CN207923098U - A kind of measuring device for four-row tapered roller bearing end-play - Google Patents

Abstract

The utility model belongs to bearing axial play field of measuring technique, is related to a kind of measuring device for four-row tapered roller bearing end-play.The device of the utility model is mainly made of adjusting apparatus, inner ring clamping device, outer ring loading device and measuring device for windage.Position of the utility model by adjusting screw thread guide rod relative to pilot sleeve, realize the clamping to different inner rings, the load to different lines roller is realized by loading device, the end-play of former four-row tapered roller bearing is measured the end-play that ingenious equivalent conversion is three groups of double-row conical bearings to measure, measurement method is simple, it is easy to operate, when avoiding roller self-locking, measuring without overturning, it can be realized by automation equipment, greatly improve measurement efficiency and measurement accuracy.

Description

A kind of measuring device for four-row tapered roller bearing end-play

Technical field

The utility model belongs to bearing axial play field of measuring technique, is related to a kind of for four-row tapered roller bearing axis To the measurement method and measuring device of clearance, it to be used for the measurement of four-row tapered roller bearing end-play.

Background technology

Four-row tapered roller bearing is complicated, and component part is more, for a long time, usually to the measurement of its end-play Using traditional whole mensuration or seperated mensuration, by manually being measured by tools such as clearance gauges.

But whole mensuration and seperated mensuration exist compared with big limitation, whole mensuration, in measurement, due to gravity Effect, there are roller big end and inner ring large-flange not contact phenomenas, thus cause measurement result bigger than normal, seperated mensuration is being surveyed It needs repeatedly to overturn bearing during amount, easily measured bearing is caused to damage, both traditional measurement methods have labor The shortcomings of fatigue resistance is big, measurement result precision is low, measurement efficiency is low.

The utility model proposes that one kind is novel, easily measures on the basis of two kinds of traditional measurement methods of comprehensive analysis Method and measuring device are not required to overturn bearing, realize and are rolled to four row circular cones by sensor by simple tooling The efficient measurement of sub- bearing axial play, simplifies measurement process, reduces labor intensity, improves the automation journey of measurement Degree, substantially increases measurement efficiency and measurement accuracy.The utility model is used for the measurement of four-row tapered roller bearing end-play, The end-play that can be used for other bearings such as double-row conical bearing simultaneously measures.

Utility model content

In view of the problems of the existing technology, the utility model provides a kind of for four-row tapered roller bearing end-play Measurement method and measuring device, mainly solve that four-row tapered roller bearing end-play measurement process is complicated, and labor intensity is big, The problems such as measurement efficiency is low, and measurement accuracy is poor.Four-row tapered roller bearing is equivalent to three by the utility model by adjusting component Group double-row conical bearing is realized by measuring and controlling the end-play of three groups of double-row conical bearings to original four The measurement and control of the end-play of row tapered roller bearing, and to this three groups of equivalent axial clearance of double-row conical bearing Measurement, realized in axial dominant bit in-migration with respect to inner ring using outer ring is measured.

The technical solution adopted in the utility model is：

A kind of measuring device for four-row tapered roller bearing end-play, the measuring device include that adjustment fills It sets, inner ring clamping device, outer ring loading device and measuring device for windage.

The adjusting apparatus is centered on cone spacer 6, structure symmetrical above and below, including upper end inner ring 5, lower end inner ring 7, on Hold outer ring spacer 9, lower end outer ring spacer 11, cone spacer 6, outer ring with double raceway 10, upper end list raceway outer ring 8, lower end list raceway outer ring 12, Adjust threaded rod 15 and pilot sleeve 16.The cone spacer 6 between upper end inner ring 5 and lower end inner ring 7, cone spacer 6 Centre is provided with circular hole, and the Circularhole diameter of cone spacer 6 is less than the interior diameter of upper end inner ring 5 and lower end inner ring 7.Described first Row roller 1 and secondary series roller 2 are mounted on the outside of upper end inner ring 5, first row roller 1 and the setting of 2 joint of secondary series roller Upper end outer ring spacer 9；The third row roller 3, the 4th row roller 4 are mounted on the outside of lower end inner ring 7, third row roller 3, the Lower end outer ring spacer 11 is arranged in four row rollers, 4 joint；It is socketed outer ring with double raceway between upper end outer ring spacer 9 and lower end outer ring spacer 11 10, outer ring spacer 9 top in upper end is socketed upper end list raceway outer ring 8, and outer ring spacer 11 lower section in lower end is socketed lower end list raceway outer ring 12.Institute The thickness of the upper end outer ring spacer 9, lower end outer ring spacer 11 stated is according to the selection of dimension of measured bearing, outside upper end outer ring spacer 9 and lower end The thickness of spacer ring 11 is identical, and the thickness of upper end inner ring 5 and lower end inner ring 7 is more than the thickness of upper end outer ring spacer 9 and lower end outer ring spacer 11 Degree.The pilot sleeve 16 is arranged at 6 center hole of cone spacer, and inner wall is equipped with screw thread；The threaded adjusting bar 15 is logical It crosses and is screwed in pilot sleeve 16, pass through axially opposing mobile realization position adjustment effect；The adjustment screw thread Bar 15 includes disk and threaded rod, and upper surface disk end face 15-1, lower face is screw thread end face 15-2.

The inner ring clamping device includes lower lock block 14 and upper holder block 17, and upper holder block 17 is by outer circumference surface in bearing Draw a circle to approve position；The upper holder block 14 is mounted in rack, and lower lock block 17 is connect with the cylinder of rack, and flexible push of cylinder rod pushes The face clamping to bearing inner race is realized in the axial lifting of block 17, while combining regulating device, is realized to different location (inner ring) Clamping.

The outer ring loading device includes lower loaded ring 13 and upper loaded ring 18；The lower load of the external load cylinder in upper end Ring 13 is coaxial with lower lock block 14, it can be achieved that axial relative movement, and each autokinesis is not interfere with each other independently, equally, lower end it is external plus The upper loaded ring 18 of carrier gas cylinder is coaxial with upper holder block 17, it can be achieved that axial relative movement, each autokinesis are not interfere with each other independently.

The measuring device for windage includes displacement sensor a19 and displacement sensor b20；Two displacement sensors or so It is symmetrically mounted in rack, rack is measuring basis at this time, since inner ring is pressed in rack, therefore is realized indirectly using inner ring as base Standard, meanwhile, two displacement sensor contact bearing outer rings are realized while measuring the clearance feelings at an end positions diametrically Condition.

A kind of measurement method for four-row tapered roller bearing end-play, it is real which is based on measuring device Existing, measuring device includes adjusting apparatus, inner ring clamping device, outer ring loading device, measuring device for windage, is realized in bearing difference After position clamps inner ring and rotates, by loading device so that outer ring integrally moves in the axial direction, in tangent displacement sensor The axial maximum displacement of outer ring is measured under effect, and then obtains the clearance between three group of two row tapered roller, three group of two row circular cone Clearance between roller is the end-play of four-row tapered roller bearing, measures the clearance method tool between three group of two row tapered roller Body includes the following steps：

(1) clearance between first row roller 1 and secondary series roller 2 is measured

The first step, adjustment process：Adjusting adjustment threaded rod 15 is moved downward to the bottom position relative to pilot sleeve 16 It sets, adjusts the upper surface that threaded rod disk end face 15-1 is less than upper end inner ring 5 at this time, adjustment threaded rod screw thread end face 15-2 is under Briquetting 14 contacts, and lifts upper end inner ring 5 by cone spacer 6.

Second step clamps：Upper holder block 17 declines in the case where load cylinder drives, and contacts and compress the upper surface of upper end inner ring 5, Adjustment threaded rod 15 is set to be pressed on lower lock block 14 by adjusting cone spacer 6, upper end inner ring 6 is clamped at this time, 7 axis of lower end inner ring To freedom.After clamping inner ring, the contact of displacement sensor a19 and displacement sensor b20 is adjusted to upper end list raceway outer ring 8 Upper surface.

Third walks, load：After clamping upper end inner ring 5, upper loaded ring 18 connects in the drive lower axle of load cylinder to dropping to The upper surface of upper end list raceway outer ring 8 is touched, and to its downward on-load pressure, first row rolling is compressed for upper end list raceway outer ring 8 Son 1,1 big end of first row roller is adjacent at the upside large-flange of upper end inner ring 5；It unloads upper end and loads cylinder, upper loaded ring 18 It retracts, lower loaded ring 13 axis under the action of lower end loads cylinder moves upwardly into the lower face of contact lower end list raceway outer ring 12, And to its upward on-load pressure, outer ring with double raceway 10 is compressed second by lower end outer ring spacer 11 for lower end list raceway outer ring 12 The big end of row roller 2 is adjacent at the downside large-flange of upper end inner ring 5.Wherein, the size of loading force is conducted oneself with dignity according to bearing and is determined, Take 30%~50% that bearing is conducted oneself with dignity；After measurement, unloading lower end loads cylinder, and lower loaded ring 13 is retracted.

(2) clearance between secondary series roller 2 and third row roller 3 is measured

The first step, adjustment process：Adjustment threaded rod 15 is adjusted to move up from the lowest positions relative to pilot sleeve 16, on It moves distance to be determined according to measured bearing size, adjusts the upper surface that threaded rod disk end face 15-1 is less than upper end inner ring 5 at this time, together When adjustment threaded rod screw thread end face 15-2 disengaged with lower lock block 14.

Second step, clamping：Upper holder block 17 declines in the case where load cylinder drives, and contacts and compress the upper surface of upper end inner ring 5, Lower end inner ring 7 is set to be pressed on lower lock block 14 by adjusting cone spacer 6, upper end inner ring 5, cone spacer 6 and lower end inner ring 7 are same at this time When be clamped；After clamping inner ring, outside the contact to upper end list raceway of adjusting displacement sensor a19 and displacement sensor b20 The upper surface of circle 8.

Third step, load：After clamping upper end inner ring 5 and lower end inner ring 7, upper end loaded ring 18 is under the drive of load cylinder The upper surface of contact upper end list raceway outer ring 8 is axially dropped to, and to its downward on-load pressure, is used for upper end list raceway outer ring 8 It is adjacent to the upper side in lower end inner ring 7 by the big end for driving upper end outer ring spacer 9 and outer ring with double raceway 10 to compress third row roller 3 At large-flange；It unloads upper end and loads cylinder, upper loaded ring 18 is retracted, and lower loaded ring 13 is axial under the action of lower end loads cylinder On move to the lower face of contact lower end list raceway outer ring 12, it is logical for lower end list raceway outer ring 12 and to its upward on-load pressure It crosses and drives lower end outer ring spacer 11, the big end of the compression secondary series of outer ring with double raceway 10 roller 2 is adjacent to and is kept off greatly in the downside of upper end inner ring 5 At side.Wherein, the size of loading force is conducted oneself with dignity according to bearing and is determined, takes 30%~50% that bearing is conducted oneself with dignity.

(3) clearance between third row roller 3 and the 4th row roller 4 is measured

The first step, adjustment process：Continue adjust adjustment threaded rod 15 moved up relative to the position of pilot sleeve 16, move up away from It is determined according to the boss thickness of measured bearing size and upper holder block 17 from size, it is slightly lower to adjust threaded rod disk end face 15-1 at this time In the upper surface of upper end inner ring 5, while adjusting threaded rod screw thread end face 15-2 and being disengaged with lower lock block 14.

Second step, clamping：Upper holder block 17 declines in the case where load cylinder drives, and contacts and compress the disk of adjustment threaded rod 15 Lower end inner ring 7 is pressed on lower lock block 14 by end face 15-1 by pilot sleeve 16, cone spacer 6, and upper end inner ring 5 is axial at this time Freely；After clamping lower end inner ring 7, outside the contact to upper end list raceway of adjusting displacement sensor a19 and displacement sensor b20 The upper surface of circle 8.

Third step, loading effect：After clamping lower end inner ring 7, upper loaded ring 18 load cylinder drive lower axle to decline To the upper surface of contact upper end list raceway outer ring 8, and to its downward on-load pressure, pass through drive for upper end list raceway outer ring 8 Upper end outer ring spacer 9 and outer ring with double raceway 10 decline, and the big end of compression third row roller 3 is adjacent to keeps off greatly in the upside of lower end inner ring 7 At side；Unload upper end and load cylinder, upper loaded ring 18 retracts, lower loaded ring 13 under the action of lower end loads cylinder axially upwards It is moved to the lower face of contact lower end list raceway outer ring 12, and to its upward on-load pressure, is pressed for lower end list raceway outer ring 12 The big end of tight 4th row roller 4 is adjacent at the downside large-flange of lower end inner ring 7.Wherein, the size of loading force according to bearing from It determines again, takes 30%~50% that bearing is conducted oneself with dignity；After measurement, lower end loading force is unloaded, lower loaded ring 13 is retracted.

The utility model advantageous effect is：Position by adjusting screw thread guide rod relative to pilot sleeve is realized to not With the clamping of inner ring, the load to different lines roller is realized by loading device, by the axial play of former four-row tapered roller bearing Gap measures the end-play that ingenious equivalent conversion is three groups of double-row conical bearings and measures, measurement method is simple, it is easy to operate, keep away Without overturning when having exempted from roller self-locking, having measured, it can be realized by automation equipment, greatly improve measurement efficiency and measurement accuracy.

Description of the drawings

Fig. 1 is the utility model equipped with four-row tapered roller bearing schematic diagram of the test after inside and outside spacer ring.

Fig. 2 is four-row tapered roller bearing device for measuring axial clearance overall schematic.

Fig. 3 is the principal diagram intention that the utility model measures clearance between secondary series roller 2 and third row roller 3.(a) Third row roller stand under load schematic diagram when to apply downward loading force；(b) it is that secondary series roller stand under load shows when applying upward loading force It is intended to；

In figure：1 first row roller；2 secondary series rollers；3 third row rollers；4 the 4th row rollers；5 upper end inner rings；In 6 every Circle；7 lower end inner rings；8 upper ends list raceway outer ring；9 upper end outer ring spacers；10 outer ring with double raceways；11 lower end outer ring spacers；It singly rolls 12 lower ends Road outer ring；13 times loaded rings；14 lower lock blocks；15 adjustment threaded rods；15-1 disks end face；15-2 screw threads end face；16 pilot sleeves； 17 upper holder blocks；Loaded ring on 18；19 displacement sensor a；20 displacement sensor b.

Specific implementation mode

Below in conjunction with attached drawing and technical solution, specific embodiment of the present utility model is further illustrated.

A kind of measuring device for four-row tapered roller bearing end-play, the measuring device include that adjustment fills It sets, inner ring clamping device, outer ring loading device and measuring device for windage.

The adjusting apparatus is centered on cone spacer 6, structure symmetrical above and below.During upper end inner ring 5 is formed with lower end inner ring 7 Hollow structure, for cone spacer 6 between upper end inner ring 5 and lower end inner ring 7, the centre of cone spacer 6 is provided with circular hole, cone spacer 6 Circularhole diameter be less than upper end inner ring 5 and lower end inner ring 7 interior diameter.The first row roller 1 and secondary series roller 2 are installed Upper end outer ring spacer 9 is arranged in the outside of inner ring 5 in upper end, first row roller 1 and 2 joint of secondary series roller；The third row Roller 3, the 4th row roller 4 are mounted on the outside of lower end inner ring 7, and lower end is arranged in third row roller 3,4 joint of the 4th row roller Outer ring spacer 11；Outer ring with double raceway is socketed between upper end outer ring spacer 9 and lower end outer ring spacer 11, outer ring spacer 9 top in upper end is socketed upper end Single raceway outer ring, 11 lower section of lower end outer ring spacer are socketed lower end list raceway outer ring 12.The upper end outer ring spacer 9, lower end outer ring spacer 11 thickness is according to the selection of dimension of measured bearing, and upper end outer ring spacer 9 is identical with the thickness of lower end outer ring spacer 11, upper end inner ring 5 It is more than the thickness of upper end outer ring spacer 9 and lower end outer ring spacer 11 with the thickness of lower end inner ring 7.Including the pilot sleeve 16 is arranged At 6 center hole of spacer ring, inner wall is equipped with screw thread；The threaded adjusting bar 15 is threadably secured mounted on pilot sleeve 16 It is interior, pass through axially opposing mobile realization position adjustment effect；The adjustment threaded rod 15 includes disk and threaded rod, upper surface Disk end face 15-1, lower face are screw thread end face 15-2.The inner ring clamping device includes lower lock block 14 and upper holder block 17, on Briquetting 17 positions bearing inner race by outer circumference surface；The upper holder block 14 is mounted in rack, lower lock block 17 and rack Cylinder connects.The outer ring loading device includes lower loaded ring 13 and upper loaded ring 18；Lower the adding of the external load cylinder in upper end It is coaxial with lower lock block 14, it can be achieved that axial relative movement to carry ring 13, and each autokinesis is not interfere with each other independently, equally, lower end is external Upper loaded ring 18 and the upper holder block 17 for loading cylinder are coaxial.The measuring device for windage includes displacement sensor a19 and displacement Sensor b20；Two displacement sensors or so are to being mounted in rack.

The measuring device of a kind of measurement method for four-row tapered roller bearing end-play, the utility model passes through folder Tight inner ring measures outer ring with respect to inner ring displacement distance, thus to obtain its axial play after the axial load of outer ring plus both direction Gap.Specific measurement method is as follows, adjusts 15 position of adjustment threaded rod and is displaced downwardly to the lowest positions relative to pilot sleeve 16, this When upper holder block 17 decline, contact upper end inner ring 5 upper surface, pass through cone spacer 6, pilot sleeve 16, adjust adjustment threaded rod 15 Upper end inner ring 5 is lifted and is clamped on lower lock block 14, upper end load cylinder drives upper loaded ring 18 to drop to contact upper end and singly rolls 8 upper surface of road outer ring, drives its compression first row roller 1 to be adjacent to the upside large-flange in upper end inner ring 5, and unloading upper end loads gas After cylinder, upper loaded ring 18 is retracted, and lower end load cylinder drives lower loaded ring 13 to rise under contact lower end list raceway outer ring 12 End face drives it to move up and compresses secondary series roller 2 and be adjacent to downside large-flange in upper end inner ring 5, and sensor measurement obtains data and is Clearance between first row roller 1 and secondary series roller 2, lower end load cylinder unloading, and lower loaded ring 13 is retracted.

Adjusting adjustment threaded rod 15 is oppositely oriented sleeve 16 and moves up certain distance, at this point, upper holder block 17 declines, contacts upper end The upper surface of inner ring 5 is clamped in by cone spacer 6, lower end inner ring 7 on lower lock block 14, and upper end loads cylinder and drives upper loaded ring 18 drop-out values drive it to decline the third row roller 3 compressed and are adjacent in lower end to the upper surface for contacting upper end list raceway outer ring 8 The upside large-flange of circle 7, unloading upper end load cylinder, and upper loaded ring 18 is retracted, and lower end loads cylinder and drives on lower loaded ring 13 The lower face for rising to contact lower end list raceway outer ring 12 drives it to move up compression secondary series roller 2 and is adjacent under upper end inner ring 5 Side large-flange, it is the clearance between secondary series roller 2 and third row roller 3 that sensor measurement, which obtains data, and lower end loads cylinder Unloading, lower loaded ring 13 are retracted.

It adjusts adjustment threaded rod 15 and continues to be oppositely oriented sleeve 16 and move up certain distance, at this point, upper holder block 17 declines contact The disk end face 15-1 for adjusting adjustment threaded rod 15, lower lock block is clamped in by pilot sleeve 16, cone spacer 6 by lower end inner ring 7 On 14, upper end load cylinder drives upper loaded ring 18 to drop to the upper surface of contact upper end list raceway outer ring 8, drives and is depressured under it Tight third row roller 3 is adjacent to the upside large-flange in lower end inner ring 7, and unloading upper end loads cylinder, and upper loaded ring 18 is retracted, under End load cylinder drives lower loaded ring 13 to rise to the lower face of contact lower end list raceway outer ring 12, it is driven to move up compression the 4th Row roller 4 is adjacent to the downside large-flange in lower end inner ring 7, and it is the row rolling of third row roller 3 and the 4th that sensor measurement, which obtains data, Clearance between son 4, lower end load cylinder unloading, and lower loaded ring 13 is retracted.

It is the detailed process that the measurement method surveys three groups of clearance of conical bearing above.

Claims (1)

1. a kind of measuring device for four-row tapered roller bearing end-play, which is characterized in that the measuring device packet Include adjusting apparatus, inner ring clamping device, outer ring loading device and measuring device for windage；

The adjusting apparatus is centered on cone spacer (6), structure symmetrical above and below, including upper end inner ring (5), lower end inner ring (7), Upper end outer ring spacer (9), lower end outer ring spacer (11), cone spacer (6), outer ring with double raceway (10), upper end list raceway outer ring (8), lower end Single raceway outer ring (12), adjustment threaded rod (15) and pilot sleeve (16)；The cone spacer (6) be located at upper end inner ring (5) and Between lower end inner ring (7), the centre of cone spacer (6) is provided with circular hole, and the Circularhole diameter of cone spacer (6) is less than upper end inner ring (5) and the interior diameter of lower end inner ring (7)；First row roller (1) and secondary series rolling are installed on the outside of the upper end inner ring (5) Sub (2), first row roller (1) and secondary series roller (2) joint setting upper end outer ring spacer (9)；The lower end inner ring (7) Outside is equipped with third row roller (3), the 4th row roller (4), under third row roller (3), the setting of the 4th row roller (4) joint Hold outer ring spacer (11)；Outer ring with double raceway (10), upper end outer ring spacer are socketed between upper end outer ring spacer (9) and lower end outer ring spacer (11) (9) top is socketed upper end list raceway outer ring (8), and lower end list raceway outer ring (12) are socketed below lower end outer ring spacer (11)；Described Upper end outer ring spacer (9), lower end outer ring spacer (11) thickness according to the selection of dimension of measured bearing, upper end outer ring spacer (9) and lower end The thickness of outer ring spacer (11) is identical, and the thickness of upper end inner ring (5) and lower end inner ring (7) is more than outside upper end outer ring spacer (9) and lower end The thickness of spacer ring (11)；The pilot sleeve (16) is arranged at cone spacer (6) center hole, and inner wall is equipped with screw thread；Adjustment Threaded rod (15) is fixedly mounted in pilot sleeve (16), passes through axially opposing mobile realization position adjustment effect；

The inner ring clamping device includes lower lock block (14) and upper holder block (17), and upper holder block (17) is mounted in rack, passes through Outer circumference surface positions bearing inner race, and lower lock block (14) is connect with the cylinder of rack, the flexible promotion lower lock block (14) of cylinder rod The face clamping to bearing inner race is realized in axial lifting, while combining regulating device, realizes the clamping to different location；

The outer ring loading device includes lower loaded ring (13) and upper loaded ring (18)；The lower load of the external load cylinder in upper end Ring (13) coaxially, realizes axial relative movement, and each autokinesis is not interfere with each other independently, equally, lower end is external with lower lock block (14) The upper loaded ring (18) of load cylinder coaxially, realizes that axial relative movement, each autokinesis are not interfere with each other independently with upper holder block (17)；

The measuring device for windage includes displacement sensor a (19) and displacement sensor b (20)；Two displacement sensors or so It is symmetrically mounted in rack, while a both ends position diametrically is realized while being measured in two displacement sensor contact bearing outer rings Set the clearance situation at place.