KR20100118016A - Checkup device of bearing - Google Patents

Abstract

PURPOSE: A bearing inspection apparatus is provided to improve test accuracy about a bearing by detecting damage to a bearing by measuring noise generated when the bearing is rotating. CONSTITUTION: A bearing inspection apparatus comprises a fixing member(20), a rotating member(10) and a noise measurement member(30). The rotating member rotates the inner ring of bearing. The noise measurement member measures the noise in the rotation of the bearing. The rotating member comprises a joint and a motor unit rotating the rotary shaft. The joint is attached and detached in the rotary shaft and combined with the inner wheel of the bearing.

Description

Bearing Inspection Device {CHECKUP DEVICE OF BEARING}

The present invention relates to a bearing inspection device, and more particularly, to a bearing inspection device for rotating the bearing using a motor and thereby determining whether the bearing is damaged quickly and accurately through the noise of the bearing.

In general, all the drive units including the single drive of the large installations in the industrial field is provided with a bearing to enable the drive operation. These bearings have a wide range of uses and a wide variety of types, so the use of the bearing is essential in practically all industrial devices.

Bearings have different service periods depending on the type or use time, but after a certain period of time, the bearings must be replaced. Therefore, the smooth and accurate replacement of the bearings extends the life of the device.

In order to replace or reuse a conventional bearing, the inspection of the bearing is essential. For this purpose, the operator grasps the inner ring of the bearing and rotates the outer ring to briefly check the driving state of the bearing. This type of inspection tends to rely on visual inspection by the operator.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

In the conventional bearing inspection, since the operator rotates the bearing by hand, the bearing is not rotated at a constant speed and high speed, and thus, the bearing inspection cannot be performed accurately, and the bearing applied to the high-speed rotary actuator cannot be inspected. There is a problem.

On the other hand, the bearing inspection by the naked eye of the operator has a problem that it is difficult to detect the internal abnormality of the bearing.

For this reason, there is a problem in that it is not easy to determine whether the bearing is reused, or discard the usable bearing, or cause the damage to the rotating operation part and the defect of the manufactured product by using the unusable bearing.

Therefore, there is a need for improvement.

The present invention has been made in order to improve the above problems, an object of the present invention is to provide a bearing inspection device for precisely inspecting the replacement timing and reuse of the bearing.

The present invention to achieve the above object is a fixing member for fixing the outer ring of the bearing; A rotating member for rotating the inner ring of the bearing; And it provides a bearing inspection device comprising a noise measuring member for measuring the noise during the rotation of the bearing.

The rotating member includes a motor unit for rotating the rotating shaft; And a coupling part detachably attached to the rotating shaft and coupled to the inner ring of the bearing.

The coupling portion is coupled to the rotating shaft and the first coupling portion is formed in the mounting groove at the end; A second coupling part coupled to the first coupling part and having a coupling hole formed therein; A third coupling part inserted into the mounting groove through the coupling hole and coupled to the inner ring of the bearing; And a fourth coupling part provided on an outer circumferential surface of the third coupling part and inserted into an insertion groove communicating with the coupling hole, wherein the fourth coupling part is caught by an inner surface of the second coupling part.

The third coupling portion is characterized in that the diameter is reduced toward one end.

The fixed member is a main moving part capable of horizontal movement; And a gripping part coupled to the main moving part and gripping the outer ring of the bearing.

It characterized in that it further comprises an auxiliary moving unit for moving the gripping portion.

The auxiliary moving part is a nut part embedded in the main moving part; An auxiliary shaft which is screwed with the nut part through the main moving part and whose one end is coupled with the gripping part; And an auxiliary handle coupled to the other end of the auxiliary shaft.

The noise measuring member includes a transmission tube for transmitting the noise of the bearing; And a measuring unit connected to the transfer tube to measure noise of the bearing.

Bearing inspection apparatus according to the present invention by measuring the noise generated during the rotation of the bearing to determine whether the bearing damage, the inspection accuracy for the bearing is improved, the effect that can be quickly determined for the available and unavailable bearings There is.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a bearing inspection device according to the present invention. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a front view of a bearing inspection device according to an embodiment of the present invention, Figure 2 is a plan view of a bearing inspection device according to an embodiment of the present invention. And, Figure 3 is an exploded perspective view showing a coupling portion according to an embodiment of the present invention, Figure 4 is a perspective view showing a fixing member according to an embodiment of the present invention.

1 to 4, the bearing inspection device 100 according to an embodiment of the present invention is provided with a rotating member 10, the fixing member 20 and the noise measuring member 30. Rotating member 10 is rotated in combination with the inner ring of the bearing 40, the fixing member 20 is fixed to the outer ring of the bearing (40). The noise measuring member 30 is positioned close to the bearing 40 to measure noise generated by the rotation of the bearing 40. The noise of the bearing 40 is measured to determine whether the bearing 40 is abnormal.

Rotating member 10 and the fixing member 20 may be fixed to the ground, the rotating member 10 and the fixing member 20 according to an embodiment of the present invention is installed on the work table 50, one module Becomes

Rotating member 10 according to an embodiment of the present invention is provided with a motor portion 11 and the coupling portion 12. The motor unit 11 is provided with a motor 111 and a rotating shaft 112 rotated in connection with it. The motor 111 is fixedly installed on the worktable 50 and is provided with an inverter to enable operation speed adjustment. One end of the coupling portion 12 is coupled to the end of the rotation shaft 112, the other end is coupled to the inner ring of the bearing 40. The rotary shaft 112 is provided with a support 13. The support 13 is fixed to the worktable 50 and supports the rotating shaft 112 so as to be rotatable, thereby suppressing the vibration of the rotating shaft 112.

The coupling part 12 according to the exemplary embodiment of the present invention includes a first coupling part 121, a second coupling part 122, a third coupling part 123, and a fourth coupling part 124.

The first coupling portion 121 is coupled to the rotating shaft 112 and the mounting groove 121a is formed at the end. The first coupling portion 121 is integrally formed with the rotating shaft 112 or combined with the rotating shaft 112 and integrally rotated.

A fastening hole 121c is formed in the edge 121b of the first coupling part 121, and a mounting groove 121a is formed inside the edge 121b. The mounting groove 121a has a circular or circular shape.

An assembly hole 122c corresponding to the fastening hole 121c is formed in the second coupling part 122, and the bolt 122d is fastened to the fastening hole 121c through the assembly hole 122c, thereby providing a second coupling part. 122 is coupled to the first coupling portion 121.

A circular coupling hole 122a is formed at the center of the second coupling part 122, and at least one insertion groove 122b is formed in a circumferential portion of the coupling hole 122a.

The third coupling part 123 is inserted into the mounting groove 121a through the coupling hole 122a and is coupled to the inner ring of the bearing 40. The fourth coupling part 124 protrudes from the outer circumferential surface of the third coupling part 123 and penetrates the insertion groove 122b. Therefore, when the third coupling portion 123 is rotated, the fourth coupling portion 124 is held on the inner surface of the second coupling portion 122 to maintain a fixed state.

The outer circumferential surface of the third coupling part 123 is pressed into the inner ring of the bearing 40 and has a shape in which the diameter decreases toward one end to be applied to the bearing 40 having various diameters. On the other hand, the third coupling portion 123 is manufactured in a variety of standards to be attached to and detached from the second coupling portion 122, it is coupled to the bearing 40 of various sizes.

In the process of pressing the third coupling part 123 into the bearing 40, damage to the bearing 40 may occur. To this end, the third coupling portion 123 is preferably made of a urethane material. The urethane material may be provided only at the portion in contact with the bearing 40.

The fourth coupling part 124 is formed with a curved surface 124a. Therefore, when the fourth coupling part 124 is inserted into the second coupling part 122 as the third coupling part 123 is rotated, the sliding is smoothly performed by the curved surface 124a.

The fixing member 20 according to an embodiment of the present invention is provided with a main moving part 210 and a gripping part 220. The main moving part 210 is moved in the direction of the bearing 40 from the worktable 50, the holding part 220 is installed on the main moving part 210 to hold the outer ring of the bearing 40 to position the bearing 40 Fix it.

The main moving part 210 according to the exemplary embodiment of the present invention includes a guide protrusion 211, a gear 212, a gear shaft 213, and a gear handle 214.

The guide protrusion 211 is seated in the guide groove 511 formed on the work table 50. Therefore, the main moving part 210 is slidably moved in a state seated in the guide groove 511 of the work table 50.

Gear 212 is rotated in engagement with the guide teeth 512 formed on the side wall of the work table 50, the gear shaft 213 is coupled to the gear 212 protrudes above the main moving part 210, the gear handle 214 is coupled to the gear shaft 213. Accordingly, when the gear handle 214 is rotated in the clockwise direction, the main moving part 210 moves in the bearing 40 direction, and when the gear handle 214 is rotated in the counterclockwise direction, the main moving part 210 moves in the bearing ( 40) Moved in the opposite direction.

A scroll chuck is used as the gripper 220 according to an embodiment of the present invention. Such a scroll chuck is tightened or released by adjusting or releasing the adjusting means, the gripper 221 is retracted or spread, it is possible to grip the outer ring of the bearing 40 of various sizes. Since the scroll chuck is a general component, a detailed description thereof will be omitted.

The fixing member 20 according to an embodiment of the present invention is further provided with an auxiliary moving part 230 for moving the gripping part 220. The auxiliary moving part 230 is provided with a nut part 231, an auxiliary shaft 232, and an auxiliary handle 233.

The nut part 231 is embedded in the main moving part 210 and a thread is formed in the hole formed inward. The auxiliary shaft 232 penetrates through the main moving part 210, and both ends thereof extend in both directions of the main moving part 210. The auxiliary shaft 232 is screwed with the nut portion 231, one end is coupled to the gripping portion (22). The other end of the auxiliary shaft 232 is coupled to the auxiliary handle 233. Accordingly, when the auxiliary handle 233 is rotated in one direction, the auxiliary shaft 232 moves forward, and the gripper 220 moves in the bearing 40 direction. When the auxiliary handle 233 is rotated in the other direction, the auxiliary shaft 232 is rotated. ) Is retracted so that the grip portion 220 is moved in the opposite direction to the bearing 40.

The working table 50 is provided with an oil container 60. In the oil barrel 60, oil for lubrication of the bearing 40 is stored, and a part of the bearing 40 is immersed in oil.

The work table 50 is provided with an oil cover portion 61 covering the oil barrel 60 and the bearing 40. The oil cover portion 61 prevents oil from splashing outside. On the other hand, when the oil cover 61 is mounted, the engaging portion 12 of the rotating member 10 and the holding portion 220 of the fixing member 20 penetrates through the oil cover 61 to the bearing 40 Combined with

The noise measuring member 30 according to the exemplary embodiment of the present invention is provided with a delivery tube 310 and a measuring unit 320. The transmission tube 310 passes through the oil cover portion 61 to be positioned close to the bearing 40 to transmit noise, and the measurement unit 320 is connected to an end of the transmission tube 310 to connect the bearing 40. Measure the noise.

Referring to the operation of the bearing inspection device according to an embodiment of the present invention having the structure as described above are as follows.

After the coupling part 12 corresponding to the size of the bearing 40 is installed on the rotating shaft 112, the third coupling part 123 passes through the bearing 40. Then, the outer circumferential surface of the third coupling part 123 is pressed into the inner ring of the bearing 40, thereby maintaining the state in which the third coupling part 123 and the inner ring of the bearing 40 are coupled.

Meanwhile, the main moving part 210 is moved in the direction of the bearing 40 in the opposite direction of the third coupling part 123. For the movement of the main moving part 210, the operator rotates the gear handle 214 in one direction. Then, the main moving part 210 is moved in the direction of the bearing 40 due to the gear 212 connected thereto is engaged with the guide teeth 512.

When the gripper 220 is positioned on the outer circumference of the bearing 40 by the movement of the main moving part 210, the operator adjusts the gripper 220 so that the gripper 220 grips the outer ring of the bearing 40. Do it.

At this time, in order to move the grip portion 220 in the direction of the bearing 40 finely, the operator rotates the auxiliary handle 233 in one direction. Then, the auxiliary shaft 232 connected thereto is advanced to move the grip portion 220 toward the bearing 40.

As described above, when the inner ring of the bearing 40 is coupled to the coupling part 12 and the outer ring of the bearing 40 is fixed to the grip part 220, the motor 111 is driven, and the rotating shaft 112 rotates. The inner ring of the coupling part 12 and the bearing 40 connected thereto is rotated. At this time, the support part 13 supports the rotation shaft 112 to suppress the vibration of the rotation shaft 112.

The noise measuring member 30 is located close to the bearing 40 to measure the rotational noise of the bearing 40, thereby detecting whether the bearing 40 is worn or damaged.

That is, when the bearing 40 is rotated in a normal state, the rotational noise of the bearing is insignificant. However, when the bearing 40 is rotated in a bad state, the rotation of the bearing 40 is not smooth and noise is generated.

The transmission tube 310 is located close to the bearing 40, and transmits the rotating noise of the bearing 40 to the measuring unit 320, and the measuring unit 320 measures the rotation noise and the input of the normal bearing 40 input. To compare the rotating noise of the bearing 40.

If the measured rotational noise of the bearing 40 is higher than the rotating noise of the normal bearing 40, the measuring unit 320 determines the measured bearing 40 as bad and informs the operator.

Preferably, the limit value for the rotational noise of the normal bearing 40 is input to the measuring unit 320, and when the measured rotational noise of the bearing 40 exceeds the input limit value, it is determined as a defect.

On the other hand, since the bearing 40 is partially locked to the oil container 60, lubricating oil is continuously supplied to the bearing 40 during the process of rotating and inspecting the inner ring of the bearing 40.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. I will understand.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

1 is a front view of a bearing inspection device according to an embodiment of the present invention.

2 is a plan view of a bearing inspection apparatus according to an embodiment of the present invention.

Figure 3 is an exploded perspective view showing a coupling portion according to an embodiment of the present invention.

4 is a perspective view showing a fixing member according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: rotating member 11: motor portion

12: coupling portion 20: fixing member

30: noise measuring member 40: bearing

50: working table 60: oil container

210: main moving part 220: gripping part

230: auxiliary moving part

Claims (8)

Fixing member for fixing the outer ring of the bearing; A rotating member for rotating the inner ring of the bearing; And Bearing inspection device comprising a noise measuring member for measuring the noise during the rotation of the bearing. The method of claim 1, wherein the rotating member A motor unit for rotating the rotating shaft; And And a coupling part detachably attached to the rotating shaft and coupled to an inner ring of the bearing. The method of claim 2, wherein the coupling portion A first coupling part coupled to the rotation shaft and having a mounting groove formed at an end thereof; A second coupling part coupled to the first coupling part and having a coupling hole formed therein; A third coupling part inserted into the mounting groove through the coupling hole and coupled to the inner ring of the bearing; And A fourth coupling part provided on an outer circumferential surface of the third coupling part and inserted into an insertion groove communicating with the coupling hole; Bearing inspection device, characterized in that the fourth engaging portion is caught on the inner surface of the second coupling portion. The method of claim 3, wherein The third coupling portion bearing inspection apparatus, characterized in that the diameter is reduced toward one end. The method of claim 1, wherein the fixing member Horizontal moving main moving unit; And And a gripping part coupled to the main moving part and gripping the outer ring of the bearing. The method of claim 5, Bearing inspection apparatus further comprises an auxiliary movement unit for moving the gripping portion. The method of claim 6, wherein the auxiliary moving unit A nut part embedded in the main moving part; An auxiliary shaft which is screwed with the nut part through the main moving part and whose one end is coupled with the gripping part; And Bearing inspection apparatus comprising an auxiliary handle coupled to the other end of the auxiliary shaft. The method of claim 1, wherein the noise measuring member Transfer tube for transmitting the noise of the bearing; And And a measuring unit connected to the transfer tube to measure noise of the bearing.

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