CN208066952U - A kind of y-type rolling mill tandem rolling centering and pass detecting system - Google Patents

A kind of y-type rolling mill tandem rolling centering and pass detecting system Download PDF

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CN208066952U
CN208066952U CN201820524696.1U CN201820524696U CN208066952U CN 208066952 U CN208066952 U CN 208066952U CN 201820524696 U CN201820524696 U CN 201820524696U CN 208066952 U CN208066952 U CN 208066952U
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laser
centering
shafts
pass
rolling mill
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李长宏
钊风娥
王辉
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Anhui University of Technology AHUT
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Anhui University of Technology AHUT
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Abstract

The utility model discloses a kind of y-type rolling mill tandem rolling centering and pass detecting systems, belong to milling train centering and pass detection technique field.The y-type rolling mill tandem rolling centering of the utility model and pass detecting system, including laser alignment emitter, laser, reception device, laser scanning device and signal control acquisition system, the laser scanning device be equipped with for laser by positioning aperture, and the swing mechanism that can be rotated around X-axis and Y-axis is installed thereon, laser range finder is installed, laser range finder is connected with signal control acquisition system on the swing mechanism.Each frame central of Continuous mill train, each rack pass of test and roll surface can accurately be adjusted using this detecting system, reliable data are supported and technology ensures to be provided for accurate grinding roller, with roller and continuous rolling pass centering.

Description

A kind of y-type rolling mill tandem rolling centering and pass detecting system
Technical field
The utility model belongs to milling train centering and pass detection technique field, connects more specifically to a kind of y-type rolling mill Centering and pass detecting system are rolled, the detecting system is by laser range sensor and precision stepper motor screw mechanism to Y types Milling train tandem rolling line unit carries out centering, and is measured to each design of section of rolling mill.
Background technology
Y-type rolling mill is to be mutually the plate-like roll that 120 ° are distributed by three to constitute, and roll is at Y-type layout, milling train unit one As be made of 6-13 frame working stands, adjacent engine base is alternately arranged in Y types with inverted Y-shaped.Blank passes through each machine in Continuous mill train Frame gradually rolls, the product that could become section configuration at last rack outlet and be of the required size.To make blank have It is deformed to effect, the groove for meeting metal plastic flow and adapting to appointed condition, same rack need to be processed on roll The groove of upper three rolls is combined pass when forming deformation of rolled wire by certain condition.
Each design of section of rolling mill changes successively according to rolling sequence in unit, shape, positions and dimensions precision and preceding The centering situation of afer bay pass determines the quality of rolled products and being smoothed out for production.Therefore, milling train is accurately tested Pass and tandem rolling centering situation are the primary and essential conditions that pass machining and continuous rolling relationship are established.It is domestic at present mainly to use Whether clearance gauge, which is jumped a queue, advises to detect pass, equal with roll gap between each roll of rack using clearance gauge inspection, and feeler gauge is used to try jack Type, this method accuracy of detection is limited, cumbersome.Both at home and abroad also about using what the methods of optical imagery was detected to grind Study carefully, but external corresponding product price is high, requirement is also high, and domestic technique is also immature, and promotional value is limited.
Such as, Chinese Patent Application No. is 201020297766.8 application case discloses a kind of for pass centering of rolling mill Optical instrument, this application include:One laser emitter is fixed on laser emitter adjustment frame, is set in laser emitter There is a transmitting eyeglass;One projection platen bracket, is set on tandem mill and can be moved forward and backward along projecting direction;One projection screen, fixation are set In on projection platen bracket, the projection screen is divided into the both sides of the roll of the tandem mill with laser emitter.Pass centering is examined When testing, the diverging of the emitted eyeglass of lasing light emitter of laser transmitter projects projects, so across continuous rolling mill roller hole on projection screen The pass projection size on projection screen is compared with the pass control drawing on projection screen afterwards, checks mounted roll hole Type whether there is installation deviation.The precision being detected to design of section of rolling mill using the instrument of this application is still relatively low, especially to rolling The defects of hole generated when roller use, can not be detected, while this application also can not be to the centering of each rack pass before and after milling train Situation is detected and adjusts.
Therefore, work out it is a kind of the pass and tandem rolling centering relationship of milling train can accurately be detected, and be adapted for The equipment of popularization has great importance for the quality and production efficiency that improve the corresponding rolled products in China.
Utility model content
1. utility model technical problems to be solved
The purpose of the utility model is to overcome the existing y-type rolling mill continuous rolling pass in China and centering measuring accuracy are relatively low Deficiency, provide a kind of y-type rolling mill tandem rolling centering and pass detecting system.The utility model can accurately test Continuous mill train Each rack pass and tandem rolling centering situation, to provide reliable data for accurate grinding roller, with roller and the positive continuous rolling pass centering of guarantor It supports and technology ensures.
2. technical solution
In order to achieve the above objectives, technical solution provided by the utility model is:
A kind of y-type rolling mill tandem rolling centering of the utility model and pass detecting system, including laser beam emitting device, laser connect Receiving apparatus and laser scanning device are set on the laser beam emitting device there are three laser emitter, and laser receiver is equipped with Three laser pickoffs corresponding with laser emitter, the laser scanning device be equipped with for laser by three positioning Aperture and laser range sensor.
Further, the laser scanning device is connected with signal control acquisition system.
Further, the laser scanning device is equipped with swing mechanism, drives laser ranging to pass by swing mechanism Sensor deflects, to be scanned ranging successively to the difference on roll.
Further, the swing mechanism includes Y shafts swing mechanism and X shaft swing mechanisms, and the X shafts are returned Rotation mechanism includes the X shafts being installed on laser scanning device, and the motor for driving X shafts to turn round;The Y shafts are returned Rotation mechanism includes the Y shafts being mounted in X shafts, and the motor for driving Y shafts to turn round;The laser ranging sensing Device is mounted in Y shafts, and laser range sensor is acquired by cable and signal control with the motor in X shafts, Y shafts System connects.
Further, the laser beam emitting device, laser receiver and laser scanning device are installed on holder, And the height of above-mentioned holder is adjustable.
Further, it is additionally provided with signal indicator on the laser scanning device.
Further, the triangle center of three laser emitters is mutually be overlapped with rolling centerline head It closes, the triangle center of three laser pickoffs coincides with rolling centerline tail portion.
Further, signal control acquisition system includes control system, and data input, output port are upper Machine and processing analyzing software system, control system are used to control motor rotation and the acquisition of signal transmission, data input, output end The responsible data input of mouth, output, host computer is responsible for receiving the signal that control system transmits, and utilizes and handle analysis software system System analyzes signal, obtains y-type rolling mill pass situation and roller surface roller shape and defect situation.
A kind of y-type rolling mill tandem rolling centering of the utility model and pass detection method, include the following steps:
Step 1: determining roll line center:
The datum mark end to end being arranged when installation and debugging initial using rolling line by laser beam emitting device and swashs as benchmark Optical receiver apparatus is separately mounted to the initial position and final position of roll line, opens the laser emitter on laser beam emitting device Emit laser, if laser receiver can be correctly received laser, then three laser-formed beam centers and rolling center Line coincides;Such as cannot, then be adjusted according to rolling line master reference point, until can be properly received, to ensure to swash Optical transmitting set center is overlapped with the center of roll line with laser pickoff center;
Step 2: the placement and adjustment of laser ranging (scanning) device
Laser scanning device is mounted on behind the first rolling mill, and adjusting apparatus height, laser beam emitting device is made to emit Three laser pass through three positioning apertures on laser scanning device, and received by laser receiver, to ensure laser The center of scanning means is overlapped with rolling centerline;
Step 3: calibration zero:
Laser scanning device is connected to signal and controls acquisition system, the test that opening signal controls in acquisition system is soft Part, swing mechanism to zero-bit, laser range sensor demarcate zero;
Step 4: the processing of test data and the construction of roll model
The beginning in test software is clicked, system is tested automatically, and transversal scanning rotational angle is denoted as vectorial A=[α1 α2 … αn], longitudinal scanning rotational angle is denoted as vectorial B=[β1 β2 … βm], the distance that laser range sensor (11) measures Value is denoted as sij, i is row system number, and j is row system number;The data that test obtains are subjected to a cloud coordinate conversion splicing successively, point cloud is put down Sliding denoising, point cloud data be simplified, surface fitting and three-dimensional reconstruction processing are to get to complete roll threedimensional model, you can checks Go out to roll the alignment case and rolls damage situation in hole;
Step 5: according to above-mentioned data processed result, pass and pass center are adjusted, so that pass is met the requirements, in pass The heart is overlapped with roll line center, can be into multiple adjustment and test, until reaching requirement if cannot once complete to adjust;
Step 6: after completing the test of the first rack, continue the test of follow-up rack, the survey until completing institute's organic frame Examination and adjustment.
Further, in the step 4 system test automatically the specific steps are:
(1) three or more targets are placed on roll, are for a cloud mark, and it is right to assign one, each target ball The ID answered, the then initial lateral scanning angle α of system setting1, longitudinal scanning angle beta1, and record laser range finder value at this time S11
(2) when starting to be scanned roll zones, longitudinal scanning angle beta is first kept1Constant, transversal scanning rotates successively Angle [α1 α2 … αn], recording laser rangefinder value obtains following s1j=[s11 s12 … s1n];The first row scanning is completed Afterwards, longitudinal scanning angular turn is to β2, start to scan the second row, transversal scanning rotational angle [α successively1 α2 … αn], record Laser range finder value obtains following s2j=[s21 s22 … s2n];Change regulation of longitudinal angle successively, progressively scans, until entire roller System's scanning is completed, and system records the matrix that the distance value of following m × n is constituted:
(3) accurate scan is carried out to public target, in case precision is high when modeling fitting target when subsequently being spliced, at this time First plane is completed;
(4) 120 degree of roll is rotated, is repeated the above process, second of sweep test is completed;It is rotated further by 120 degree of progress thirds Secondary sweep test;By sweep test three times, the test value of 0 degree, 120 degree and 240 degree of roll rotation is obtained respectively;
(5) by taking 0 degree of roll rotation as an example, roll D coordinates value is calculated;The D coordinates value at roller surface any point, It is obtained by following equation:
xij=sijcosαicosβj
yij=sij sinαjcosβj
zij=sijsinβj
Thus roller surface three-dimensional coordinate matrix is obtained to be expressed as:
It is primary that 120 degree of tests are often rotated when being tested due to roll, therefore can obtain three groups of matrixes, 0 degree of test matrix:(X0,Y0, Z0), 120 degree of test matrix (X120,Y120,Z120) and 240 degree of test matrix (X240,Y240,Z240)。
3. advantageous effect
Using technical solution provided by the utility model, compared with existing known technology, there is following remarkable result:
(1) a kind of y-type rolling mill tandem rolling centering of the utility model and pass detecting system, including laser beam emitting device, swash Optical receiver apparatus and laser scanning device, by the setting of laser beam emitting device and laser receiver to the rolling center of milling train Line is determined, and the centering situation of rolling mill roll line is detected and is adjusted, while with by laser beam emitting device and laser Positioning datum of the laser that reception device determines as laser scanning device carries out each design of section of rolling mill using laser scanning device Test, design of section of rolling mill center and rolling centerline registration accuracy are high when test, and registration connects so as to effectively improve milling train The precision for rolling centering and pass detection, advantageously ensures that the rolling accuracy of product.
(2) a kind of y-type rolling mill tandem rolling centering of the utility model and pass detecting system, laser beam emitting device are equipped with three A laser emitter, laser receiver are equipped with laser pickoff corresponding with laser emitter, due to using laser three Dimension imaging, and laser ranging precision itself is higher, therefore its test result is more intuitive, and measuring accuracy is high.
(3) a kind of y-type rolling mill tandem rolling centering of the utility model and pass detecting system, the laser beam emitting device swash Optical receiver apparatus and laser ranging system are installed on holder, can be connect to laser beam emitting device, laser by adjusting bracket The spatial position of receiving apparatus and laser ranging system is adjusted, consequently facilitating the adjustment at each milling train center of unit.
(4) a kind of y-type rolling mill tandem rolling centering of the utility model and pass detecting system, due to laser anti-interference ability By force, therefore with the more ability of the live water mist vapour of preferably resistance, dust, while test equipment and test process are easy to operate, Labor intensity and management cost are reduced, is suitable for popularization and application.
Description of the drawings
A kind of y-type rolling mill tandem rolling centering of Fig. 1 the utility model and the structural schematic diagram of pass detecting system.
Fig. 2 is the structural schematic diagram of the centering laser beam emitting device of the utility model.
Fig. 3 is the triangle that three laser emitters of the centering laser beam emitting device of the utility model are constituted.
Fig. 4 is the triangle that three laser pickoffs of the centering laser receiver of the utility model are constituted.
Fig. 5 is the structural schematic diagram of the laser scanning device of the utility model.
Fig. 6 is the structural schematic diagram of the centering laser receiver of the utility model.
Fig. 7 is the swing mechanism of the utility model and the structural schematic diagram of laser range sensor.
Fig. 8 is coordinate system schematic diagram when being scanned to roll zones using the detecting system of the utility model.
Drawing reference numeral explanation:
1:Laser beam emitting device;2:Y-type rolling mill;3:Laser scanning device;4:Rolling centerline;5:Laser receiver; 6:Signal controls acquisition system;7,8,9:Laser emitter;10:The triangle center of three laser emitters;11:Swash Ligh-ranging sensor;12, Y shafts swing mechanism;13:X shaft swing mechanisms;14,15,16:Position aperture;17:Signal designation Device;18,19,20:Laser pickoff;21:The triangle center of three laser pickoffs.
Specific implementation mode
To further appreciate that the content of the utility model, the utility model is made in conjunction with the drawings and specific embodiments detailed Description.
Embodiment 1
As shown in figs 1 to 6, a kind of y-type rolling mill tandem rolling centering of the present embodiment and pass detecting system, including laser hair Injection device 1, laser receiver 5 and laser scanning (ranging) device 3, set that there are three laser to send out on the laser beam emitting device 1 Emitter 7,8,9, laser receiver 5 is equipped with three laser pickoffs 18,19,20 corresponding with laser emitter, described Laser scanning device 3 be equipped with for laser by three positioning apertures 14,15,16 and laser range sensor (laser ranging Instrument) 11, and laser scanning device 3 is connected with signal control acquisition system 6.Above-mentioned laser beam emitting device 1, laser receiver 5 And laser ranging system 3 is installed on holder, and support height is adjustable.
The datum mark end to end being arranged when installation and debugging initial using rolling line is as benchmark, by 1 He of laser beam emitting device Laser receiver 5 is separately mounted to the initial position and final position of roll line, makes three to swash by the height of adjusting bracket The triangle center 10 of optical transmitting set coincides with rolling centerline head, and three laser pickoff institutes are triangle Center 21 coincide with rolling centerline tail portion, to enable laser receiver 5 receive laser beam emitting device 1 emit 3 laser, and then can ensure that centering situation to rolling mill roll line accurately detect and adjust.Meanwhile with by laser Positioning datum of the laser that emitter 1 and laser receiver 5 determine as laser scanning device 3, on laser beam emitting device 1 Three beams of laser pass through laser scanning device 3 on positioning aperture 14,15,16 received by laser receiver 5, three beams of laser is true Determine the position of rolling centerline, signal indicator 17 to be additionally provided on the laser scanning device 3, when three beams of laser is all by laser Signal indicator 17 is bright when reception device 5 receives.Since aperture 14,15,16 has certain length, if laser scanning device 3 with rolling center deviated or itself tilt, then laser beam cannot pass through, need adjust team, until laser receiver 5 Three beams of laser is received, to ensure that being accurately positioned for laser scanning device 3.Using laser scanning device 3 to each milling train hole Type is tested, and design of section of rolling mill center and rolling centerline registration accuracy are high when test, registration, so as to effectively improve The precision of the centering of milling train tandem rolling and pass detection, advantageously ensures that the rolling accuracy of product.
Embodiment 2
A kind of y-type rolling mill tandem rolling centering of the present embodiment and pass detecting system, structure is substantially the same as embodiment 1, area It does not essentially consist in:Laser scanning device 3 is equipped with swing mechanism in the present embodiment, and laser ranging sensing is driven by swing mechanism Device 11 deflects, to be scanned ranging successively to the difference on roll.Specifically, in conjunction with Fig. 7, the present embodiment returns Rotation mechanism includes Y shafts swing mechanism 12 and X shafts swing mechanism 13, and the X shafts swing mechanism 13 includes being installed on laser X shafts on scanning means 3, and drive the motor that turns round of X shafts;The Y shafts swing mechanism 12 includes being mounted on X Y shafts in shaft, and drive the motor that turns round of Y shafts;The laser range sensor 11 is mounted on Y shafts On, and laser range sensor 11 controls acquisition system 6 with signal by cable with the motor in X shafts, Y shafts and connect.
Above-mentioned signal control acquisition system 6 includes control system, and data input, output port, host computer and processing are analyzed Software systems, control system are used to control motor rotation and the acquisition of signal transmission, and it is defeated that data input, output port is responsible for data Enter, export, host computer is responsible for receiving the signal that control system transmits, and is carried out to signal using processing analyzing software system Analysis, obtains y-type rolling mill pass situation and roller surface roller shape and defect situation.Drive X shafts and Y shafts respectively by motor Rotary motion occurs, to be scanned ranging successively to all the points on roll.X-axis angle of rotation on laser scanning device 3 Degree and Y-axis rotational angle are provided by signal control acquisition system 6, and the measuring signal of laser range sensor 11 is adopted by signal control Collecting system 6 records.
Embodiment 3
A kind of y-type rolling mill tandem rolling centering of the present embodiment and pass detecting system, structure is the same as embodiment 2.Using this reality When applying the detecting system of example and being detected to milling train tandem rolling centering situation and pass, filled by laser beam emitting device 1 and laser pick-off 5 are set to determine rolling center, and the positioning datum of laser ranging system 3 is provided.After the installation calibration zero of laser scanning device 3, Each rack is scanned successively, measured signal is uploaded to host computer, signal is analyzed using processing analysis software, obtains Y The data informations such as each rack pass, centering, roller surface size and defect in type unit.Using the present embodiment detecting system according to It is secondary each rack pass of tandem rolling line is tested and is adjusted after, can effectively ensure that tandem rolling string holes type and centering are good, and its test, Degree of regulation is higher, and milling train centering and pass detection are as follows:
Step 1: determining roll line center:
The datum mark end to end being arranged when installation and debugging initial using rolling line is as benchmark, by 1 He of laser beam emitting device Laser receiver 5 is separately mounted to the initial position and final position of roll line, opens the laser hair on laser beam emitting device Emitter emits laser, if laser receiver can be correctly received laser, then three laser-formed beam centers and rolling Center line coincides;Such as cannot, then be adjusted according to rolling line master reference point, until can be properly received, to protect Card laser emitter center is overlapped with the center of roll line with laser pickoff center;
Step 2: the placement and adjustment of laser ranging (scanning) device
Laser scanning device 3 is mounted on behind first y-type rolling mill 2, and adjusting apparatus height, makes laser beam emitting device Three laser of 1 transmitting pass through three positioning apertures 14,15,16 on laser scanning device 3.Since aperture has a fixed length Degree, opening length direction is vertical with 3 plane of laser ranging (scanning) device, while 3 points can determine a plane, three Laser can pass through three apertures, determined that device space position.After installing, it is ensured that laser ranging system 3 Center is overlapped with rolling centerline, and plane is vertical with laser beam.
Step 3: calibration zero:
Laser scanning device 3 is connected to signal and controls acquisition system 6, opening signal controls the test in acquisition system 6 Software, swing mechanism to zero-bit, laser range sensor 11 demarcate zero;
Step 4: the processing of test data and the construction of roll model
The beginning in test software is clicked, system is tested automatically, and transversal scanning rotational angle is denoted as vectorial A=[α1 α2 … αn], longitudinal scanning rotational angle is denoted as vectorial B=[β1 β2 … βm], the distance value that laser range sensor 11 measures It is denoted as sij, i is row system number, and j is row system number, determines that coordinate system is as shown in Figure 8;The specific step that system is tested automatically in the present embodiment Suddenly it is:
(1) three or more targets are placed on roll, are for a cloud mark, and it is right to assign one, each target ball The ID answered, the then initial lateral scanning angle α of system setting1, longitudinal scanning angle beta1, and record laser range finder value at this time S11
(2) when starting to be scanned roll zones, longitudinal scanning angle beta is first kept1Constant, transversal scanning rotates successively Angle [α1 α2 … αn], recording laser rangefinder value obtains following s1j=[s11 s12 … s1n];The first row scanning is completed Afterwards, longitudinal scanning angular turn is to β2, start to scan the second row, transversal scanning rotational angle [α successively1 α2 … αn], record Laser range finder value obtains following s2j=[s21 s22 … s2n];Change regulation of longitudinal angle successively, progressively scans, until entire roller System's scanning is completed, and system records the matrix that the distance value of following m × n is constituted:
(3) accurate scan is carried out to public target, in case precision is high when modeling fitting target when subsequently being spliced, at this time First plane is completed;
(4) 120 degree of roll is rotated, is repeated the above process, second of sweep test is completed;It is rotated further by 120 degree of progress thirds Secondary sweep test;By sweep test three times, the test value of 0 degree, 120 degree and 240 degree of roll rotation is obtained respectively;
(5) by taking 0 degree of roll rotation as an example, roll D coordinates value is calculated;The D coordinates value at roller surface any point, It is obtained by following equation:
xij=sijcosαicosβj
yij=sij sinαjcosβj
zij=sijsinβj
Thus roller surface three-dimensional coordinate matrix is obtained to be expressed as:
It is primary that 120 degree of tests are often rotated when being tested due to roll, therefore can obtain three groups of matrixes, 0 degree of test matrix:(X0,Y0, Z0), 120 degree of test matrix (X120,Y120,Z120) and 240 degree of test matrix (X240,Y240,Z240)。
Obtained data will be tested and carry out cloud coordinate conversion splicing, point cloud smoothing denoising, point cloud data simplification, a song successively Face is fitted and three-dimensional reconstruction processing is to get to complete roll threedimensional model, you can checks the alignment case and roll for rolling hole Damaged condition, detailed process are as follows:
(1) point cloud coordinate conversion splicing
The target point-cloud fitting that each angle measurement is scanned assigns each target one corresponding ID at model, journey Sequence automatically can match the identical target of ID titles according to the ID of target, substantially be that the geometry based on object under test surface is special It levies to be the relationship for realizing point cloud data alignment.The point cloud data scanned under three angles is carried out by the registration of target Conversion is spliced under current identical coordinate system.
(2) cloud smoothing denoising is put
The point cloud data with the noise to peel off is handled using Robust filtering algorithms, if this point, which converges, is combined into P, It defines a nonparametric probability function f and makees point cluster, look for a suitable kernel estimates function, define the poly- of scattered points P Class center is the local maximum of kernel estimates f function, the cluster of discrete point can be detected with simple threshold condition, and it is deleted It removes.
It is that sampled point Pi defines a local likelihood function Li first, is the least square fitting plan range by x to P Square determination.Least square fitting plane, and the part of all sampled points are obtained by covariance matrix of the calculating with weight It is likelihood function L obtained by likelihood function weighted accumulation.
So, lower likelihood is possessed with regard to closer point away from the point of least square plane relatively far away from.Seek likelihood letter Number L (x), reflection point x whether be point on sample plane S likelihood.After determining L (x), light then is carried out to point cloud data Along denoising.Method is:All the points cloud is moved to maximum likelihood value position, rising maximized method with gradient finds L (x) local maximum.
When the maximum value number of likelihood function L (x) is less than kernel estimates number, so that it may these points are polymerized to a class, i.e., For cluster, then this accumulation is replaced with the local maximum of L (x).
(3) point cloud data simplifies
Curvature is used to characterize curve or the characteristic quantity of curve form variation can extract song according to the variation degree of curvature The point of characterization testee feature on face, curvature is bigger, then the local surface where the point is more likely to be testee Characteristic point, it is bigger in the Curvature varying of sampling area, including important characteristic information.
Curvature principle of parsimony:Retain a small amount of point for the smaller region of curvature, the larger region of curvature retains more points. According to amount of curvature, point cloud data is divided into multiple curvature sections, corresponding each curvature section sets different threshold values.
It is located in a certain curvature section, according to sequence from small to large, the section, incurvature is ranked up, if the section Threshold value is h, and curvature datum mark takes the point p0 of the section incurvature minimum, if in section point pj and datum mark p0 absolute value of the difference Less than h, then point pj is deleted, is otherwise retained.Again using point pj as new datum mark, above procedure is repeated until the point in the section is complete Portion relatively finishes.Then this method effectively keeps the feature of Object reconstruction curved surface and reduces data point.
(4) surface fitting
Surface fitting is the spline curve that data point is generated to fitting in the way of approaching, and first passes through model build tool, A series of processing and processing are carried out, the model of patch is generated, finally makes patch refinement, simplify, generate and meet the complete of needs Whole surface model.Come matched curve in the way of approaching, the vertex of the permissible value and Control curve of an error is tentatively set Number finds out a curve, and calculate in time all then on the basis of all measurement data points using least square method Distance of the data point to the curve.If maximum distance is more than set allowable error value, need by increasing control top Point number, recycle least square method carry out matched curve again, until finally obtained curve met the requirements in precision for Only.
(5) three-dimensional reconstruction
The Surface Reconstruction of three dimensional point cloud is exactly the curved die that body surface is built according to three dimensional point cloud Type, and the geometry of surface model is made to reflect the shape feature of body surface as far as possible.According to rebuild curved surface type, Select subdivision curved surface Model Reconstruction.
Subdivision curved surface model reconstruction techniques mainly since an initial polygonal mesh, according to certain topology rule with Geometrical rule recursively calculates new top points, edges, faces, and refines initial polygonal mesh with this, generates finer and closely woven New polygonal mesh.With the continuous progress of segmentation process, the number of the top points, edges, faces of polygonal mesh is continuously increased, gradually As a more smooth curved surface.Will eventually get complete roll threedimensional model, you can check the alignment case portalled and Rolls damage situation.
Step 5: according to above-mentioned data processed result, pass and pass center are adjusted, so that pass is met the requirements, in pass The heart is overlapped with roll line center, can be into multiple adjustment and test, until reaching requirement if cannot once complete to adjust;
Step 6: after completing the test of the first rack, continue the test of follow-up rack, the survey until completing institute's organic frame Examination and adjustment.The roll line and roll pass of milling train can not only be carried out accurately to detect and adjust using the method for the present embodiment Section, while the defects of hole on roll can also be detected, consequently facilitating ensureing the rolling quality and precision of workpiece.
Schematically the utility model and embodiments thereof are described above, description is not limiting, attached drawing Shown in also be this patent one of embodiment, actual structure is not limited to this.So if this field it is general Logical technical staff is enlightened by it, without deviating from the purpose of the present invention, is not inventively designed and is somebody's turn to do The similar frame mode of technical solution and embodiment, all should belong to the protection range of the utility model.

Claims (8)

1. a kind of y-type rolling mill tandem rolling centering and pass detecting system, it is characterised in that:It is connect including laser beam emitting device (1), laser Receiving apparatus (5) and laser scanning device (3) set on the laser beam emitting device (1) there are three laser emitter (7,8,9), swash Optical receiver apparatus (5) is equipped with three laser pickoffs (18,19,20) corresponding with laser emitter, the laser scanning Device (3) be equipped with for laser by three positioning apertures (14,15,16) and laser range sensor (11).
2. a kind of y-type rolling mill tandem rolling centering according to claim 1 and pass detecting system, it is characterised in that:It is described to swash Light scanning apparatus (3) is connected with signal control acquisition system (6).
3. a kind of y-type rolling mill tandem rolling centering according to claim 2 and pass detecting system, it is characterised in that:It is described to swash Light scanning apparatus (3) is equipped with swing mechanism, drives laser range sensor (11) to deflect by swing mechanism, to right Difference on roll is scanned ranging successively.
4. a kind of y-type rolling mill tandem rolling centering according to claim 3 and pass detecting system, it is characterised in that:Described Swing mechanism includes Y shafts swing mechanism (12) and X shafts swing mechanism (13), and the X shafts swing mechanism (13) includes peace Loaded on the X shafts on laser scanning device (3), and the motor that drives X shafts to turn round;The Y shafts swing mechanism (12) include the Y shafts being mounted in X shafts, and the motor for driving Y shafts to turn round;The laser range sensor (11) it is mounted in Y shafts, and laser range sensor (11) passes through cable and signal control with the motor in X shafts, Y shafts Acquisition system (6) connection processed.
5. a kind of y-type rolling mill tandem rolling centering and pass detecting system, feature according to any one of claim 1-4 exist In:The laser beam emitting device (1), laser receiver (5) and laser scanning device (3) are installed on holder, and above-mentioned The height of holder is adjustable.
6. a kind of y-type rolling mill tandem rolling centering and pass detecting system, feature according to any one of claim 1-4 exist In:It is additionally provided with signal indicator (17) on the laser scanning device (3).
7. a kind of y-type rolling mill tandem rolling centering according to claim 6 and pass detecting system, it is characterised in that:Described three The triangle center of a laser emitter (10) coincides with rolling centerline head, and three laser pickoffs are constituted Center (21) and the rolling centerline tail portion of triangle coincide.
8. a kind of y-type rolling mill tandem rolling centering and pass detecting system, feature according to any one of claim 2-4 exist In:The signal control acquisition system (6) includes control system, and data input, output port, host computer and processing analysis are soft Part system, control system are used to control motor rotation and the acquisition of signal transmission, and it is defeated that data input, output port is responsible for data Enter, export, host computer is responsible for receiving the signal that control system transmits, and is carried out to signal using processing analyzing software system Analysis, obtains y-type rolling mill pass situation and roller surface roller shape and defect situation.
CN201820524696.1U 2018-04-13 2018-04-13 A kind of y-type rolling mill tandem rolling centering and pass detecting system Expired - Fee Related CN208066952U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108311545A (en) * 2018-04-13 2018-07-24 安徽工业大学 A kind of y-type rolling mill tandem rolling centering and pass detecting system and method

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108311545A (en) * 2018-04-13 2018-07-24 安徽工业大学 A kind of y-type rolling mill tandem rolling centering and pass detecting system and method
CN108311545B (en) * 2018-04-13 2023-10-24 安徽工业大学 Y-type rolling mill continuous rolling centering and hole pattern detection system and method

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