CN106248042B - A kind of spindle-less lasso percent ripple instrument - Google Patents
A kind of spindle-less lasso percent ripple instrument Download PDFInfo
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- CN106248042B CN106248042B CN201610639465.0A CN201610639465A CN106248042B CN 106248042 B CN106248042 B CN 106248042B CN 201610639465 A CN201610639465 A CN 201610639465A CN 106248042 B CN106248042 B CN 106248042B
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- fixed
- connecting plate
- spindle
- plate
- cylinder
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B21/00—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant
- G01B21/30—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring roughness or irregularity of surfaces
Abstract
A kind of spindle-less lasso percent ripple instrument, it includes platform, measuring device and spindle-less high-precision positioner, correction mandrel is inserted in inner hole of spindle, main shaft starting, clamp shaft looks for the heart along spiral of Archimedes track automatically, is taken down after centering, and pressing plate is fixed on the upper surface of connecting rod with soket head cap screw, tested lasso is placed on positioning disk, can measure the lasso of any specification.The 5th cylinder pulls down when measurement, measures inner ring or main shaft rotation clamp shaft is fixed when outer ring, and sensor stretches out, and pinion gear is detached from positioning disk by the 4th cylinders retract when operation, and the 4th cylinder stretches out the rotation of third cylinder after measurement, and positioning disk is locked.Measured bearing is placed on positioning disk, can measure any different specification bearing internal external circle, when measurement does not have to replacement mandrel, can complete the measurement of bearing internal external circle, can guarantee the rotating accuracy of bearing, and solving that no replacement is required, mandrel is i.e. measurable.
Description
Technical field
The present invention relates to a kind of spindle-less lasso percent ripple instrument vibration measurement method and device, in particular in a kind of bearing
Mandrel measuring device that the quick positioning and clamping in outer ring can be solved that no replacement is required.
Background technique
The general every kind of specification of percent ripple detection of bearing internal external circle is surveyed using measuring after a mandrel positioning by bearing at present
Standard requirements are measured, every bearing no replacement is required mandrel can measure the percent ripple quality that maximum value carries out evaluation bearing, the present invention
Spindle-less lasso percent ripple uses a sensor measurement as shown in Figure 1, and mandrel that no replacement is required completes percent ripple measurement, the present invention
Spindle-less lasso percent ripple instrument, while forming 3 groups using 5 cylinders, every two groups of reset condition is to stretch out while contracting simultaneously
It returns, the method that the structure that another group of stretching retracts completes bearing centering and measurement, solving that no replacement is required, mandrel can complete survey
The method of amount, spindle-less lasso percent ripple instrument of the invention look for heart clamping and measuring device using a kind of automatic positioning of bearing simultaneously
Match the high index of the utilization rate of the various bearing internal external circles of completion.Spindle-less lasso percent ripple instrument of the invention uses simultaneously
The characteristics of eccentric is prevented when a kind of locking cylinder solves bearing measuring, almost the bearing of various Internal and external cycle specifications all can be real
The measurement request of existing percent ripple, completing spindle-less can measure, and be compared with the traditional method, it is a large amount of save the replacement mandrel times and
Huge mandrel processing charges and mandrel administration fee.
Summary of the invention
Present invention mainly solves the method for no replacement is required mandrel, self-centering detection, returning when not only reached measurement
Turn precision, also saves the replacement mandrel time, and improve work efficiency.
Technical solution of the present invention:
A kind of spindle-less lasso percent ripple instrument includes platform 1, measuring device 2 and spindle-less high-precision positioner 3;
Measuring device 2:Two fixed plates 4 are fixed on the platform 1, and support column 5 is fixed by fixed plate 4, and the first connecting plate 6 connects
It connects and is fixed on two support columns 5;First guide rail 7 is fixed on the first connecting plate 6, and the first sliding block 8 is fixed in the first guide rail 7
On;One end face of fixed connecting plate 28 is fixed on the first sliding block 8, and other end is for fixing the first cylinder 9;T-type sliding sleeve 27
It is connected to the front end on 9 first cylinders, T-shaped slide rail 22 is connected on 27T type sliding sleeve, and the 5th connecting plate 26 is fixed on T-type sliding sleeve
27 one end;Second guide sleeve 25 is through in the hole of the 5th connecting plate 26, and the second lead screw 23 is through the second guide sleeve 25, and second
Hand button 24 is connected to the tail end of the second lead screw 23;Second cylinder 21 is fixed in T-shaped slide rail 22, and the 4th connecting plate 20 is connected to
It on two cylinders 21, and is fixed on third connecting plate 19, third connecting plate 19 is vertically connected on the second connecting plate 15;First leads
In the hole for passing through the second connecting plate 15 to set 13, for the first lead screw 17 through the first guide sleeve 13, first-hand button 14 is fixed on the
On one lead screw 17;Second guide rail, 18 1 end face is fixed on third connecting plate 19, and other end is fixed on the 2nd sliding block 16;L connects
Fishplate bar 12 is fixed on the second guide rail 18, and corner fixed plate 10 is fixed on L connecting plate 12, and sensor 11 is fixed on corner and fixes
On plate 10;
Spindle-less high-precision positioner 3:Main shaft 44 is fixed on 1 lower end surface of platform, and master 36 is through on 44 main shafts;Three
6th guide rail 35 is fixed on 36 masters, at 120 ° between three;Precision axis 32 is through in bearing connecting rod 33, integrally through positioning
It in the hole of disk 46, and is fixed on the 6th connecting plate 34, the 6th connecting plate 34 is connected on the sliding block of the 6th guide rail 35;Connecting rod 41
It is applied in the inner hole of main shaft 44;Fixed plate 42 is fixed on one end of 44 belt pulley of main shaft, and the 5th cylinder 43 is fixed on fixed plate
On 42;Then the centre bore that correction mandrel 31 passes through positioning disk 46 removes correction mandrel for correcting the position of 32 clamp shafts
31, pressing plate 29 is installed and is fixed on connecting rod 41, is locked by soket head cap screw 30;One end of third guide rail 40 is fixed on platform
On 1, the other end is fixed on the 7th connecting plate 39;4th cylinder, 38 one end is fixed on the platform 1, and the other end is fixed on the 7th company
On fishplate bar 39;37 one end of third cylinder is fixed on the 7th connecting plate 39, and the other end is fixed in pinion gear 45, pinion gear 45 with
Positioning disk 46 is engaged.
Beneficial effects of the present invention:Measured bearing is placed on positioning disk, can measure any different specification bearing internal external
Circle does not have to replacement mandrel when measurement, can complete the measurement of bearing internal external circle, can guarantee the rotating accuracy of bearing, solve nothing
Needing to change mandrel can measure.
Detailed description of the invention
Fig. 1 is the overall schematic of spindle-less lasso percent ripple instrument of the present invention.
Fig. 2 is spindle-less lasso percent ripple instrument measuring device perspective view of the present invention.
Fig. 3 is spindle-less lasso percent ripple instrument measuring device main view of the present invention.
Fig. 4 is spindle-less lasso percent ripple instrument spindle-less high-precision positioner main view of the present invention.
Fig. 5 is spindle-less lasso percent ripple instrument spindle-less high-precision positioner top view of the present invention.
In figure:1 platform;2 measuring devices;3 spindle-less high-precision positioners;4 fixed plates;5 support columns;6 first connections
Plate;7 first guide rails;8 first sliding blocks;9 first cylinders;10 corner fixed plates;11 sensors;12L connecting plate;13 first guiding
Set;14 first-hand buttons;15 second connecting plates;16 the 2nd sliding blocks;17 first lead screws;18 second guide rails;19 third connecting plates;20
Four connecting plates;21 second cylinders;22T type sliding rail;23 second lead screws;24 second-hand's buttons;25 second guide sleeves;26 the 5th connections
Plate;27T type sliding sleeve;28 fixed connecting plates;29 pressing plates;30 soket head cap screws;31 correction mandrels;32 precision axis;The connection of 33 bearings
Bar;34 the 6th connecting plates;35 the 6th guide rails;36 masters;37 third cylinders;38 the 4th cylinders;39 the 7th connecting plates;40 thirds are led
Rail;41 connecting rods;42 fixed plates;43 the 5th cylinders;44 main shafts;45 pinion gears;46 positioning disks.
Specific embodiment
Below in conjunction with technical solution and Figure of description, a specific embodiment of the invention is further illustrated.
Embodiment
A kind of spindle-less lasso percent ripple instrument includes platform 1, measuring device 2 and spindle-less high-precision positioner 3;
Measuring device 2:Two fixed plates 4 are fixed on the platform 1, and support column 5 is fixed by fixed plate 4, and the first connecting plate 6 connects
It connects and is fixed on two support columns 5;First guide rail 7 is fixed on the first connecting plate 6, and the first sliding block 8 is fixed in the first guide rail 7
On;One end face of fixed connecting plate 28 is fixed on the first sliding block 8, and other end is for fixing the first cylinder 9;T-type sliding sleeve 27
It is connected to the front end on 9 first cylinders, T-shaped slide rail 22 is connected on 27T type sliding sleeve, and the 5th connecting plate 26 is fixed on T-type sliding sleeve
27 one end;Second guide sleeve 25 is through in the hole of the 5th connecting plate 26, and the second lead screw 23 is through the second guide sleeve 25, and second
Hand button 24 is connected to the tail end of the second lead screw 23;Second cylinder 21 is fixed in T-shaped slide rail 22, and the 4th connecting plate 20 is connected to
It on two cylinders 21, and is fixed on third connecting plate 19, third connecting plate 19 is vertically connected on the second connecting plate 15;First leads
In the hole for passing through the second connecting plate 15 to set 13, for the first lead screw 17 through the first guide sleeve 13, first-hand button 14 is fixed on the
On one lead screw 17;Second guide rail, 18 1 end face is fixed on third connecting plate 19, and other end is fixed on the 2nd sliding block 16;L connects
Fishplate bar 12 is fixed on the second guide rail 18, and corner fixed plate 10 is fixed on L connecting plate 12, and sensor 11 is fixed on corner and fixes
On plate 10;
Spindle-less high-precision positioner 3:Main shaft 44 is fixed on 1 lower end surface of platform, and master 36 is through on 44 main shafts;Three
6th guide rail 35 is fixed on 36 masters, at 120 ° between three;Precision axis 32 is through in bearing connecting rod 33, integrally through positioning
It in the hole of disk 46, and is fixed on the 6th connecting plate 34, the 6th connecting plate 34 is connected on the sliding block of the 6th guide rail 35;Connecting rod 41
It is applied in the inner hole of main shaft 44;Fixed plate 42 is fixed on one end of 44 belt pulley of main shaft, and the 5th cylinder 43 is fixed on fixed plate
On 42;Then the centre bore that correction mandrel 31 passes through positioning disk 46 removes correction mandrel for correcting the position of 32 clamp shafts
31, pressing plate 29 is installed and is fixed on connecting rod 41, is locked by soket head cap screw 30;One end of third guide rail 40 is fixed on platform
On 1, the other end is fixed on the 7th connecting plate 39;4th cylinder, 38 one end is fixed on the platform 1, and the other end is fixed on the 7th company
On fishplate bar 39;37 one end of third cylinder is fixed on the 7th connecting plate 39, and the other end is fixed in pinion gear 45, pinion gear 45 with
Positioning disk 46 is engaged.
Correction mandrel is inserted in inner hole of spindle, main shaft starting, precision axis 32 is looked for automatically along spiral of Archimedes track
The heart is taken down after centering, and pressing plate 29 is fixed on the upper surface of connecting rod 41 with soket head cap screw, tested lasso is placed on positioning
On disk 46, the lasso of any specification can measure.The 5th cylinder pulls down when measurement, and main shaft rotates clamp shaft when measuring inner ring or outer ring
It is fixed, sensor stretches out, and pinion gear is detached from positioning disk by the 4th cylinders retract when operation, and the 4th cylinder is stretched after measurement
Third cylinder rotates out, and positioning disk is locked.
Claims (1)
1. a kind of spindle-less lasso percent ripple instrument, which is characterized in that the spindle-less lasso percent ripple instrument includes platform (1), measurement
Device (2) and spindle-less high-precision positioner (3);
Measuring device (2):Two fixed plates (4) are fixed on platform (1), and support column (5) is fixed by fixed plate (4), and first connects
Fishplate bar (6) is connected and fixed on two support columns (5);First guide rail (7) is fixed on the first connecting plate (6), the first sliding block (8)
It fixes on the first guide rail (7);One end face of fixed connecting plate (28) is fixed on the first sliding block (8), and other end is for solid
Fixed first cylinder (9);T-type sliding sleeve (27) is connected on the first cylinder (9), and T-shaped slide rail (22) is connected on T-type sliding sleeve (27),
5th connecting plate (26) is fixed on T-type sliding sleeve (27) one end;Second guide sleeve (25) through in the hole of the 5th connecting plate (26),
Second lead screw (23) is connected to the tail end of the second lead screw (23) through the second guide sleeve (25), second-hand's button (24);Second gas
Cylinder (21) is fixed on T-shaped slide rail (22), and the 4th connecting plate (20) is connected on the second cylinder (21), and is fixed on third connection
On plate (19), third connecting plate (19) is vertically connected on the second connecting plate (15);First guide sleeve (13) passes through the second connection
In the hole of plate (15), the first lead screw (17) is fixed on the first lead screw (17) through the first guide sleeve (13), first-hand button (14)
On;(18) one end face of second guide rail is fixed on third connecting plate (19), and other end is fixed on the second sliding block (16);L connects
Fishplate bar (12) is fixed on the second guide rail (18), and corner fixed plate (10) is fixed on L connecting plate (12), and sensor (11) is fixed
On corner fixed plate (10);
Spindle-less high-precision positioner (3):Main shaft (44) is fixed on platform (1) lower end surface, and master (36) is through main shaft (44)
On;Three the 6th guide rails (35) are fixed on master (36), at 120 ° between three;Precision axis (32) is through bearing connecting rod (33)
On, it integrally through in the hole of positioning disk (46), and is fixed on the 6th connecting plate (34), the 6th connecting plate (34) is connected to the 6th
On the sliding block of guide rail (35);Connecting rod (41) is applied in the inner hole of main shaft (44);Fixed plate (42) is fixed on main shaft (44) belt
One end of wheel, the 5th cylinder (43) are fixed on fixed plate (42);The centre bore that mandrel (31) pass through positioning disk (46) is corrected, is used
In the position of correction accuracy axis (32), correction mandrel (31) is then removed, pressing plate (29) are installed and is fixed on connecting rod (41), is led to
Cross soket head cap screw (30) locking;One end of third guide rail (40) is fixed on platform (1), and the other end is fixed on the 7th connecting plate
(39) on;4th cylinder (38) one end is fixed on platform (1), and the other end is fixed on the 7th connecting plate (39);Third cylinder
(37) one end is fixed on the 7th connecting plate (39), and the other end is fixed on pinion gear (45), pinion gear (45) and positioning disk
(46) it is engaged;
Correction mandrel is inserted in inner hole of spindle, main shaft starting, precision axis (32) looks for the heart along spiral of Archimedes track automatically,
It is taken down after centering, pressing plate (29) is fixed on the upper surface of connecting rod (41) with soket head cap screw, tested lasso is placed on
On positioning disk (46), the lasso of any specification is measured.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610639465.0A CN106248042B (en) | 2016-08-05 | 2016-08-05 | A kind of spindle-less lasso percent ripple instrument |
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Application Number | Priority Date | Filing Date | Title |
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CN201610639465.0A CN106248042B (en) | 2016-08-05 | 2016-08-05 | A kind of spindle-less lasso percent ripple instrument |
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CN106248042A CN106248042A (en) | 2016-12-21 |
CN106248042B true CN106248042B (en) | 2018-11-20 |
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CN201610639465.0A Active CN106248042B (en) | 2016-08-05 | 2016-08-05 | A kind of spindle-less lasso percent ripple instrument |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2004061151A (en) * | 2002-07-25 | 2004-02-26 | Nsk Ltd | Contact angle measuring method and apparatus for bearing device |
CN101216281A (en) * | 2008-01-04 | 2008-07-09 | 洛阳轴研科技股份有限公司 | Measuring apparatus for measuring bearing and its part surface appearance |
CN201163182Y (en) * | 2008-03-03 | 2008-12-10 | 孙连贵 | Waviness-meter of bearing ferrule |
CN202974244U (en) * | 2012-11-13 | 2013-06-05 | 浙江大铭汽车零部件有限公司 | Circularity measuring instrument |
CN203964850U (en) * | 2014-07-02 | 2014-11-26 | 成都飞机工业(集团)有限责任公司 | The survey instrument of detection plane jump and percent ripple |
CN205175386U (en) * | 2015-12-03 | 2016-04-20 | 大连凯特乐机械有限公司 | Bearing waviness measurement system's rigid support |
-
2016
- 2016-08-05 CN CN201610639465.0A patent/CN106248042B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2004061151A (en) * | 2002-07-25 | 2004-02-26 | Nsk Ltd | Contact angle measuring method and apparatus for bearing device |
CN101216281A (en) * | 2008-01-04 | 2008-07-09 | 洛阳轴研科技股份有限公司 | Measuring apparatus for measuring bearing and its part surface appearance |
CN201163182Y (en) * | 2008-03-03 | 2008-12-10 | 孙连贵 | Waviness-meter of bearing ferrule |
CN202974244U (en) * | 2012-11-13 | 2013-06-05 | 浙江大铭汽车零部件有限公司 | Circularity measuring instrument |
CN203964850U (en) * | 2014-07-02 | 2014-11-26 | 成都飞机工业(集团)有限责任公司 | The survey instrument of detection plane jump and percent ripple |
CN205175386U (en) * | 2015-12-03 | 2016-04-20 | 大连凯特乐机械有限公司 | Bearing waviness measurement system's rigid support |
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CN106248042A (en) | 2016-12-21 |
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SE01 | Entry into force of request for substantive examination | ||
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CB03 | Change of inventor or designer information | ||
CB03 | Change of inventor or designer information |
Inventor after: Sun Liangui Inventor before: Wen Hai |
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TA01 | Transfer of patent application right | ||
TA01 | Transfer of patent application right |
Effective date of registration: 20170825 Address after: 116081 Hongqi North Street, Ganjingzi District, Liaoning, Dalian Applicant after: Dalian Behring Bearing Instrument Co., Ltd. Address before: 116024, No. 3, building 401, 1 Huangpu Road, Shahekou District, Liaoning, Dalian Applicant before: Wen Hai |
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GR01 | Patent grant |