CN101137887B - Shape-measuring assembly for a grinding machine - Google Patents

Shape-measuring assembly for a grinding machine Download PDF

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Publication number
CN101137887B
CN101137887B CN2006800064986A CN200680006498A CN101137887B CN 101137887 B CN101137887 B CN 101137887B CN 2006800064986 A CN2006800064986 A CN 2006800064986A CN 200680006498 A CN200680006498 A CN 200680006498A CN 101137887 B CN101137887 B CN 101137887B
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CN
China
Prior art keywords
roll
arm
sensor
axis
carriage
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Expired - Fee Related
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CN2006800064986A
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Chinese (zh)
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CN101137887A (en
Inventor
塞缪尔·C.·库贝
艾伯特·A.·普莱克
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HCC/KPM公司
HCC KPM LLC
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HCC KPM LLC
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B5/00Measuring arrangements characterised by the use of mechanical techniques
    • G01B5/20Measuring arrangements characterised by the use of mechanical techniques for measuring contours or curvatures
    • G01B5/201Measuring arrangements characterised by the use of mechanical techniques for measuring contours or curvatures for measuring roundness
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B5/00Measuring arrangements characterised by the use of mechanical techniques
    • G01B5/20Measuring arrangements characterised by the use of mechanical techniques for measuring contours or curvatures
    • G01B5/207Measuring arrangements characterised by the use of mechanical techniques for measuring contours or curvatures using a plurality of fixed, simultaneously operating transducers

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • A Measuring Device Byusing Mechanical Method (AREA)
  • Constituent Portions Of Griding Lathes, Driving, Sensing And Control (AREA)

Abstract

A linked transport mechanism and method that uses a single source of motive force to synchronously position multiple displaceable sensors of a shape-measuring assembly onto a roll received in a roll grinding machine. At least two sensors (28, 29) are mounted on linear slides on at least one measuring arm (1). The complete shape-measuring assembly includes at least three sensors (27, 28, 29) or measuring points to allow the calculation of the cross-sectional shape of the roll and the extraneous error movement of the roll. At least one measuring arm is connected to a linear guide (4) of the frame (3). The linear motor is connected between the frame and the measuring arms. The linked transport mechanism assures the synchronous accurate positioning of the sensors, each at a fixed angle through the roll center, over the entire range of roll diameters that the grinding machine may receive.

Description

The shape that is used for grinding machine is surveyed assembly
Technical field
The present invention relates generally to the field of roll grinder or cylinder grinder, more specifically, the present invention relates to a kind of roll or the geometric parameter of cylinder or the measurement assembly or caliper assembly (caliper assembly) of profile that is placed on the grinding machine that be used to measure.
Background technology
In iron and steel, aluminium, paper mill industry, usually use the metal roll to make product shaping such as metalwork or sheet metal, aluminium foil or the scraps of paper.Roller surface may be coated with the nonmetallic materials such as rubber, polyurethane or pottery.Use in milling train finally can cause the degeneration of the shape and the quality of roller surface, and at this moment, this roll just need take out from milling train and repair processing at grinding machine.In No. the 4th, 811,524, the United States Patent (USP) of Corallo a kind of grinding machine has been described.
In No. the 6th, 159,074, people's such as Kube the United States Patent (USP) a kind of caliper assembly that is used for grinding machine has been described.This clamp have two gage beams, to be used for measuring the diameter of roll in the grinding machine.Can draw the profile profile of roll along the measurement of a series of continuous diameters of roll length direction.
The common problem that produces is owing to the inaccurate of roll mechanical support causes in the roll polishing, and this inaccurate mechanical support can cause producing external error and move when roll rotation.Do not move if compensate described error in bruting process, then these errors move and can make revised roll have deviation from circular from or shape error.
The error that two point measurements can not pick out roll reliably moves deviation from circular from or the shape error that is caused.
Summary of the invention
Briefly, survey assembly according to the invention provides a kind of shape that is used for roll grinder, this roll grinder can be at the bearing upper support roll workpiece at least two intervals, and described bearing limits the axis of described roll.Described assembly constitutes the shape on the near cylindrical surface that is used to measure the roll that is installed on the described bearing.Described shape is surveyed assembly and comprised: support frame movably, itself and described roll axis and can be parallel to described roll axis and move separately in the reference planes parallel with described roll axis (for example ground); The arm carriage, it is supported in the described support frame, and can towards with move away from described reference planes; The first arm, it is by described arm bracket support, and described framework is left in extension; Described the first arm can extend above described roll axis; Fixed sensor probe, it is installed near the far-end of described the first arm, to be used for the position on surface of the described roll of sensing; First guide rail, it is installed on the described the first arm, and forms first acute angle with described reference planes; First sensor bracket movably, it is installed as along described first guide rail and is directed; First sensor detector, it is installed on the described first sensor carriage, to be used for the position on surface of the described roll of sensing; First sensor carriage and described the first arm bracket interconnects, so that along with described arm moves towards described roll axis by described arm carriage, described first sensor carriage can be towards described roll axis along first path movement.
Preferably, second guide rail is installed on the described the first arm, and forms one second and different angles with described reference planes.Second movably sensor bracket be installed as along described second guide rail and be directed.Second sensor detector is installed on described second sensor bracket, to be used for the position and the described arm on surface of the described roll of sensing.Described second sensor bracket and the described second arm bracket interconnects, so that along with described arm moves towards described roll axis by described arm carriage, described second sensor bracket can be towards described roll axis along second path movement.
Most preferably, described first sensor carriage and described second sensor bracket have the different travel range with respect to the surface of described roll.
According to the present invention advantageously: described first fixed sensor probe, first movably sensor detector and second movably sensor detector can determine the position of lip-deep at least three points of described roll, thereby can limit the position that comprises the center of circle and the circle of circular diameter on the surface of described roll.
According to preferred embodiment, second arm is by the second arm bracket support, and described framework is left in extension.Described second arm can extend below described roll axis.Second fixed sensor probe is installed near the far-end of described second arm, to be used for the position on surface of the described roll of sensing.The advantage of present embodiment is: described first fixed sensor probe, second fixed sensor probe, first be sensor detector and second at least three positions that can determine lip-deep at least three points of described roll in the sensor detector movably movably, thereby can limit the position that comprises the center of circle and the circle of circular diameter on the surface of described roll.
According to an embodiment, sensor bracket and arm carriage are by being fixed on the tooth bar on the described framework and interconnecting with the pinion wheel of described tooth bar engagement, and described pinion wheel is carried by the wheel shaft that is connected with described arm carriage axle journal with respect to described arm.The reduction gearing and the drive sprocket that are fixed on the described wheel shaft are arranged to being used to drive the described sprocket of leap and the chain of idler sprocket tooth separately or the band of trough of belt.The band of described chain or trough of belt is connected to described sensor bracket.Roll
Most preferably, according to the present invention, described sensor bracket and described arm bracket interconnects are so that described carriage moves along the radial path that the axis from described roll extends towards described roll.In one embodiment, gear and sprocket tooth form become makes described the first arm cause described sensor bracket to move along described guide rail towards the downward unit motion of described roll, it is moving of obtaining divided by the sine of described acute angle of approximate described unit motion that described sensor bracket moves along described guide rail, and described track forms reference planes.
Preferably, described sensor detector has the detector bearing that is fixed on the pivotal arm, and described pivotal arm is pivotally attached on the sensor bracket, and a side on described pivotal arm, relative with described detector bearing carries length measuring instrument.Described length measuring instrument and the approximate conllinear of the radial line of extending from described roll axis.
Description of drawings
Fig. 1 shows the side view that has the side 1 (" first side ") of the shape corrections arm of a plurality of detectors and synchronous driving mechanism according to of the present invention;
Fig. 2 shows the side view that has the side 2 (" second side ") of the shape corrections arm of a plurality of detectors and synchronous driving mechanism according to of the present invention;
Fig. 3 is the side view of first detector cavity and interior ccontaining parts thereof;
Fig. 4 is the side view of second detector cavity and interior ccontaining parts thereof;
Fig. 5 is the side view of the 3rd detector cavity and interior ccontaining parts thereof;
Fig. 6 shows the view that is synchronized with the movement of the detector of the removable measurement that is realized by the included connecting gear of the present invention.
Embodiment
The present invention includes the shape that is used for grinding machine and survey assembly, to be used for the roll of polishing.This grinding machine comprises: support member, and it is used for ccontaining roll, so that roll can be around its longitudinal axis rotation; And grinding wheel, it is around the polish surface of this roll of the circumference of roll.One feed mechanism makes grinding wheel contact with roll, and a transversing gear can be along the direction parallel with the roll longitudinal axis in the opposite end of this roll grinding wheel that moves around.
Shape is surveyed assembly or caliper assembly constitutes the shape that is used to measure this roll, and has and make described assembly contact roller surface and the mechanism that moves around at the opposite end of roll.Described assembly comprises framework, reaches the carriage that is supported by linear guide, and this linear guide is connected with framework.One or two gage beam is connected with linear guide and the space.Linear guide is constructed such that each gage beam moves with respect to framework and the longitudinal axis that is parallel to linear guide.Linear electric motors are connected between framework and a pair of gage beam.Linear electric motors constitute and are used for providing motive power to a pair of gage beam, and this motive power makes described a pair of gage beam be parallel to the longitudinal axis of linear guide and moves.
In the gage beam one with one movably sensor combine.Second gage beam with three movably sensor combine, one of them sensor faces the sensor on the first arm, like this when two arms all contact with roll directly the diameter of breaker roll measure.Remaining two sensors are installed in (described line slide rail or carriage are fixed on the gage beam) on line slide rail or the carriage with different angles.Sensor on the slide rail is connected as follows with the clamp framework: also promptly, when gage beam moved with respect to framework, sensor moved with respect to gage beam, and kept the angle orientation between them simultaneously.When gage beam when roll moves, all sensors move along the rectilinear direction that intersects with the roll center.Be positioned at that three sensors on the arm are provided for calculating the roll shape of cross section and the roll error moves required minimum measurement data.For more accurate, calculating the data that to use four displacement transducers when roll shape and error move.Also can only use gage beam to calculate roll shape and mobile and roller diameter with three sensors.Therefore, the present invention also provides a kind of assembly, and this assembly is provided with has at least three movably gage beams of sensor or measurement point contact element.
The present invention can comprise and is used for handling from the data of a plurality of sensors and calculates roll shape and automatic control system that the error of roll moves.This is possible, because three points on the circumference can be determined the position and the radius of a circle in the center of circle.This control system can be revised the feed motion of grinding wheel, to reduce moving deviation from circular from or the shape error that is caused owing to the error of roll in the grinding machine.This control system can use same makeover process that roll is polished into predetermined non-circle (out-of-round) shape, for example can be polished into the shape that can offset or compensate the predetermined dynamic deformation that is taken place at subsequently milling train temperature and operating speed bottom roll.
The invention enables the error that when roll rotates, can measure roll in grinding machine to move.Further, the position of measuring assembly not only can before polishing and after the polishing but also can be measured during polishing with the location is feasible.Automatic control system can be in bruting process the application of shape correction error that compensates roll move even the roll of can when roll is not done circular the rotation in grinding machine, also can polishing.
See figures.1.and.2, be used for the shape survey assembly of grinding machine or the preferred embodiment of caliper assembly and comprise a gage beam that has a plurality of movably detectors and synchronous driving mechanism.Gage beam body 1 is connected with mounting base or carriage 2, and this mounting base or carriage 2 are connected with caliper support frame 3 movably by elongated linear guide 4 itself.Tooth bar 5 is fixedly connected to the front of caliper support frame 3.Rotatably be connected first driving pinion 6 and tooth bar 5 engagements on the side 1 (Fig. 1) of arm body 1.
First driving pinion 6 and 7 engagements of first reduction gearing, this first reduction gearing 7 is around 8 rotations of first driving shaft.The first conveyer chain gear teeth 9 are coaxial with first reduction gearing 7 and fixedly connected, and with first reduction gearing 7 around 8 rotations of first driving shaft.Discrete, the first transmission cingulum 10 twines the first conveyer chain gear teeth 9 and the first idler sprocket teeth 11.The first idler sprocket tooth 11 is rotatably connected on the arm body 1 on the axle parallel with first driving shaft 8, and near the far-end of first line slideway 12.First line slideway 12 is fixedly attached on the arm body 1 and medially is provided with between the first conveyer chain gear teeth 9 and the first idler sprocket tooth 11, the longitudinal center line of this first line slideway be parallel to plane that the axle with first driving shaft 8 and the first idler sprocket tooth 11 intersects or with this plane coplane.The 3rd detector body 13 is fixedly attached on first linear bearing 14, and this first linear bearing 14 is connected movably with first line slideway 12 self.First two ends of transmitting cingulum 10 are connected by the screw thread anchor clamps with the 3rd detector body 13.
On the side 2 of arm 1, second drive sprocket 15 and common driver wheel shaft 16 are coaxial and rotatably be connected the opposite end of common driver wheel shaft 16, and with first reduction gearing 7 and 9 rotations of the first conveyer chain gear teeth.Second live axle 17 is fixedly attached on the arm body 1 and keeps at a certain distance away with common driver wheel shaft 16 and parallel.The second rough lock gear teeth 18 are coaxial with the second conveyer chain gear teeth 19 and rotatably be connected with second live axle 17 and fixing, so that they are together around 20 rotations of second driving shaft.Continuous, second drive cingulum 21 and twine second drive sprocket 15 and the second rough lock gear teeth 18.The second idler sprocket tooth 22 is rotatably connected on the arm body 1 on the axle parallel with second line slideway 23.Second line slideway 23 is fixedly attached on the arm body 1 and medially is provided with between the second conveyer chain gear teeth 19 and the second idler sprocket tooth 22, the longitudinal center line of this second line slideway be parallel to plane that the axle with second driving shaft 20 and the second idler sprocket tooth 22 intersects or with this plane coplane.Discrete, second transmit cingulum 26 be wrapped in the second driving-chain gear teeth 19 and the second idler sprocket tooth 22 around.Second detector 28 has second detector body 24 that is fixedly attached on second linear bearing 25, and this second linear bearing 25 is connected movably with second line slideway 23 itself.Second two ends of transmitting cingulum 26 are connected on second detector body 24 by the screw thread anchor clamps.
First detector assembly, second detector assembly and the 3rd detector assembly are closely similar, and similarly assembly is represented with identical Reference numeral in the accompanying drawings.
The mach chamber that is arranged on the side 1 of small end of arm body 1 is equipped with the assembly (Fig. 1 and Fig. 3) that comprises first displacement detector 27.The critical piece of first displacement detector (Fig. 3), second displacement detector (Fig. 4) and triple motion detector (Fig. 5) is a probe pivot axle 30, and described probe pivot axle is permanently connected perpendicular to arm body 1.Probe pivot axle is held 31 and is connected on the probe pivot axle 30 rotatably and is fixedly attached on the probe pivot arm 32, thereby probe pivot arm 32 is held 31 external bearings seat ring around probe pivot axle 30 rotations with probe pivot axle.The other end in probe pivot arm 32 is provided with detector contact jaw 33, follows the tracks of its surface profile line thereby this detector contact jaw contacts with the external diameter of the cylindrical work of rotation.The longitudinal axis and the center line of cylindrical work or bar are fixed in grinding machine, and perpendicular to the vertical measurement face of clamp (face that intersects with the detector contact jaw 33 of all clamp) orientation, and by above-mentioned with the crossing point of the detector center line 43 of clamp.On the face relative of probe pivot arm 32 with detector contact jaw 33, the static button 34 of the accurate ground connection that has been permanently connected, verification face with the contact jaw that is provided for high-resolution length measuring instrument 36, the proportional amount of movement of radial displacement that the surface profile external diameter of direct record of described length measuring instrument and cylindrical work is produced, pass through detector contact jaw 33 in this cylindrical work rotation, thereby the free end that lifts or fall probe pivot arm 32 (promptly, the end relative with probe pivot axle 30) time, the surface profile external diameter of described cylindrical work produces described radial displacement.The cylinder barrel of high-resolution length gauge 36 is fixed in the detector cavity of arm body 1 adjustably by clamping yoke 37.Be provided with the free-ended stroke that an adjustable Mechanical stops 38 limits probe pivot arm 32.One adjustable space travel limit switch 39 is fixed on the probe cavity wall of arm body 1.One load spring 40 is co-axially mounted on the front of space travel limit switch 39, to apply a little motoricity to the probe pivot arm 32 around probe pivot axle 30.When the contact pressure of adjusting screw 41 from spring rate is enough to make that the plunger of travel switch 39 moves, thereby during the contact element in the mobile switch, described space travel limit switch 39 begins to move.Cross travel switch 39 and Mechanical stops 38 prevent to surpass high-resolution length gauge 36 the specified limit cross stroke.For separating between the spring that prevents contact point and static button 34 and the high-resolution length gauge 36, movement-damper is fixedly mounted between the face of the inwall of first detector cavity of arm body 1 and probe pivot arm 32.Rubber boot seal 35 by steady arm axle bush 44 be fixedly attached to described three panel detector structures (first panel detector structure (and 27, Fig. 3), second panel detector structure (28, Fig. 4), two positions on each in the 3rd panel detector structure (29, Fig. 5)).One end of first rubber boot seal 35 is fixedly attached to the outside surface of first probe cavity wall of arm body 1, and its other end is fixed on below the static button 34 and between the composition surface of probe pivot arm 32.Second rubber boot seal 35 ' be fixed on the outside of first probe cavity wall of arm body 1 similarly, and its other end is fixed between the composition surface of following and probe pivot arm 32 of steady arm axle bush 44 of cover seal.(28, Fig. 4) (29, parts Fig. 5) are placed in the inside of second detector body 24 and the 3rd detector body 13 equally respectively with the triple motion detector to have second displacement detector of similar functions.Movement-damper 42 suppresses the swing of probe pivot arm 32.
The preferred embodiments of the present invention described herein have realized being synchronized with the movement of three displacement detectors, thereby make the clamp arm in the diameter measurement scope, can arrive cylindrical work arbitrarily, each in three detectors at any time all relatively other two detectors with theta alignment (see figure 6) fixing, that optimize.Thereby a bit concentrate on the workpiece because each described detector body can converge at, thus the contact jaw of each detector all with its optimization and specific angle, along advancing by the particular course of workpiece centre effect.Synchronous driving described herein mechanism only utilize the linear electric motors that are placed in the clamp framework as motion can the source.Fig. 6 shows another gage beam 50 that comprises an independent movably sensor 52.The contact jaw 54 of the movably sensor 52 in the contact jaw 33 in first detector 27 on the arm body 1 and another gage beam 50 is relative, and described first detector 27 comprises three movably sensors.
The qualification distinguishingly of the application having been carried out as above at length and having required according to Patent Law, the application's protection domain defines with the content of appending claims.

Claims (15)

1. a shape that is used for roll grinder is surveyed assembly, this roll grinder can be at the bearing upper support roll workpiece at least two intervals, described bearing limits the axis of described roll, described shape is surveyed the shape that assembly constitutes the near cylindrical surface that is used to measure the roll that is installed on the described bearing, and described shape is surveyed assembly and comprised:
Support frame (3) movably, the axis of itself and described roll separately, and can with the reference planes of the parallel axes of described roll on be parallel to described roll axis move;
The first arm carriage (2), it is supported in the described support frame, and can towards with automatically move away from described reference planes;
The first arm (1), it is by described the first arm bracket support, and extends and leave described framework, and described the first arm can extend above the axis of described roll;
First fixed sensor probe (27), it is installed near the far-end of described the first arm, to be used for the position on surface of the described roll of sensing;
First guide rail (12), it is installed on the described the first arm, and forms first acute angle with described reference planes;
First sensor carriage (29) movably, it is installed as along described first guide rail and is directed;
First sensor detector, it is installed on the described first sensor carriage, to be used for the position on surface of the described roll of sensing;
First interconnection device, it makes described first sensor carriage and described the first arm bracket interconnects, and make that along with described the first arm moves towards the axis of described roll by described the first arm carriage described first sensor carriage can automatically move along first via footpath towards the axis of described roll;
Second guide rail (23), it is installed on the described the first arm, and forms second acute angle with described reference planes;
Second sensor bracket (28), it is installed as along described second guide rail and is directed;
Second sensor detector, it is installed on described second sensor bracket, to be used for the position on surface of the described roll of sensing;
Second interconnection device, it makes described second sensor bracket and described the first arm bracket interconnects, and make that along with described the first arm moves towards the axis of described roll by described the first arm carriage described second sensor bracket can automatically move along second path towards the axis of described roll;
Second arm (50), it is by the second arm bracket support, and extends and leave described framework, and described second arm can extend below the axis of described roll;
Second fixed sensor probe (54), it is installed near the far-end of described second arm, to be used for the position on surface of the described roll of sensing;
Thus, described first fixed sensor probe, second fixed sensor probe, movably first sensor detector and movably second sensor detector can determine the position of lip-deep at least three points of described roll, thereby can on the surface of described roll, limit the position that comprises the center of circle and the circle of circular diameter.
2. a shape that is used for roll grinder is surveyed assembly, this roll grinder can be at the bearing upper support roll workpiece at least two intervals, described bearing limits the axis of described roll, described shape is surveyed the shape that assembly constitutes the near cylindrical surface that is used to measure the roll that is installed on the described bearing, and described shape is surveyed assembly and comprised:
Support frame (3) movably, the axis of itself and described roll separately, and can with the reference planes of the parallel axes of described roll on be parallel to described roll axis move;
The first arm carriage (2), it is supported in the described support frame, and can towards with automatically move away from described reference planes;
The first arm (1), it is by described the first arm bracket support, and extends and leave described framework, and described the first arm can extend above the axis of described roll;
First fixed sensor probe (27), it is installed near the far-end of described the first arm, to be used for the position on surface of the described roll of sensing;
First guide rail (12), it is installed on the described the first arm, and forms first acute angle with described reference planes;
First sensor carriage (29) movably, it is installed as along described first guide rail and is directed;
First sensor detector, it is installed on the described first sensor carriage, to be used for the position on surface of the described roll of sensing;
First interconnection device, it makes described first sensor carriage and described the first arm bracket interconnects, and make that along with described the first arm moves towards the axis of described roll by described the first arm carriage described first sensor carriage can automatically move along first via footpath towards the axis of described roll;
Second guide rail (23), it is installed on the described the first arm, and forms second acute angle with described reference planes;
Second sensor bracket (28) movably, it is installed as along described second guide rail and is directed;
Second sensor detector, it is installed on described second sensor bracket, to be used for the position and the described arm on surface of the described roll of sensing; And
Second interconnection device, it makes described second sensor bracket and described the first arm bracket interconnects, it makes along with described the first arm moves towards the axis of described roll by described the first arm carriage, and described second sensor bracket can be towards the axis of described roll along second path movement;
Thus, described first fixed sensor probe, movably first sensor detector and movably second sensor detector can determine the position of lip-deep at least three points of described roll, thereby can limit the position that comprises the center of circle and the circle of circular diameter on the surface of described roll.
3. a shape that is used for roll grinder is surveyed assembly, this roll grinder is at the bearing upper support roll workpiece at least two intervals, described bearing limits the axis of described roll, described shape is surveyed the shape that assembly constitutes the near cylindrical surface that is used to measure the roll that is installed on the described bearing, and described shape is surveyed assembly and comprised:
Support frame (3) movably, the axis of itself and described roll separately, and can with the reference planes of the parallel axes of described roll on be parallel to described roll axis move;
The first arm carriage (2), it is supported in the described support frame, and can towards with automatically move away from described reference planes;
The first arm (1), it is by described the first arm bracket support, and extends and leave described framework, and described the first arm can extend above the axis of described roll;
First fixed sensor probe (27), it is installed in the far-end of described the first arm, to be used for the position on surface of the described roll of sensing;
First guide rail (12), it is installed on the described the first arm, and forms first acute angle with described reference planes;
First sensor carriage (29) movably, it is installed as along described guide rail and is directed;
First sensor detector, it is installed on the described movably sensor bracket, to be used for the position on surface of the described roll of sensing;
First interconnection device, it makes described sensor bracket and described the first arm bracket interconnects, and make that along with described the first arm moves towards the axis of described roll by described the first arm carriage described sensor bracket can automatically move along a path towards the axis of described roll.
4. as any described assembly in the claim 1 to 3, wherein said first interconnection device comprises: be fixed on the tooth bar (5) on the described framework (3), and with the pinion wheel (6) of described tooth bar engagement, described pinion wheel is by wheel shaft (8) carrying that is connected with described the first arm carriage axle journal with respect to described the first arm, be fixed with reduction gearing (7) and drive sprocket (9) on the described wheel shaft (8), to be used to drive the chain that is positioned on described sprocket and the idler sprocket tooth (11) separately or the band (10) of trough of belt, the band of described chain or trough of belt (10) is connected to described first sensor carriage (29).
5. as any described assembly in the claim 1 to 2, wherein said second interconnection device comprises: be fixed on the tooth bar (5) on the described framework (3), and with the pinion wheel (6) of described tooth bar engagement, described pinion wheel is by the wheel shaft carrying that is connected with described the first arm carriage axle journal with respect to described the first arm, be fixed with reduction gearing (7) and drive sprocket (15) on the described wheel shaft (8), to be used to drive the chain that is positioned on described sprocket and the idler sprocket tooth (18) separately or the band (21) of trough of belt, described idler sprocket tooth (18) axle journal is connected to second wheel shaft (17), be fixed with second drive sprocket on described second wheel shaft, to be used to drive second chain that is positioned on the second idler sprocket tooth or the band (26) of trough of belt, the band of described second chain or trough of belt is connected to described second sensor bracket (28).
6. as any described assembly in the claim 1 to 2, wherein said first interconnection device and the interconnection of described second interconnection device, so that described the first arm causes the described first sensor carriage and second sensor bracket respectively along the moving of described first guide rail and second guide rail towards the downward unit motion of described roll, the described first sensor carriage and second sensor bracket respectively along moving of described first guide rail and second guide rail be described unit motion divided by the sine of described first acute angle or second acute angle moving of obtaining.
7. assembly as claimed in claim 1 or 2, wherein said first fixed sensor probe, first sensor detector, second sensor detector all have the detector bearing (33) that is fixed on the pivotal arm (32), described pivotal arm is pivotally attached on the corresponding sensor bracket, one side on described pivotal arm, relative with described detector bearing carries length measuring instrument (36), described length measuring instrument and the approximate conllinear of the radial line of extending from the axis of described roll.
8. assembly as claimed in claim 3, wherein said first fixed sensor probe, first sensor detector all have the detector bearing (33) that is fixed on the pivotal arm (32), described pivotal arm is pivotally attached on the corresponding sensor bracket, one side on described pivotal arm, relative with described detector bearing carries length measuring instrument (36), described length measuring instrument and the approximate conllinear of the radial line of extending from the axis of described roll.
9. as claim 7 or 8 described assemblies, wherein said pivotal arm is biased along the axis of described roll by load spring (40).
10. as claim 7 or 8 described assemblies, wherein said pivotal arm is fixing by movement-damper (42).
11. assembly as claimed in claim 1 or 2, wherein said first sensor carriage and described second sensor bracket have the different travel range with respect to the surface of described roll.
12. as any described assembly in the claim 1 to 3, wherein said the first arm carriage can move perpendicular to the axis of described roll.
13. as any described assembly in the claim 1 to 3, wherein said the first arm is similar on the plane perpendicular to the axis of described reference planes and described roll and extends.
14. assembly as claimed in claim 1 or 2, wherein movably described first sensor carriage and movably described second sensor bracket are towards the axis of described roll path movement radially.
15. the assembly shown in claim 3, wherein movably described sensor bracket is towards the axis of described roll path movement radially.
CN2006800064986A 2005-02-04 2006-02-03 Shape-measuring assembly for a grinding machine Expired - Fee Related CN101137887B (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US64995305P 2005-02-04 2005-02-04
US60/649,953 2005-02-04
PCT/US2006/003742 WO2006084072A1 (en) 2005-02-04 2006-02-03 Shape-measuring assembly for a grinding machine

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CN101137887A CN101137887A (en) 2008-03-05
CN101137887B true CN101137887B (en) 2011-01-19

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ITMI20051452A1 (en) * 2005-07-27 2007-01-28 Technit Compagnia Tecnica Inte INDEPENDENT MEASUREMENT APPARATUS FOR GRINDING MACHINES
IT1397518B1 (en) * 2009-12-21 2013-01-16 Tenova Spa METHOD AND APPARATUS FOR DETECTION OF GEOMETRY OF OPERATING CYLINDERS.
CN105415192A (en) * 2015-12-15 2016-03-23 昆山华辰重机有限公司 Novel measuring mechanism of full-automatic numerical control roll grinder
CN106248036B (en) * 2016-09-27 2019-01-25 中南大学 A kind of roll crown measuring device
CN110977763A (en) * 2019-12-26 2020-04-10 华辰精密装备(昆山)股份有限公司 Roll shape precision on-line measuring system of numerical control roll grinder
CN111442720A (en) * 2020-03-09 2020-07-24 南方科技大学 Online machining detection device and method for roller

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HK1117226A1 (en) 2009-01-09
CA2596265A1 (en) 2006-08-10
EP1846725A4 (en) 2011-01-05
CA2596265C (en) 2010-04-13
CN101137887A (en) 2008-03-05

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