KR20110055843A - Bearing after treatment apparatus - Google Patents

Abstract

PURPOSE: A large bearing after-treatment machine is provided to uniformly inject grease through a transfer pipe connected to multiple injection holes. CONSTITUTION: A large bearing after-treatment machine comprises a torque measurement unit, a support unit(20), a grease feeder(30), and a deviation measurement unit. A first lower gear, a second lower gear(14), a torque reducer(16), and a first upper gear are formed in the torque measurement unit. A support plate(22) and a T groove(21) are formed in the support unit. An outlet(33) and a transfer pipe(34) are formed in the grease feeder. The deviation measurement unit is fixed to the bottom surface of inner and outer wheels(50,60). A second drive motor(44) with a second upper gear(441) is formed in the deviation measurement unit.

Description

Large bearing aftertreatment {Bearing after treatment apparatus}

The present invention relates to a large bearing aftertreatment, more specifically, a grease is applied in a ball assembly process inserted into and fixed inside a large bearing having a diameter of 1.2 m or more used for a tank, a windmill, and a construction machine formed of an inner ring and an outer ring. It relates to a large bearing aftertreatment in which shake and concentricity are measured during outer ring rotation.

In general, the bearing is a roller bearing and a ball bearing are used a lot, and the inner and outer body surrounding the roller and the ball to reduce the rotational friction generated by the roller and the ball when the roller and the ball when the forward / reverse rotation, respectively will be. When the ball is supplied to an operator to be mounted on the inner / outer body, the ball is fixed to the inner / outer body by supplying balls of different sizes depending on the diameter of the inner / outer body.

However, in the past, it was difficult for the worker to inspect the size of the balls assembled during the manufacture of large bearings, and the manufactured balls had to be relied on. Therefore, when the size of the balls was poor, the torque of the bearings did not come out according to the standard. There was a problem to be done.

In addition, bearings are inspected for a certain level of torque value required by the manufacturer depending on the type and location of the bearings used.In the case of large bearings with a diameter of 1.2m or more such as tanks, windmills, construction machinery, etc. It is difficult for small companies with insufficient facilities to perform torque tests to check whether the assembly is appropriate, and the reliability of the manufactured bearings is inferior. There was another problem.

In order to solve the problems as described above, in the present invention, grease is uniformly supplied to the inner and outer rings through the grease feeder after assembling the ball of the correct specification, and the inner and outer rings are easy to measure the shaking and concentricity of the inner and outer rings. An object of the present invention is to provide a large bearing post-processor fixed to the lower part and having first and second sensors spaced apart from the inner and outer rings by a clamp.

In addition, even in narrow spaces, the inner and outer rings are supported by 120 ° intervals by the support unit to measure the torque after safely supporting large bearings of diameter 1.2m or more used in tanks, windmills and construction machinery. It is another object to provide a large bearing aftertreatment in which a computer is connected to the torque reducer so that the torque value measured in accordance with the rotation of the first upper gear engaged with the gear is displayed.

The present invention is a large bearing post-processor having an inner / outer ring in which a plurality of balls are inserted through holes formed on the outer circumferential surface by a worker in a donut shape, the first bearing being driven by a first driving motor and rotated below Rotation of the inner and outer rings is coupled to the first lower gear axially coupled, the second lower gear rotated in engagement with the first lower gear, and the second coupling upper shaft axially coupled to the second lower gear. A torque measuring unit including a torque reducer configured to measure a speed and transmit the same to a computer, and a first upper gear axially coupled with the third coupling coupled to the torque reducer and engaged with the inner ring and rotated; The support plate is arranged at 120 ° intervals on the bottom surface of the inner / outer ring to support the inner / outer ring, and is fixed to the upper part of the LM block along the LM guide when the diameter of the inner / outer ring is changed. A support unit having a T groove into which the fixing bolt is inserted; A plurality of injection holes which are fixed at a certain distance from the inner / outer ring and discharged from the grease of the storage tank in which the grease is stored by the operation button, one end of which is connected to the outlet, and the other end of which is formed on the outer side of the inner / outer ring A grease feeder having a transfer pipe connected thereto; It is fixed to the bottom of the inner / outer ring, it is made of a structure consisting of a deviation meter formed with a second drive motor is fixed to the upper gear of the second upper gear of the gear shape is rotated in engagement with the inner ring when the power is applied.

In addition, the deviation measuring device is bolted in two rows on the upper surface and the LM guide is inserted and transported LM block, and the center of the LM guide and both ends are fixed to the fixed block between the fixed block when rotating the transfer handle formed on one side A feed shaft in which the fixed feed block is linearly moved, a rectangular feed plate having a bottom surface fixed to the LM block and the feed block, and a straight feed, and a rotation shaft fixed vertically to an upper end of the fixed shaft fixed to one side of the feed plate. A "b" shaped clamp fixed at the end and first and second sensors fixed to one side of the clamp to sense shaking during rotation of the inner / outer ring are configured.

In addition, the first and second sensors are configured to detect whether the rotation radius of the inner / outer ring rotates in an error range of 0.4 to 1 mm.

As described above, the large bearing post-processor according to the present invention is uniformly injected with the grease of the grease feeder through a feed pipe connected to a plurality of injection holes respectively formed on the outer circumference of the inner / outer ring, and is rotated by the first motor. The torque value of the inner ring connected to the first upper gear can be displayed on the computer through the torque reducer connected to the first upper gear, so that the defect of the ball can be detected, and the diameter 1.2 used for the tank, windmill, and construction machine even in a small space. It is effective to measure the torque value of inner / outer ring after the large bearing of m or more is supported by the support unit safely.

In addition, when the second upper gear rotates by rotating inside the inner ring, the first and second sensors fixed at a certain distance apart from the inner / outer ring can be measured to determine whether the ball is defective by measuring the inner and outer ring shake and concentricity. There is another effect of preventing large accidents and casualties that can occur in the field where the bearings are used.

Hereinafter, a preferred embodiment according to the configuration and operation of a large bearing post-processor according to the present invention will be described in detail with the accompanying drawings.

1 is a plan view of a large bearing post-processor according to the present invention, FIG. 2 is a side view of a large bearing post-processor according to the present invention, and FIGS. 3 to 8 are detailed parts of a large bearing post-processor according to the present invention.

1 and 2, the large bearing after-treatment of the present invention, the inner / outer ring (50, 60) and the inner ring 50 is formed with a plurality of holes (51, 61) on the outer circumferential surface in the donut shape, respectively And a torque measuring part 10 which is engaged with the inner side of the shaft and has a first upper gear 18 which is driven and rotated by the first driving motor 11, and the inner / outer rings 50 and 60 are supported. The support unit 20 is fixed to the ground (G) in close contact with the bottom surface of the outer / outer ring (50,60) and is fixed at a distance from the inner / outer ring (50,60) Grease feeder 30 to apply grease to the inner and outer rings (50, 60) fixed to the ball, and fixed to one side of the inner / outer rings (50, 60) lower side and the inner surface of the inner ring (50) when power is applied It consists of a structure in which the deviation measuring device 40 is formed with a second drive motor 44 fixed to the upper end so that the second upper gear 441 of the meshing gear shape is rotated.

3 and 4 are detailed views of the torque measuring unit 10, the torque measuring unit 10 is driven by a power connection to the first drive motor 11 to generate a rotational force, and the first drive motor ( The first lower gear 13 is rotated by being axially coupled to the lower portion of the first coupling 12 driven by 11). In addition, the second coupling 15 is axially coupled to the vertical upper portion of the second lower gear 14 rotated in engagement with the first lower gear 13, and the lower end is axially coupled to the upper portion of the second coupling 15. And a torque reducer 16 having an upper end axially coupled to the third coupling 17, and a first upper gear 18 axially coupled to the upper portion of the third coupling 17 and engaged with the inner ring 50 to rotate. Is formed.

In particular, the torque reducer 16 measures the torque value of the first upper gear 18 that rotates together with the inner / outer rings 50 and 60 and transmits the measured torque to the computer 161. By notifying the worker M of the torque value that changes according to the state of the ball fixed to the inner / outer rings 50 and 60, the quality is improved by removing the balls having poor quality in advance, as well as inside the inner ring 50. Due to the vertically fixed first upper gear 18, the torque values of the inner / outer rings 50 and 60 can be measured even in a narrow space.

In addition, the support unit 20 supports the bottom of the inner / outer ring (50, 60) but the lower end is fixed to the ground (G), as shown in the support unit 20 plan view of Figure 5, the upper surface formed in two rows The LM guide 23 is fixed by a plurality of bolts, and the support plate 32 fixed on the upper part of the LM block 231, which is inserted into the LM guide 23 and is transferred, is transferred to the inner / outer ring 50 and 60. It is possible to move easily when changing the diameter. In addition, the support unit 20 is fixed after moving the support plate 22 to the diameter of the inner / outer ring (50, 60) by forming a plurality of T-grooves 21 at regular intervals on the upper surface as shown in the detail of FIG. It can be easily fixed using the bolt (24), as shown in the support unit 20 is arranged at intervals of 120 ° to support the inner / outer ring (50, 60), the inner / outer ring (50, 60) Depending on the load and diameter of the plurality of support units 20 may be fixedly installed.

Meanwhile, the grease feeder 30 is operated by an operation button 31 formed at one side, and a pump (not shown) is operated by the operation button 31 to pressurize and store a storage tank 32 containing grease. Grease is discharged through a pipe-shaped outlet 33 formed at one side of the tank 32, and the outlet 33 is connected to one side of the transfer pipe 34 of a synthetic resin material, and the other side of the transfer pipe 34 is in / out. It is connected to a plurality of injection holes 341 formed on the outer circumferential surface of the outer ring 50 and 60, respectively, and grease is applied to the inner / outer ring 50 and 60, and the main hole 341 is 6 to 6 depending on the size of the bearing. 12 are formed.

As shown in Figure 7, the deviation measuring instrument 40 is fixed to a plurality of bolts on the upper surface and the LM guide 41 to which the LM block 411 is inserted and transported is formed in two rows, the outer periphery is formed in the form of threads And a feed shaft 42 having both ends fixed to the fixed block 421 is positioned between the LM guides 41 and between the fixed block 421 when the feed handle 422 formed at one end of the feed shaft 42 rotates. The transport block 423 fixed to is to be linearly moved.

In addition, the LM block 411 and the transfer block 423 is fixed to the top of the rectangular transfer plate 43 is a linear transfer, and fixed to one side of the transfer plate 43 and engaged with the inner ring 50 at the top A second driving motor 44 for fixing the second upper gear 441 to rotate the second upper gear 441 when the power is applied, and a transfer plate 43 spaced apart from the second driving motor 44 by a predetermined distance; The fixed shaft 451 protrudes perpendicularly to the upper portion, and the “b” shaped clamp 45 fixed to one end of the rotating shaft 452 which is fixed at the upper end of the fixed shaft 451 and rotated 360 °, and the clamp 45. In one side, the first and second sensors 46 and 47, which detect the shaking when the torque of the inner / outer rings 50 and 60 are checked, are respectively fixed.

Meanwhile, the torque measuring unit 10 controls the first driving motor 11 and transmits data measured by the torque reducer 16 to the computer 161 and the first and second sensors 46 and 47. The method of detecting the shaking of the inner / outer rings 50 and 60 is a general control method, and a detailed description thereof will be omitted.

Hereinafter, the process of using the large bearing post-processor according to the present invention will be described in detail.

First, a plurality of support units 20 are fixed to the ground G at a predetermined angle so that the bottom surfaces of the inner / outer rings 50 and 60 are supported, and then the LM guides 23 fit the diameters of the inner and outer rings 50 and 60. The fixed bolt 24 is fixed to the T-groove 21 by adjusting the position of the support plate 22 fixed to the LM block 231 to be transferred. When the support plate 22 is fixed in this way, the inner / outer rings 50 and 60 are positioned on the upper surface thereof, and then one side of the inner / outer rings 50 and 60 is supported using bolts (not shown), respectively. It is fixed at.

When one side of the inner / outer ring (50, 60) is fixed to insert the ball inserted into the inner / outer ring (50, 60) according to the size to be fixed, the seal of the synthetic resin material to maintain the airtight with the outside (seal) to seal the inner / outer ring (50, 60), and after fixing the ball is connected to both ends of the feed pipe 34 of the grease feeder 30 to the discharge port 33 and the injection hole 341, respectively When the operation button 31 is operated, grease received in the storage tank 32 by a pump (not shown) is supplied to the inner / outer rings 50 and 60, respectively. Depending on the diameter, the grease pressure is preferably supplied at 50 to 100 kg.

When the grease injection is completed, the first upper gear 18 of the torque measuring unit 10 is engaged with the inner ring 50 of the sawtooth shape (not shown), but the front of the torque measuring unit 10 is not shown. The first upper gear 18 is operated by the operation lever positioned at to rotate one side of the inner / outer ring 50 and 60 in which the ball is inserted to display the primary torque value, which is changed, on the computer 161. It can be detected whether it is rotated or not.

After checking the first torque value, the second upper gear 441 of the deviation measuring instrument 40 is engaged with the inner ring 50 similarly to the first upper gear 18, and the second driving motor 44 is powered by the power supply. When the second upper gear 441 is rotated and the inner / outer rings 50 and 60 in which the ball is inserted are rotated, respectively, the secondary torque value is measured. At this time, by rotating the rotating shaft 452 around the fixed shaft 451 fixed to one side of the transfer plate 43, the first and second sensors 46 and 47 are fixed to the inner and outer rings 50 and 60, respectively. The fixed clamp 45 to detect whether the inner / outer ring rotational radius of the inner and outer rings 50 and 60 is rotated within an error range of 0.4 to 1 mm by the first and second sensors 46 and 47 to detect whether the inner or outer ring rotates in the normal range. It can be determined whether or not defective.

As described above, the large bearing post-processor according to the present invention is uniformly injected with the grease of the grease feeder through a feed pipe connected to a plurality of injection holes respectively formed on the outer circumference of the inner / outer ring, and is rotated by the first motor. The torque value of the inner ring connected to the first upper gear can be displayed on the computer through the torque reducer connected to the first upper gear so that the ball can be detected, and even in a small space, the diameter of 5 m used in the tank, windmill and construction machine After the large bearing is safely supported by the support unit, the torque value of the inner / outer ring can be measured.

In addition, when the second upper gear rotates by rotating inside the inner ring, the first and second sensors fixed at a certain distance apart from the inner / outer ring can be measured to determine whether the ball is defective by measuring the inner and outer ring shake and concentricity. There is another effect of preventing large accidents and casualties that can occur in the field where the bearings are used.

The present invention is not limited to the preferred embodiments of the above features, and those skilled in the art to which the present invention pertains various modifications without departing from the gist of the present invention as claimed in the claims. Of course, such changes are intended to fall within the scope of the claims.

1 is a plan view of a large bearing post-processor according to the present invention

Figure 2 is a side view of a large bearing post-processor according to the present invention

3 to 8 is a detailed view of the large bearing post-processor component according to the present invention

Description of the Related Art [0002]

10: torque measurement unit 11: the first drive motor

12: first coupling 13,14: first and second lower gear

15: second coupling 16: torque reducer

161: computer 17: third coupling

18: first upper gear 20: support unit

21: T groove 22: Support plate

23: LM guide 231: LM block

24: fixing bolt 30: grease supply

31: Operation Button 32: Storage Tank

33: outlet 34: transfer pipe

341: injection hole 40: deviation measuring instrument

41: LM guide 411: LM block

42: feed shaft 421: fixed block

422: transfer handle 423: transfer block

43: transfer plate 44: second drive motor

441: second upper gear 45: clamp

451: fixed shaft 452: rotating shaft

46: first sensor 47: second sensor

50,60: inner ring, outer ring 51,61: hole

Claims (3)

In the large bearing post-processor having an inner / outer ring in which a plurality of balls are inserted through holes formed on the outer circumferential surface by a worker in a donut shape, A first lower gear 13 that is axially coupled to the lower portion of the first coupling 12 that is driven and rotated by the first driving motor 11, and a second lower gear 13 that rotates in engagement with the first lower gear 13; It is coupled to the lower gear 14 and the upper portion of the second coupling 15 which is axially coupled to the second lower gear 14 to measure the rotational speed of the inner and outer rings 50 and 60 and the computer 161. Torque reducer 16 to be transmitted to, and the first upper gear 18 is axially coupled to the third coupling 17 coupled to the torque reducer 16 and rotated in engagement with the inner ring (50). Torque measuring unit 10 is formed; The inner / outer ring (50, 60) is arranged at 120 ° intervals on the bottom so as to support, and is fixed to the upper LM block 231 along the LM guide 23 when changing the diameter of the inner / outer ring (50, 60) A support unit 20 having a support plate 22 to be transferred and a T-groove 21 into which the fixing bolt 24 is inserted to facilitate fixing after the support plate 22 is moved; It is fixed at a certain distance from the inner / outer ring (50, 60), the discharge port 33 for discharging the grease of the storage tank 32 in which grease is stored by the operation button 31, and one side to the discharge port 33 A grease feeder 30 having a feed pipe 34 connected to a plurality of injection holes 341 formed on the outer side of the inner / outer ring 50 and 60 and having the other end connected thereto; The second drive motor 44 is fixed to the inner / outer rings 50 and 60 and has a second upper gear 441 having a gear shape that is engaged with the inner ring 50 and rotated when the power is applied. Large bearing post-processor, characterized in that the deviation measuring device 40 is configured. The method of claim 1, The deviation measuring unit 40 is bolted in two rows on the upper surface and the LM guide 41 is inserted and transported by the LM block 411, and is positioned in the center of the LM guide 41, both ends are fixed to the fixed block 421 And a feed shaft 42 in which the transfer block 423 fixed between the fixed blocks 421 is linearly moved, and the LM block 411 and the transfer block 423 are rotated. A fixed bottom surface is fixed to one end of the transfer plate 43 of the rectangular shape and the rotating shaft 452 vertically fixed to the upper end of the fixed shaft 451 fixed to one side of the transfer plate 43 "b" After the large bearing, characterized in that the magnetic clamp 45 and the first and second sensors 46 and 47 are fixed to one side of the clamp 45 to detect shaking during rotation of the inner / outer rings 50 and 60. Handler. The method of claim 1, The first and second sensors 46 and 47 are large bearing post-processors, characterized in that configured to detect whether the rotation radius of the inner / outer ring (50, 60) is rotated in the error range of 0.4 ~ 1mm.

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