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A Contour Error Estimation Method Based on h-Type Precision Motion Platform

A precision motion and contour error technology, applied in program control, instrument, electrical program control, etc., can solve the problems of increased estimation error, inappropriateness, inaccuracy, etc., to reduce the contour error and improve the accuracy.

Active Publication Date: 2021-05-14
SHENYANG POLYTECHNIC UNIV
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AI Technical Summary

Problems solved by technology

When the distance from the actual position point to the approximate contour error occurrence point is used as the estimated value, if the desired contour is a free curve, the approximate trajectory will deviate from the actual command trajectory, resulting in inaccurate approximate contour error occurrence points and increasing the estimation error
However, the iterative comparison method takes a long time to calculate. If you want to obtain a more accurate contour error, the number of iterations and the time used may exceed the load of the contour tracking system. less suitable for contour-following motion control with compensation

Method used

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  • A Contour Error Estimation Method Based on h-Type Precision Motion Platform
  • A Contour Error Estimation Method Based on h-Type Precision Motion Platform
  • A Contour Error Estimation Method Based on h-Type Precision Motion Platform

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[0045]DETAILED DESCRIPTION First: Real-time contour error estimation model of any trajectory is likefigure 1 Disted, R1(t) is a desired movement trajectory position; R2(t) is a reference point on the desired trajectory for reverse push;1(t) is the actual motion trajectory position; EtFor contour tracking errors; O, R is over R1(t) The center and radius of the internal cut circle; the arc length corresponding to the angle β; α is over R1The tangent and the x-axis angle are cut off at the point. Contour Estimation Error EcP1(t) to line R1(t) R2Distance of (t).

[0046]Step 1: Calculate in the reference point R1(t) The curvature ρ and the radius of curvature r are as follows:

[0047]

[0048]among them,For the desired processed profile in R1(t) The slope when the Y axis is the argument;For in R1(t) Second order guide at the time of the X-axis as the argument.

[0049]Step 2: Calculate R1(t) Click the tangent and the x-axis angle α, as follows:

[0050]

[0051]among them,For the desired processed profi...

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Abstract

The invention belongs to the technical field of precision and high-efficiency numerical control machining, and can effectively improve the accuracy of contour error estimation for free curves with different curvature changes, thereby reducing contour errors generated during contour tracking motion. It includes the following steps: Step 1: Calculate any reference point R on the desired machining contour of the H-type precision motion platform 1 Curvature ρ and curvature radius r at (t); Step 2: Calculate any reference point R on the expected machining contour of the H-type precision motion platform 1 (t) place tangent line and X-axis angle α; Step 3: calculate the circle center coordinate (O of the inscribed circle according to geometric relationship x o y ); Step 4: Use the area of ​​the triangle to calculate the central angle β and its corresponding arc length l; Step 5: Calculate R with the arc length l 2 (t) to R 1 (t) the motion time Δt; Step 6: use the second-order Taylor series expansion to calculate R 2 (t) coordinates (R 2x R 2y ); Step 7: Calculate the estimated contour error E of any trajectory by using the area of ​​the triangle c .

Description

Technical field[0001]The present invention belongs to the field of precision and efficient numerical control processing, and it is related to a contour error estimation method based on an H-type precision motion platform.Background technique[0002]In modern CNC machine tools, the contour tracking movement of the multi-axis servo system is an important application and is widely used in various types of processing. Therefore, how to reduce the error in the process of contour tracking motion, which is currently used for the indicator of the contour tracking accuracy to track the error and contour error, where the tracking error is defined as the distance from the expected location point to the actual location point; The error is defined as the shortest distance from the actual location point to the entire desired track, so the contour error is an important basis for judging the processed profile deviation from the desired trajectory.[0003]The method of estimating the contour error, more...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B19/19
CPCG05B19/19G05B2219/35349
Inventor 王丽梅张康
Owner SHENYANG POLYTECHNIC UNIV
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