CN107747931B - For the self-alignment reading head optimization placement method of angular encoder - Google Patents

Abstract

The present invention relates to one kind to be used for the self-alignment reading head optimization placement method of angular encoder comprising following steps: determining the transmission function in angle error analysis using Fourier analysis method and analyzes its characteristic；Comprehensively consider the factors such as harmonics restraint, random noise and calibration accuracy and establishes optimization aim；Determine the constraint conditions such as the initial parameters such as reading head number, calibration harmonic wave sum and reading head installation minimum angles interval, and then solving optimization problem etc..It is proposed by the present invention to can be realized the high-precision to angular encoder for the self-alignment reading head optimization placement method of angular encoder, calibrate quickly, in real time, in place, and cost is lower, wherein two reading head the optimum layout schemes are especially suitable for conventional high precision measurement system, and three reading head optimization systems more can be used for the calibration occasion of superhigh precision.

Description

For the self-alignment reading head optimization placement method of angular encoder

Technical field

The present invention relates to a kind of calibration methods of angle measurement unit in field of precision measurement, are used for more particularly to one kind The self-alignment reading head optimization placement method of angular encoder.

Background technique

Angular encoder is the critical component in field of precision measurement, is mainly used in the high precision measuring device of angle value In, such as machine tool rotary working table, precise rotating platform and angular measure National primary standard etc..Typically angular encoder mainly includes Circular gratings code-disc and reading head.In practical work process, the measurement accuracy of angular encoder is affected by many factors, comprising: The accuracy of grating pitch, signal subdivision quality, grating installation deformation, the installation of reading head and alignment error, grating relative to The setting-up eccentricity of bearing, bearing bounce even temperature change etc..Therefore just needs determined by being calibrated to encoder into And the measurement error caused by compensating by these factors, improving measurement accuracy.

A kind of traditional calibration method is by the angle-measuring equipment (reference encoder device or polygon etc.) of a higher precision It is co-axially mounted with tested angular encoder, determines the error of tested angular encoder by continuously measuring the difference of the two.But It is that this method real-time is poor, cumbersome time-consuming, simultaneously because having ignored the correlated error with reference to angle-measuring equipment, therefore its school Quasi- precision is limited.Another traditional calibration method is known as sewage station, and cardinal principle is by by tested angular encoder It is co-axially mounted with detection angle apparatus (such as polygon, multiteeth indexing table) is accompanied, the comparison measurement of repeatedly indexing is carried out, according to circle All closure principles carry out error separate, finally may separate out the angle for eliminating the tested angular encoder for accompanying checking device error to influence Spend error.Sewage station has very high calibration accuracy, but there is the problems such as operation is time-consuming, calibration points are limited.

In order to avoid using other angle-measuring equipments, while realizing real-time quick school of the angular encoder in its installation axle Standard, self-calibration technique is also widely used in recent years.Retrieval discovery by existing technical literature, Patent No. The United States Patent (USP) of US7840372B2 TDR method collimation angle encoder, but this method can only be used to calibrate air bearing or magnetic is floating The negligible frictional resistance class main shaft such as bearing, and its algorithm complexity is not easy to operate；The United States Patent (USP) of Patent No. US7143518B2 Using M reading head around Circular gratings equiangularly spaced equally distributed mode, can calibrate to obtain in angular error except M and Times all harmonic components of residue outer for several times of M, but in order to obtain higher calibration accuracy, required reading head generally is Five or more, such method had not only had that reading head mounting and adjusting difficulty was big, but also increased corresponding cost.Also there are other Document give it is several for the self-alignment reading head arrangement of angular encoder, but all exist using reading head number compared with More, arrangement does not pass through the problems such as optimization design.

Summary of the invention

Technical problem to be solved by the invention is to provide one kind to optimize cloth for the self-alignment reading head of angular encoder Method is set, the high-precision to angular encoder is can be realized, calibrates quickly, in real time, in place, and cost is lower, wherein two read Several the optimum layout schemes are especially suitable for conventional high precision measurement system, and three reading head optimization systems more can be used for surpassing High-precision calibration occasion.

The present invention is that above-mentioned technical problem is solved by following technical proposals: one kind being used for angular encoder self calibration Reading head optimization placement method, which is characterized in that it is described be used for the self-alignment reading head optimization placement method of angular encoder The following steps are included:

Step 1: it determines the transmission function in angle error analysis and analyzes its characteristic:

K-th of reading head H_kRelative to first reading head H₁Installation interval angle be α_k(α₁=0), then in Circular gratings During code-disc rotates, reading head H_kReading H_k(θ) had not only contained true rotation angle, θ, but also contained at the measuring point Angle error ε (θ+α_k), shown in following formula:

H_k(θ)=θ+ε (θ+α_k)

Angle, θ can be eliminated by the relative difference of two reading head readings in actual test, obtaining only includes angle measurement The relational expression of error, reading head H_kWith H_rThe following formula of relative difference shown in:

δ_kr(θ)=H_k(θ)-H_r(θ)=ε (θ+α_k)-ε(θ+α_r)

Again since angular encoder will repeat original error for each revolution, angle error has the period Property, it can be indicated with fourier series, shown in following formula:

In formula, n indicates each order harmonic component, and N is the harmonic wave to be analyzed sum, and F (n) is Fourier coefficient；Based on circle All closure principles, DC component F (0)=0；E is the nature truth of a matter, real number 2.718281；

It equally can also be to difference functions δ_kr(θ) carries out Fourier transform, if E_krIt (n) is δ_krFourier leaf system corresponding to (θ) It counts, then E_kr(n) and shown in the following formula of the relativeness of F (n):

W in formula_krIt (n) is transmission function, it can be seen that W_kr(n) interval angles only between reading head are related, because This, measures difference functions δ_krAfter (θ), its fourier coefficient E is obtained by Discrete Fourier Transform_kr(n), and then transmitting is combined Function W_kr(n) the Fourier coefficient F (n) that angle error can be obtained acquires angle finally by inverse discrete Fourier transformer inverse-discrete and compiles Code device angle error function of ε (θ)；

Further for the encoder self-calibration system of reading head number M > 2, it is ok by any two of them reading head F (n) is obtained, therefore a total ofA combination, the estimation precision of F (n) can further be promoted by comprehensively utilizing all combinations, as follows Shown in formula:

Wherein, p_krIt (n) is weighting coefficient, shown in following formula:

In order to analyze the characteristic of transmission function, the mould for seeking transmission function is shown below:

Due to | exp (in α_r) | ≡ 1, therefore for the harmonic component of specific order, two reading head transmission function moulds it is big Angle between small and the two reading heads is related, further analysis can obtain 0≤| W_kr(n) |≤2, it in addition can also be with by formula Find out, when | W_kr(n) | when=0, harmonics restraint can be led to the problem of, i.e. the n-th harmonic component of angle error is difficult to use Fourier It is zero that method, which acquires and can only set the order harmonic component by force, and calibration result is caused to deviate its actual value；Furthermore in measurement process Noise and random disturbances are inevitably present, and can give difference functions δ in this way_krEach rank fourier coefficient E corresponding to (θ)_kr (n) certain measurement error is brought, and for an equal amount of deviation, | W_kr(n) | value it is smaller, lead to the F finally released (n) error is bigger；Only | W_kr(n) | value be greater than 1 when, can just play inhibiting effect to noise, comprehensively consider factors above, The method of the present invention recommendation takes | W_kr(n) | threshold value be 1, as | W_kr(n) | the order harmonic component can be measured effectively when > 1；

Step 2: reasonable optimization problem is determined according to the characteristic of step 1:

For the system of reading head number M > 2, it is believed that the abundant item that n-th certain harmonic components can be detected effectively Part is: as long as wherein there are two the corresponding transmission functions of reading head to meet | W_kr(n) | > 1, that is to say, that system detection is not To the following formula of condition of n-th harmonic component:

In formula, | | W (n) | |_∞It indicates by each element W_kr(n) Infinite Norm of the vector W (n) formed, setting need to detect Harmonic wave sum be preceding n times, then optimization problem can be summarized as following formula:

s.t.α₀≤α₂≤α₃–α₂≤,···,≤α_k–α_k-1≤,···,≤α_M–α_M-1≤360°–α_M

Wherein optimization aim means that the harmonic wave sum that cannot be effectively detected is minimum；The selection of constraint condition be for The uniqueness solved, avoids the occurrence of more solutions to waste computing resource, α₀Indicate the minimum angles interval between two reading heads, It can be established according to factors such as the geometric dimensions of reading head；

Step 3: solving optimization problem:

Firstly the need of setting initial parameter when being solved for the optimization problem in step 2, comprising: reading head used Number M, need the harmonic wave sum N detected, minimum angles interval α between reading head₀And | W_kr(n) | threshold value, due to optimization The objective function of problem is not convex function, globally optimal solution is not present, therefore can solve using heuritic approach, for example hereditary Algorithm, differential evolution algorithm or particle swarm algorithm, when the dimension of problem is smaller, increment uses traversal also at an angle It can be solved；

In fact in the industrial application of angular encoder, in angle error one as caused by Circular gratings code-disc setting-up eccentricity Subharmonic error is occupied an leading position, and adds other several biggish low-order harmonics of amplitude outside, and higher hamonic wave is smaller due to amplitude Substantially can ignore, present invention discover that being optimized in arrangement result using the reading head that above-mentioned optimization method obtains, two reading head systems System is enough suitable for conventional high-precision calibration occasion, such as time of machine tool rotary working table, lathe C axis, mechanical bearing support Transport the application of moving platform angularly encoder；And three reading head systems are enough the calibration occasion suitable for superhigh precision, Such as use High-precision angle encoder and the ultra-precise revolving motion platform of air-bearing.

Preferably, described to obtain two reading head systems for the self-alignment reading head optimization placement method of angular encoder Self calibration the optimum layout scheme: two reading heads are on five position of halving of circumference.

Preferably, described to obtain three reading head systems for the self-alignment reading head optimization placement method of angular encoder The optimum layout scheme.

The positive effect of the present invention is that: it is proposed by the present invention for the self-alignment reading head optimization of angular encoder Method for arranging can be realized the high-precision to angular encoder, calibrate quickly, in real time, in place, and cost is lower, wherein two readings Head the optimum layout scheme is especially suitable for conventional high precision measurement system, and three reading head optimization systems more can be used for superelevation The calibration occasion of precision.Characteristic of the present invention according to angle error transmission function in calibration process, establishes optimization object function, and Constraint condition is obtained in conjunction with practical application, and then to optimization problem solving to obtain ideal preferred arrangement scheme.

Detailed description of the invention

Fig. 1 is more reading head arrangement schematic diagrams in angular encoder.

Fig. 2 is the flow chart of the method for the present invention.

Fig. 3 is the optimum layout scheme schematic diagram of two reading head systems.

The arrangement schematic diagram that Fig. 3 a is reading head angle when being 72 degree.

The arrangement schematic diagram that Fig. 3 b is reading head angle when being 144 degree.

Fig. 4 is the amplitude schematic diagram of two reading head system each harmonic transmission functions.

Fig. 5 is two reading head system calibration performance simulation schematic diagrames.

Fig. 6 is the optimum layout scheme schematic diagram of three reading head systems.

Fig. 6 a is the first the optimum layout scheme schematic diagram of three reading head systems.

Fig. 6 b is second of the optimum layout scheme schematic diagram of three reading head systems.

Fig. 6 c is the third the optimum layout scheme schematic diagram of three reading head systems.

Fig. 7 is the amplitude schematic diagram of three reading head system each harmonic transmission functions.

Fig. 8 is three reading head system calibration performance simulation schematic diagrames.

Specific embodiment

Present pre-ferred embodiments are provided with reference to the accompanying drawing, in order to explain the technical scheme of the invention in detail.

Method shown in the present invention is described in further detail with reference to the accompanying drawings, angular encoder is equipped with M reading head, this hair How bright solution arranges this M reading head, so that between calibration curve obtained and the true angular error curve of encoder Relative error it is minimum, i.e., calibration accuracy highest, the present invention are used for the self-alignment reading head optimization placement method of angular encoder The following steps are included:

Step 1: it determines the transmission function in angle error analysis and analyzes its characteristic

K-th of reading head H_kRelative to first reading head H₁Installation interval angle be α_k(α₁=0), then in Circular gratings During code-disc rotates, reading head H_kReading H_k(θ) had not only contained true rotation angle, θ, but also contained at the measuring point Angle error ε (θ+α_k), shown in following formula (1):

H_k(θ)=θ+ε (θ+α_k)……(1)

Angle, θ can be eliminated by the relative difference of two reading head readings in actual test, obtaining only includes angle measurement The relational expression of error, reading head H_kWith H_rThe following formula of relative difference (2) shown in:

δ_kr(θ)=H_k(θ)-H_r(θ)=ε (θ+α_k)-ε(θ+α_r)……(2)

Again since angular encoder will repeat original error for each revolution, angle error has the period Property, it can be indicated with fourier series, shown in following formula (3):

In formula, n indicates each order harmonic component, and N is the harmonic wave to be analyzed sum, and F (n) is Fourier coefficient；Based on circle All closure principles, DC component F (0)=0；E is the nature truth of a matter, real number 2.718281；

It equally can also be to difference functions δ_kr(θ) carries out Fourier transform, if E_krIt (n) is δ_krFourier leaf system corresponding to (θ) It counts, then E_kr(n) and shown in the following formula of the relationship of F (n) (4) and (5):

W in formula_krIt (n) is transmission function, it can be seen that W_kr(n) interval angles only between reading head are related, because This, measures difference functions δ_krAfter (θ), its fourier coefficient E is obtained by Discrete Fourier Transform_kr(n), and then transmitting is combined Function W_kr(n) the Fourier coefficient F (n) that angle error can be obtained acquires angle finally by inverse discrete Fourier transformer inverse-discrete and compiles Code device angle error function of ε (θ)；

Further for the encoder self-calibration system of reading head number M > 2, it is ok by any two of them reading head F (n) is obtained, therefore a total ofA combination, the estimation precision of F (n) can further be promoted by comprehensively utilizing all combinations, as follows Shown in formula (6):

Wherein, p_krIt (n) is weighting coefficient, shown in following formula (7):

In order to analyze the characteristic of transmission function, shown in the mould such as following formula (8) for seeking transmission function:

Due to | exp (in α_r) | ≡ 1, therefore for the harmonic component of specific order, two reading head transmission function moulds it is big Angle between small and the two reading heads is related, further analysis can obtain 0≤| W_kr(n) |≤2, it in addition can also be with by formula Find out, when | W_kr(n) | when=0, harmonics restraint can be led to the problem of, i.e. the n-th harmonic component of angle error is difficult to use Fourier It is zero that method, which acquires and can only set the order harmonic component by force, and calibration result is caused to deviate its actual value；Furthermore in measurement process Noise and random disturbances are inevitably present, and can give difference functions δ in this way_krEach rank fourier coefficient E corresponding to (θ)_kr (n) certain measurement error is brought, and for an equal amount of deviation, | W_kr(n) | value it is smaller, lead to the F finally released (n) error is bigger；Only | W_kr(n) | value be greater than 1 when, can just play inhibiting effect to noise, comprehensively consider factors above, The method of the present invention recommendation takes | W_kr(n) | threshold value be 1, as | W_kr(n) | the order harmonic component can be measured effectively when > 1；

Step 2: reasonable optimization problem is determined according to the characteristic of step 1

For the system of reading head number M > 2, it is believed that the abundant item that n-th certain harmonic components can be detected effectively Part is: as long as wherein there are two the corresponding transmission functions of reading head to meet | W_kr(n) | > 1, that is to say, that system detection is not To the following formula of condition (9) of n-th harmonic component:

In formula, | | W (n) | |_∞It indicates by each element W_kr(n) Infinite Norm of the vector W (n) formed, setting need to detect Harmonic wave sum be preceding n times, then it is shown can be summarized as following formula (10) and (11) for optimization problem:

s.t.α₀≤α₂≤α₃–α₂≤,···,≤α_k–α_k-1≤,···,≤α_M–α_M-1≤360°–α_M……(11)

Wherein optimization aim means that the harmonic wave sum that cannot be effectively detected is minimum；The selection of constraint condition be for The uniqueness solved avoids the occurrence of more solutions to waste computing resource, and α 0 indicates the minimum angles interval between two reading heads, It can be established according to factors such as the geometric dimensions of reading head；

Step 3: solving optimization problem

Firstly the need of setting initial parameter when being solved for the optimization problem in step 2, comprising: reading head used Number M, need the harmonic wave sum N detected, minimum angles interval α between reading head₀And | W_kr(n) | threshold value, due to optimization The objective function of problem is not convex function, globally optimal solution is not present, therefore can solve using heuritic approach, for example hereditary Algorithm, differential evolution algorithm or particle swarm algorithm, when the dimension of problem is smaller, increment uses traversal also at an angle It can be solved；

In fact in the industrial application of angular encoder, in angle error one as caused by Circular gratings code-disc setting-up eccentricity Subharmonic error is occupied an leading position, and adds other several biggish low-order harmonics of amplitude outside, and higher hamonic wave is smaller due to amplitude Substantially can ignore, present invention discover that being optimized in arrangement result using the reading head that above-mentioned optimization method obtains, two reading head systems System is enough suitable for conventional high-precision calibration occasion, such as time of machine tool rotary working table, lathe C axis, mechanical bearing support Transport the application of moving platform angularly encoder；And three reading head systems are enough the calibration occasion suitable for superhigh precision, Such as use High-precision angle encoder and the ultra-precise revolving motion platform of air-bearing；

The present invention provides two reading heads and three reading heads acquired according to optimization aim formula and constraint condition formula below Optimum results, using the traversal of 0.1 ° of angle step, the initial parameter of selection are as follows: N=100, α₀=10 °.

Two reading head system self-calibration the optimum layout schemes that a kind of optimization method obtains: two reading heads are in On five position of halving of circumference, i.e., 72 ° or 144 ° are divided between the two angle.

A kind of the optimum layout scheme of the optimization method three obtained reading head system: a total of 3 kinds, reading head it Between angle interval combination be respectively (27 °, 36 °, 63 °), (36 °, 117 °, 153 °) and (81 °, 108 °, 171 °).

In conclusion the angular encoder self-alignment reading head optimization placement method proposed by the present invention that is used for is at less Number reading heads on the basis of can obtain very high calibration accuracy, therefore can greatly reduce installation and debugging difficulty and correlation at This, has good practical value.The solution of the present invention can be used in the high-precision of angular encoder, quick, real-time, school in place Standard, and cost is lower, wherein two reading head preferred arrangement schemes are highly suitable for conventional high precision measurement system, and three read Head optimization system more can be used for the calibration occasion of superhigh precision.

Particular embodiments described above, the technical issues of to solution of the invention, technical scheme and beneficial effects carry out It is further described, it should be understood that the above is only a specific embodiment of the present invention, is not limited to The present invention, all within the spirits and principles of the present invention, any modification, equivalent substitution, improvement and etc. done should be included in this Within the protection scope of invention.

Claims (3)

1. one kind is used for the self-alignment reading head optimization placement method of angular encoder, which is characterized in that described to be compiled for angle Code the self-alignment reading head optimization placement method of device the following steps are included:

Step 1: it determines the transmission function in angle error analysis and analyzes its characteristic:

K-th of reading head H_kRelative to first reading head H₁Installation interval angle be α_k, wherein α₁=0, then in Circular gratings code During disc spins, reading head H_kReading H_k(θ) had not only contained true rotation angle, θ, but also contained reading head H_kMeasuring point Angle error ε (θ+the α at place_k), shown in following formula:

H_k(θ)=θ+ε (θ+α_k)

Angle, θ is eliminated by the relative difference of two reading head readings in actual test, obtains the pass for including angle error It is formula, reading head H_kWith H_rThe following formula of relative difference shown in:

δ_kr(θ)=H_k(θ)-H_r(θ)=ε (θ+α_k)-ε(θ+α_r)

Again since angular encoder will repeat original error for each revolution, angle error has periodically, uses Fourier series indicates, shown in following formula:

In formula, n indicates each order harmonic component, and N is the harmonic wave to be analyzed sum, and F (n) is Fourier coefficient；It is sealed based on circumference Close principle, DC component F (0)=0；E is the nature truth of a matter, real number 2.718281；

To difference functions δ_kr(θ) carries out Fourier transform, if E_krIt (n) is δ_krFourier coefficient corresponding to (θ), then E_kr(n) with Shown in the following formula of the relativeness of F (n):

W in formula_krIt (n) is transmission function, W_kr(n) interval angles only between reading head are related, it is therefore possible for the detected that difference functions δ_krAfter (θ), its fourier coefficient E is obtained by Discrete Fourier Transform_kr(n), and then transmission function W is combined_kr(n) it is surveyed The Fourier coefficient F (n) of angle error acquires angular encoder angle error function of ε finally by inverse discrete Fourier transformer inverse-discrete (θ)；

For the encoder self-calibration system of reading head number M > 2, F (n) can be accessed by any two of them reading head, Therefore a total ofA combination comprehensively utilizes all estimation precisions for combining and being able to ascend F (n), shown in following formula:

Wherein, p_krIt (n) is weighting coefficient, shown in following formula:

In order to analyze the characteristic of transmission function, the mould for seeking transmission function is shown below:

Due to | exp (in α_r) | ≡ 1, therefore for the harmonic component of specific order, the size of two reading head transmission function moulds only with Angle between the two reading heads is related, and analysis can obtain 0≤| W_kr(n) |≤2, take | W_kr(n) | threshold value be 1, as | W_kr(n) | the order harmonic component can be measured effectively when > 1；

Step 2: reasonable optimization problem is determined according to the characteristic of step 1:

For the system of reading head number M > 2, the adequate condition that n-th certain harmonic components can be detected effectively is: as long as its In there are two the corresponding transmission functions of reading head to meet | W_kr(n) | > 1, i.e. item of the system detection less than n-th harmonic component The following formula of part:

In formula, | | W (n) | |_∞It indicates by each element W_kr(n) Infinite Norm of the vector W (n) formed, setting need to detect humorous Wave sum is preceding n times, then optimization problem is summarized as following formula:

s.t.α₀≤α₂≤α₃–α₂≤,···,≤α_k–α_k-1≤,···,≤α_M–α_M-1≤360°–α_M

Wherein optimization aim refers to that the harmonic wave sum that cannot be effectively detected is minimum；The selection of constraint condition is for solution Uniqueness, α₀It indicates the minimum angles interval between two reading heads, is established according at least to the geometric dimension factor of reading head；

Step 3: solving optimization problem:

When being solved for the optimization problem in step 2, it is necessary first to set initial parameter, comprising: of reading head used Minimum angles interval α between number M, the harmonic wave sum N for needing to detect, reading head₀And | W_kr(n) | threshold value, using heuristic calculation Method or traversal solve.

2. being used for the self-alignment reading head optimization placement method of angular encoder as described in claim 1, which is characterized in that institute It states and obtains two reading head system self-calibration the optimum layout sides for the self-alignment reading head optimization placement method of angular encoder Case: two reading heads are on five position of halving of circumference.

3. being used for the self-alignment reading head optimization placement method of angular encoder as described in claim 1, which is characterized in that adopt With the traversal of 0.1 ° of angle step, the initial parameter of selection are as follows: N=100, α 0=10 °, it is described to be used for angular encoder self-correcting Quasi- reading head optimization placement method obtains the optimum layout scheme of three reading head systems: the angle interval group between reading head Close is respectively (27 °, 36 °, 63 °), (36 °, 117 °, 153 °) and (81 °, 108 °, 171 °).