frame. The method according to claim 1,
And a second adjustment lever for adjusting the interval of the rotary member is further provided on the other side of the frame at both ends thereof. The method according to claim 1,
Wherein the bar is provided with a jig to which the plurality of dial gauges are attached. The method according to claim 1,
Wherein two to four dial gauges are provided. The method according to claim 1,
Wherein a fixing portion is formed in a vertical direction from the center of the bar to the upper surface of the frame to prevent deformation of the bar. The method according to claim 1,
And a working light is provided on one side of the bar.

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