KR20030039205A - Apparatus for measuring the deformation of shaft - Google Patents

Abstract

PURPOSE: A simple apparatus for measuring transformation of a revolving body is provided to prevent the revolving body from being pushed into in an axial direction, thereby accurately measuring the transformation. CONSTITUTION: A simple apparatus for measuring transformation of a revolving body includes a base part(10), installation stands(20,30), and a guide unit part(40). The positions of the installation stands are adjusted by a screw shaft(11) rotated by a motor(50) of the base part. The position of a rotation support guide(43) of the guide unit part is adjusted after installing the revolving body on the installation stands. The position of the rotation support guide is fixed by levers(44) of the guide unit part. A revolving body fixing member(42) is inserted into a guide rail(41) and is movable in a length direction following the guide rail.

Description

Rotor body simple measuring device {APPARATUS FOR MEASURING THE DEFORMATION OF SHAFT}

The present invention relates to a rotating body simple measuring device having excellent anti-rolling characteristics of the rotating body, and more particularly to the state caused by abrasion, damage and sticking of the shaft and the impeller and the thrust collar forcibly controlling the axial sliding. The present invention relates to a device required for work such as measurement, shape recovery, and judgment of use.

In general, high-pressure rotors used in industrial sites are used by unit components being combined with each other, and if any one of the components occurs, its original function is lost or its performance is significantly degraded. Repair work by disassembling the rotor.

At this time, the parts of the parts that are severely damaged and cannot be regenerated are replaced with new ones, but parts that have a deformation or minor damage that are difficult to visually recognize are reused. The degree of deformation is measured for such reuse, and various apparatuses are currently used to perform such a task. As shown in FIG. 1, two support rollers 102 are used to measure deformation of the shaft 100. The block 104 composed of a pair is placed on the surface plate 106 having excellent precision, and the deformation degree is measured by a gauge by supporting the blocks 108 at both ends of the shaft one by one.

However, in the above case, there has been a problem in that the efficiency of the work is deteriorated because there is no device for controlling the movement of the shaft, and in particular, in the case of measuring a long long axis, between two support blocks 108 along the length of the shaft There is a problem that the operator has to move the support block directly when trying to adjust the distance, and it has been difficult to match the exact horizontal position and the straight position between both blocks.

In addition, it is necessary to move and mount the measuring gauge according to the measuring part, and there is no device to control the shaft push when the diameter of the supporting part of the shaft is different or when the two blocks are not aligned correctly. I have a cause for degradation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an axial rolling prevention device capable of adjusting the distance between blocks that can flexibly and flexibly respond to the length of the shaft when measuring the deformation of the shaft. .

In addition, it is an object of the present invention to provide a axial rolling prevention device as described above to more accurately measure the state of the axis and to increase the efficiency of the work.

1 is a perspective view showing a conventional rotational deformation measuring apparatus;

2 is a perspective view of the apparatus of the present invention as a whole;

3 is a detailed assembly view of the rest set in the device of the present invention;

4 is a detailed assembly view of the guide device in the device of the present invention;

5 is a state diagram showing an operating state after seating the rotor in the apparatus of the present invention; And

6 is a state diagram showing an operating state after seating another rotating body to the apparatus of the present invention.

Explanation of symbols on the main parts of the drawings

10 ...... Base 11 ...... Screw Shaft

14 ...... square groove 20,30 ......

24,34 ...... Roller 40 ...... Guide

41 ...... Guide Roller 42 ...... Rotator Support

60,61 ...... Gage 71,72 ...... Limit switch

100 ...... Rotator 108 ...... Fixed Block

As a construction means for achieving the above object, the present invention is a square groove is formed in the longitudinal direction in the center, the screw shaft is mounted in the longitudinal direction in the center of the square groove, and connected from one side to be driven to the screw shaft A base portion 10 including a motor to be formed; A support 20 mounted on the base to be movable in the longitudinal direction of the square groove, the screw shaft penetrating a lower center thereof, and an upper stand 20 including a pair of rotatably mounted rollers; And a guide rail mounted at an installation height of the rotating body at one side in the longitudinal direction of the base part, a rotating body fixing member inserted into the guide rail and movable in the longitudinal direction along the guide rail, and fixed at an arbitrary position of the guide rail. A lever mounted on a coupling portion of the rotating body fixing member and the guide rail, and a rotating support guide installed at an end of the rotating body fixing member and supporting a center of the rotating body to support rotation of the rotating body. A guide device portion 40; Including,

The position is adjusted by the screw shaft is rotated by the drive of the motor of the base portion, the position of the rotating support guide of the guide device portion after placing the rotating body on the top of the rest platform, the lever of the guide device portion It is to provide a rotating body deformation simple measuring device for fixing the position of the rotating support guide by the measurement to measure the deformation state of the rotating body.

In the above, the rotating body refers to a shaft, an impeller, a thrust collar, etc. constituting the high pressure rotating machine, and other rotating shafts correspond to this.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Fig. 2 is a perspective view showing the apparatus of the present invention as a whole, Fig. 3 is a detailed assembly view of the set rest in the apparatus of the present invention, and Fig. 4 is a detailed assembly view of the guide apparatus in the apparatus of the present invention.

As shown in FIG. 2, the present invention includes a base portion 10, a settable 20, 30, and a guide device portion 40. The base portion 10 has a square groove 14 formed in the center portion in the longitudinal direction, the screw shaft 11 is inserted into the square groove 14 across the groove in the longitudinal direction. The screw shaft 11 is supported by a bearing at both ends of the base portion 10 to enable rotation, and one side is connected to the motor 50. In addition, the left and right sides of the square groove 14 are attached with a flat long board-like rail 12, the rail 12 on one side is attached to the ruler 13 in the longitudinal direction to enable precise position adjustment. . On the other hand, a power panel 51 is formed on the front surface of the motor 50 of the base portion 10, the remote control 52 is attached to facilitate the operation.

One end of the screw shaft 11 may be formed with a right screw, and the other half may be symmetrically formed with a left screw. The upper rest of the rails 12, the rest 20, 30 is placed, the rest of the rest (20, 30) is formed with a hole 39 in the lower portion of the screw shaft through the hole can adjust the position Is installed. The holes 39 of the settables 20 and 30 are provided with right or left threaded grooves adapted to fit therein, so that the screw is rotated in or outwards. A detailed assembly view of the set up is shown in FIG. 3. The stabilizer is installed symmetrically on both sides in pairs, and will be described below with respect to one stabilizer 30.

As shown in FIG. 3, the stand 30 is equipped with a copper liner 36 at the bottom thereof, so as to overcome friction with the rail 12 and to actively slide. In addition, a hole through which the screw shaft 11 passes is formed in the lower portion 30, and the lower portion 31 of the lower portion 31 is equipped with a worm jack 35. The worm jack 35 has a worm shaft is inserted into the side, the other worm shaft is formed at right angles to engage with the worm shaft therein, when rotating the worm shaft of the side, the other axis in the vertical direction to move the object placed on the top It has a conventional structure that can raise or lower.

Therefore, the roller mount 33 is placed on the upper portion of the worm jack 35 placed on the lower portion 31 of the settled 30, and the roller mount 33 is slightly smaller in size so as to be engaged with the lower portion 31 of the settled. Is formed. A handle and a handle support bar 32 are attached to the worm shaft on the side of the worm jack 35 to enable the operation of the worm jack from the outside. A scale is formed in the roller mount 33, and a pair of rollers of the same size are inserted into the roller mount 33 to be rotatably fixed. That is, the fixing pin 37 is inserted into the through hole 38 formed in the roller mount 33 to fix the roller and the mount.

As shown in FIG. 2, the guide device 40 is mounted on the rear surface of the base portion 10 in the longitudinal direction as the square groove 14. The guide device 40 includes a guide rail 41 long in the longitudinal direction and a rotating body fixing member 42 inserted into the guide rail 41 to move in the longitudinal direction. The guide rail 41 has a locking groove formed in the center thereof and is supported by the holder 49. The rotating member fixing member 42 has a U-shaped groove so that one end thereof is fitted into the groove of the guide rail 41. A detailed assembly diagram of the rotor fixing member 42 is shown in FIG. The other end of the rotating body fixing member 42 is attached with a rotation support guide 43 to support the rotating body.

The rotary support guide 43 is configured to support the conical shaft 48 formed in a conical shape so as to be rotatable by a bearing, and is firmly fastened to the rotor fixing member 42 by using screws and bolts. A lower portion of the rotation support guide 43, that is, a portion to be inserted into the guide rail 41 is provided with a groove into which the screw member 47 enters, and a lever 44 is attached to the upper portion of the screw member 47 to attach the lever. When turned, the screw member presses to fix the rail. In addition, in order to measure the deformation of the rotating body, the measuring gauges 60 and 61 may be fixed to the flexible shaft 62 at the center of the rail 41.

Referring to Figures 5 to 6 the operation of the rotating body simple measuring apparatus according to the present invention as described above are as follows. FIG. 5 is a state diagram showing an operating state after seating a rotating body on the apparatus of the present invention, Figure 6 is a state diagram showing an operating state after seating another rotating body to the apparatus of the present invention.

As shown in Figs. 5 and 6, the motors 50 are driven by the remote control to adjust the resttables 20 and 30 to appropriate positions. When the motor 50 is driven, since one side of the left side screw is formed around the center of the screw shaft 11 and the other side of the right side screw is formed, each arbor is opened or narrowed at the same time. The distance between the settable 20,30 is adjusted while looking at the ruler 13, and the handle 22,32 of the settable according to the diameter of the shaft support portion is adjusted to fix the height of the center of the rotating body 100 to the rotating body. The height of the rotational support guide 43 on the member.

The rotor 100 is seated on the rollers 24 and 34 and the rotor support member 43 is moved to fix the rotary support guide 43 to the end of the rotor 100 in order to prevent the shaft from being pushed. . Thereafter, the measuring gauges 60 and 61 are brought into contact with the portion of the rotating body 100 to be measured, and the rotating body is slowly rotated to measure the deformation state. The measuring gauge may be used together if necessary. Rotation of the rotating body is supported by the respective rollers 24 and 34, and even if there is no separate driving means, the operator can directly rotate.

If necessary, as shown in FIG. 2, the maximum limit switch 71 and the minimum limit switch 72 may be attached to the base portion 10 in order to detect the positions of the seats 20 and 30.

According to the present invention as described above, by measuring the state due to wear, damage, seizure of the shaft, the impeller and the thrust collar, etc. constituting the high-pressure rotary machine, to restore the shape through finishing, to determine whether the use through precision measurement When it is desired, there is an effect that can prevent the rotating body from being pushed in the axial direction and disturbing the precise measurement.

In addition, even when the shaft is thin and the diameter of the support portion is different from the load side and the semi-load side, the squareness of the trust collar and the like can be accurately measured without being pushed, and the work is efficient and the productivity improvement effect due to the stabilization of the equipment is improved. That would have a beneficial effect.

While the invention has been described in connection with specific embodiments, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that the knowledgeable person can easily know.

Claims (5)

A base portion 10 is formed in the center in the longitudinal direction, the base portion including a screw shaft mounted in the longitudinal direction in the center of the square groove, and a motor connected to one side to be driven to the screw shaft; A support (20, 30) mounted on the base to be movable in the longitudinal direction of the square groove, the screw shaft passing through a lower center thereof, and including a pair of rotatably mounted rollers thereon; And The guide rail is mounted to the mounting height of the rotating body on one side in the longitudinal direction of the base portion, the rotating body fixing member which is inserted into the guide rail and movable in the longitudinal direction along the guide rail, to be fixed to any position of the guide rail A lever mounted on a coupling portion of the rotating body fixing member and the guide rail, and a rotating support guide installed at an end of the rotating body fixing member and supporting a center of the rotating body to support rotation of the rotating body. Guide device 40; Including, The position is adjusted by the screw shaft is rotated by the drive of the motor of the base portion, the position of the rotating support guide of the guide device portion after placing the rotating body on the top of the rest platform, the lever of the guide device portion A rotating body deformation simple measuring apparatus for fixing the position of the rotating support guide by measuring the deformation state of the rotating body. According to claim 1, The base portion 10 is mounted to the rail 12 in a portion where the base portion and the rest restraint, and the lining is attached to the liner 36, the screw shaft Rotor deformation simple measuring device, characterized in that for supporting the movement of the settlement, to smooth the slide, and to facilitate the position adjustment. The method of claim 1, wherein the rest is equipped with a worm jack 35 that can be adjusted to the height by rotating the handle formed on the side under the upper portion of the rest to adjust the height of the center of the rotating body seated on the roller Rotor deformation simple measuring device. The rotating body simple measuring device according to claim 1, wherein a measuring gauge is attached on the guide rail of the guide device unit to measure the deformation state of the rotating body. The method of claim 1, wherein the right half of the screw shaft is formed with a right screw, the other half is formed with a left screw, the lower center of the guide device portion is characterized in that the right and left screws are formed so as to engage with the screw portion of the screw shaft, respectively. Rotor deformation simple measuring device.