CN103587552B - The wheel diameter of urban rail vehicle detecting device that linear sensor tilts to install and method - Google Patents

Abstract

The invention discloses wheel diameter of urban rail vehicle detecting device and the method for a kind of linear sensor inclination installation.This device comprises central processing unit and connected multiple laser sensor; The rail of detector segments outwards offsets, and arranges guard rail inside the rail of this detector segments; Laser sensor be arranged at rail offset vacate between region and guard rail, the probe of laser sensor arranges along rail direction and is distributed on the fixing horizon of length, each laser sensor probe to be measured and detecting light beam can arrive wheel simultaneously along different directions, and all laser sensors to be positioned at below wheel and coplanar with the wheel circumference carrying out diameter measurement.The method uses multiple laser sensor, and the while of being arranged on below wheel by it according to straight line tilt relationship, detecting wheel obtains sensing point, and obtain initial diameter by least square fitting, averaging to initial diameter obtains wheel diameter.On line non contact measurement of the present invention has the advantage that speed is fast, precision is high, measurement diameter range is large.

Description

The wheel diameter of urban rail vehicle detecting device that linear sensor tilts to install and method

Technical field

The present invention relates to railway wheel detection field, the wheel diameter of urban rail vehicle detecting device of particularly a kind of linear sensor inclination installation and method.

Background technology

City rail vehicle there will be abrasion in various degree in the process run, and wears away and can have an impact to wheel safe operation, and it is particularly crucial wherein to wear away the wheel diameter change caused.During train main track runs, coaxially and with steering framing wheel footpath differ from all limited requirement, the difference excessive wheel that easily causes in coaxial wheels footpath is to scratch, and same wheel excessively also easily causes flange wear or train abnormal vibrations to wheel footpath difference, therefore to the measurement of wheel diameter to safe train operation important in inhibiting.

Conventional arc radius method of measurement comprises slide calliper rule method and arc height chord length method, and wherein slide calliper rule method is applicable to the not high occasion of accuracy requirement, and measurement range is by the restriction of arc length, and slide calliper rule range is by the restriction of located lateral frame; And the operation of arc height chord length method is more loaded down with trivial details, these two kinds of methods are generally used for doing static off-line measurement to workpiece.Chinese patent CN201159640Y(diameter measurement device of railway wheel, application number: 200820055350.8, the applying date: 2008-02-02) disclose a kind of arc height chord length method measurement radius of wheel device, repair method belongs to hand dipping and off-line is measured automatically, when needing after wheels travel a period of time regularly to send workshop to overhaul.This static off-line measurement adopts special measuring tool or omnipotent measurer manual detection, there is the shortcomings such as testing result error is large, poor accuracy, rework rate are high, inefficiency, labour intensity are large.

Contactless on-line measurement wheel grows up gradually to diameter or rail wheels geometric parameters, Chinese patent CN1899904A(detector for train wheel pair size online test method and device, application number: 200510035961.7 applyings date: 2005-07-20), the laser displacement sensor of certain distance is installed in the both sides of every one steel rail, sensor is measured obliquely from the bottom side of rail, thus record wheel tread data, and obtain diameter based on the speed calculating of train movement through two laser sensor chord lengths.The shortcoming of the method is, needs to utilize train speed information simultaneously, can not the measurement of complete independently diameter, and utilizes single laser sensor record tread information, cannot can accurately locate diameter position due to the change of tread.Chinese patent CN101219672A(is based on the wheel diameter non-contact type dynamic measurement method of laser, application number: 200810056339.8 applyings date: 2008-01-16) adopt two laser displacement sensor direct irradiation wheel tread rolling surfaces, wheel diameter is measured by the geometry site of sensor installation, the shortcoming of the method does not solve alignment issues for detecting line, and same approximate method of cutting sth. askew, accurately wheel diameter cannot be described.To sum up, still there is the shortcomings such as survey precision is not high, measurement speed of response is slow, engineering construction is difficult in current noncontact wheel diameter measurement technology.

Summary of the invention

The wheel diameter of urban rail vehicle detecting device that the object of the present invention is to provide a kind of high-precision linear sensor to tilt to install and method, adopt non-contact measurement, detection speed is fast, measurement range is large.

The technical solution realizing the object of the invention is:

The wheel diameter of urban rail vehicle detecting device that linear sensor tilts to install, comprise central processing unit and multiple laser sensor, described laser sensor is all connected with central processing unit; The rail of detector segments outwards offsets, and arranges guard rail inside the rail of this detector segments, tangent inside guard rail and wheel rim; Laser sensor be arranged at rail offset vacate between region and guard rail, the probe of laser sensor arranges along rail direction and is distributed on the fixing horizon of length, each laser sensor probe to be measured and detecting light beam can arrive wheel simultaneously along different directions, and all laser sensors to be positioned at below wheel and coplanar with the wheel circumference carrying out diameter measurement.

The wheel diameter of urban rail vehicle detecting device that linear sensor tilts to install, comprises the following steps:

1st step, each laser sensor is installed on rail and offsets the region vacated, the probe of laser sensor is along the arrangement of rail direction and be distributed on horizon that length is L, each laser sensor probe is along different directions measurement and detecting light beam can arrive wheel simultaneously, and each laser sensor is designated as P respectively _i, be followed successively by 1,2 along rail direction i ... n, n are the number of laser sensor;

2nd step, sets up two-dimensional coordinate system at the wheel circumference carrying out diameter measurement: be X-axis along rail direction, in the plane through first laser sensor P ₁and be upwards Y-axis perpendicular to rail, then coordinate (the x of laser sensor _i, y _i) determined by following formula:

$\left\{\begin{array}{c}{x}_i=(i-1)\×L/(n-1)\\ y_i=y_1\end{array}\right.i=\mathrm{1,2}...n$

According to the coordinate of laser sensor, the mounted angle θ of each laser sensor probe relative to X-axis is set _i, make all detecting light beams can arrive wheel simultaneously;

3rd step, gathers the output valve of all laser sensors, and selects the valid data group { S simultaneously having n sensor output value _i, S _ibe i-th sensor P _ioutput valve, i=1,2 ... n;

4th step, according to sensor P _ioutput valve S _i, coordinate figure (x _i, y _i), mounted angle θ _idetermine respective sensor P on wheel _imeasurement point coordinate (X _i, Y _i):

(X _i,Y _i)＝(x _i,y _i)+(S _i×cosθ _i,S _i×sinθ _i)i＝1,2…n

5th step, according to n on wheel measurement point coordinate (X _i, Y _i) carry out fitting circle, obtain the wheel diameter D of this measuring position;

The multiple valid data groups collected are carried out matching and are obtained a series of wheel diameter, averaged by a series of wheel diameters obtained, obtain the wheel diameter D that this measuring position is final by the 6th step _final.

Compared with prior art, remarkable advantage of the present invention is: (1), based on laser detection system, by the algorithm of least square fitting, realize the online noncontact measurement of train wheel, survey precision is high; (2) by any multiple spot coordinate of laser sensor automatic acquisition wheel, by corresponding data Processing Algorithm, institute's measuring car wheel diameter is instantly obtained, fast simple, convenient; (3) there is the advantage that detection speed is fast, measurement range is large.

Accompanying drawing explanation

Fig. 1 is the postrun abrasion schematic diagram of wheel tread.

Fig. 2 is the structural representation of the wheel diameter detecting device that linear sensor of the present invention tilts to install.

Fig. 3 is the schematic diagram of rail switching place in wheel diameter of urban rail vehicle detecting device of the present invention.

Fig. 4 is that the distance Q of rail of the present invention skew and the size of guard rail break face schematic diagram.

Fig. 5 is that the wheel diameter that in embodiment 1, laser sensor straight line tilts to install detects schematic diagram.

Fig. 6 is the relation of the observed reading t (ms) in time of each laser sensor in embodiment 1.

Fig. 7 is a certain moment detection sequence point (X in embodiment 1 _i, Y _i) and matching after circle.

Whole diameters that Fig. 8 obtains for effective measured data values matchings all in embodiment 1.

Fig. 9 is duplicate measurements 20 diameter acquired results schematic diagrams in embodiment 1.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

The tread profile after the operation of certain wheel and tread profile when just putting into operation is indicated in Fig. 1, can find out that distance wheel rim side place 70mm concentrates for abrasion to locate, this place is measurement diameter position conventional in engineering, and wheel diameter often controls between 770 ~ 840mm, therefore laser sensor sensing point is chosen for the wheel circumference at this place.

The wheel diameter of urban rail vehicle detecting device that linear sensor of the present invention tilts to install, comprise central processing unit and multiple laser sensor, described laser sensor is all connected with central processing unit; The rail of detector segments outwards offsets, and arranges guard rail inside the rail of this detector segments, tangent inside guard rail and wheel rim; Laser sensor be arranged at rail offset vacate between region and guard rail, the probe of laser sensor arranges along rail direction and is distributed on the fixing horizon of length, each laser sensor probe to be measured and detecting light beam can arrive wheel simultaneously along different directions, and all laser sensors to be positioned at below wheel and coplanar with the wheel circumference carrying out diameter measurement.

As shown in Figure 2, in detector segments, rail 6 is partially outer, vacate certain area, laser sensor probe 3 is arranged on below the measurement point of wheel 1, guard rail 5 is set inside wheel rim and causes derailing to prevent taking turns in S or end float misalignment, laser sensor probe 3 is fixed by clamp of sensor 4, and can adjust position and the inclination angle of laser sensor probe 3, and the laser beam 2 that each laser sensor probe 3 sends can detect the corresponding check point on wheel simultaneously.

As shown in Figure 3, switching place that rail outwards offsets is arc, is conducive to train and enters and exit detecting area.Fig. 4 describes the concrete size Q that rail outwards offsets, and for wheel tread and 60 rails, Q controls between 50 ~ 65mm, makes track centerline not exceed the outer rim of wheel.Guard rail exceeds the size P of wheel rim, controls between 30 ~ 50mm.The distance of carrying out the wheel circumference distance wheel rim side of diameter measurement is 70mm.

Due to wheel to be measured and track Long Term Contact, smooth surface roughness is low, therefore relates to the metal curved surface utilizing laser scanning testing head very strong to mirror-reflection and carries out profile measurement, and this measurand is a difficult point in current topography measurement field.Zhang Liang etc. analyze existing several laser feeler to the measurement capability of metal surface, show that cone light polarization holography probe and oblique fire formula triangle probe are comparatively applicable to measuring metal curved surface (Zhang Liang, Fei Zhigen, Guo Junjie. laser scanning testing head is to metal curved surface measuring study, lathe and hydraulic pressure, the 39th volume the 9th phase: in May, 2011).Therefore the laser sensor that the present invention relates to, preferably cone light polarization holography probe and oblique fire formula triangle probe, the quantity of laser sensor is 3 ~ 10 and the probe of all laser sensors is fixed on below wheel by clamp of sensor.

The wheel diameter of urban rail vehicle detecting device using the sensor straight line to tilt to install carries out the method for wheel diameter detection, comprises the following steps:

1st step, each laser sensor is installed on rail and offsets the region vacated, the probe of laser sensor is along the arrangement of rail direction and be distributed on horizon that length is L, each laser sensor probe is along different directions measurement and detecting light beam can arrive wheel simultaneously, and each laser sensor is designated as P respectively _i, be followed successively by 1,2 along rail direction i ... n, n are the number of laser sensor;

2nd step, sets up two-dimensional coordinate system at the wheel circumference carrying out diameter measurement: be X-axis along rail direction, in the plane through first laser sensor P ₁and be upwards Y-axis perpendicular to rail, then coordinate (the x of laser sensor _i, y _i) determined by following formula:

$\left\{\begin{array}{c}{x}_i=(i-1)\×L/(n-1)\\ y_i=y_1\end{array}\right.i=\mathrm{1,2}...n$

According to the coordinate of laser sensor, the mounted angle θ of each laser sensor probe relative to X-axis is set _i, make all detecting light beams can arrive wheel simultaneously;

3rd step, gathers the output valve of all laser sensors, and selects the valid data group { S simultaneously having n sensor output value _i, S _ibe i-th sensor P _ioutput valve, i=1,2 ... n;

4th step, according to sensor P _ioutput valve S _i, coordinate figure (x _i, y _i), mounted angle θ _idetermine respective sensor P on wheel _imeasurement point coordinate (X _i, Y _i):

(X _i,Y _i)＝(x _i,y _i)+(S _i×cosθ _i,S _i×sinθ _i)i＝1,2…n

5th step, according to n on wheel measurement point coordinate (X _i, Y _i) carry out fitting circle, obtain the wheel diameter D of this measuring position; Adopt method of least square to carry out fitting circle, formula is as follows:

$\sqrt{a^2{+b}^2+4\frac{\mathrm{\Σ}({X_i}^2+{Y_i}^2)+\mathrm{a\Σ}{X}_i+\mathrm{b\Σ}{Y}_i}{n}}$

Wherein, a is the center of circle abscissa x after matching ₀-2 times of i.e. a=-2x ₀, b is the center of circle ordinate y after matching ₀-2 times of i.e. b=-2y ₀, and

$a=\frac{\mathrm{HD}-\mathrm{EG}}{\mathrm{CG}-D^2}$

$b=\frac{\mathrm{HC}-\mathrm{ED}}{D^2-\mathrm{GC}}$

Wherein C, D, E, G, H are intermediate parameters, as follows respectively:

$\left.\begin{array}{c}C=\mathrm{n\Σ}{X}_i^2-\mathrm{\Σ}{X}_i\mathrm{\Σ}{X}_i\\ D=\mathrm{n\Σ}{X}_i{Y}_i-\mathrm{\Σ}{X}_i\mathrm{\Σ}{Y}_i\\ E=\mathrm{n\Σ}{X}_i^3+\mathrm{n\Σ}{X}_i{Y_i}^2-\mathrm{\Σ}(X_i^2+{Y_i}^2)\mathrm{\Σ}{X}_i\\ G=\mathrm{n\Σ}{Y_i}^2-\mathrm{\Σ}{Y}_i\mathrm{\Σ}{Y}_i\\ H=\mathrm{n\Σ}{X}_i^2{Y}_i+\mathrm{n\Σ}{Y_i}^3-\mathrm{\Σ}({X_i}^2+{Y_i}^2)\mathrm{\Σ}{Y}_i\end{array}\right\}i=\mathrm{1,2}...n$

The multiple valid data groups collected are carried out matching and are obtained a series of wheel diameter, averaged by a series of wheel diameters obtained, obtain the wheel diameter D that this measuring position is final by the 6th step _final.

Below in conjunction with specific embodiment, the present invention is described in further detail.

Embodiment 1

The present embodiment is wheel diameter of urban rail vehicle detecting device and the method for linear sensor inclination installation.

As shown in Figure 5, the probe of laser sensor is along the arrangement of rail direction and be distributed on horizon that length is L, arranges the mounted angle θ of each laser sensor probe relative to X-axis according to the coordinate of laser sensor _i, enable each laser sensor pop one's head in along different directions measure and detecting light beam arrives wheel simultaneously.

The installation parameter of laser sensor meets the following conditions: the number of laser sensor is n and 3≤n≤10, laser sensor is installed horizon length and is E and n × 30mm≤L≤1800mm, along the attachment point of first laser sensor in rail direction to the vertical distance of track is | y ₁| and | y ₁|>=100mm.

According to engineering reality and the analysis to measured error, 4 parameters are preferably as follows:

$\left\{\begin{array}{c}{y}_1=-100\\ n=6\\ L=1000\end{array}\right.$

Thus obtain the coordinate (x of each sensor _i, y _i) (unit: mm) and mounted angle θ _i(unit: °):

θ _i＝[45609090120135]

$\left\{\begin{array}{c}{x}_i=\left[\begin{array}{cccccc}0& 200& 400& 600& 800& 1000\end{array}\right]\\ y_i=\left[\begin{array}{cccccc}-100& -100& -100& -100& -100& -100\end{array}\right]\end{array}\right.$

If the sampling period of laser sensor is 1kHz, measure random error 0.1mm, by computer modeling produce diameter be the tested vechicle wheel measurement data of 800 as shown in Figure 6, export diameter by take off data according to following steps:

(1.1) all laser sensor output point sequence S are collected _i, and select data when 6 sensors effectively detect.A certain moment wheel is through out-of-date effective value:

S _i＝[383.1241244.0411153.031199.8297140.6533243.1484]

(1.2) for the output valve S of sensor _iand attachment point coordinate (x _i, y _i), inclination angle theta _i, push away to obtain the point coordinate (X on camber line _i, Y _i); Fig. 7 depicts S _isequence of points (the X determined _i, Y _i) and this moment matching after circle:

$\left\{\begin{array}{c}{X}_i=\left[\begin{array}{cccccc}170.8398& 269.9187& 400.0000& 600.0000& 677.3753& 727.9330\end{array}\right]\\ Y_i=\left[\begin{array}{cccccc}170.9372& 111.2730& 52.7153& -0.1772& 22.1058& 71.9640\end{array}\right]\end{array}\right.$

(1.3) by sequence of points (X _i, Y _i) after according to least square fitting circle, to obtain the diameter in this moment be 798.853mm.Fig. 8 is the corresponding wheel diameter values in all effective measurement moment, and in useful range, the data in all moment calculate diameter be D is 797mm ~ 803mm.

(1.4) data in Fig. 8 are averaged, obtain the output diameter D of one-shot measurement _final=800.17mm.Analogue measurement 20 times, obtains the result of a measurement shown in accompanying drawing 9, and from this result of a measurement, this embodiment can realize the high-acruracy survey of wheel diameter, <0.35mm when installation error do not considered by measured error.

In sum, the wheel diameter of urban rail vehicle detecting device that linear sensor of the present invention tilts to install and method, by the algorithm of least square fitting, realize the online noncontact measurement of train wheel, survey precision is high; By any multiple spot coordinate of laser sensor automatic acquisition wheel, by corresponding data Processing Algorithm, obtain institute's measuring car wheel diameter instantly, fast simple, convenient; And there is the advantage that detection speed is fast, measurement range is large.

Claims (2)

1. a wheel diameter of urban rail vehicle method of inspection for linear sensor inclination installation, it is characterized in that, comprise central processing unit and multiple laser sensor, described laser sensor is all connected with central processing unit; The rail of detector segments outwards offsets, and arranges guard rail inside the rail of this detector segments, tangent inside guard rail and wheel rim; Laser sensor be arranged at rail offset vacate between region and guard rail, the probe of laser sensor arranges along rail direction and is distributed on the fixing horizon of length, each laser sensor probe is along different directions measurement and detecting light beam can arrive wheel simultaneously, all laser sensors to be positioned at below wheel and coplanar with the wheel circumference carrying out diameter measurement, specifically comprise the following steps:

1st step, each laser sensor is installed on rail and offsets the region vacated, the probe of laser sensor is along the arrangement of rail direction and be distributed on horizon that length is L, each laser sensor probe is along different directions measurement and detecting light beam can arrive wheel simultaneously, and each laser sensor is designated as P respectively _i, be followed successively by 1,2 along rail direction i ... n, n are the number of laser sensor;

2nd step, sets up two-dimensional coordinate system at the wheel circumference carrying out diameter measurement: be X-axis along rail direction, in the plane through first laser sensor P ₁and be upwards Y-axis perpendicular to rail, then coordinate (the x of laser sensor _i, y _i) determined by following formula:

$\{\begin{array}{c}{x}_i=(i-1)\&times;L/(n-1)\\ y_i=y_1\end{array},i=1,2...n$

According to the coordinate of laser sensor, the mounted angle θ of each laser sensor probe relative to X-axis is set _i, make all detecting light beams can arrive wheel simultaneously;

3rd step, gathers the output valve of all laser sensors, and selects the valid data group { S simultaneously having n sensor output value _i, S _ibe i-th sensor P _ioutput valve, i=1,2 ... n;

4th step, according to sensor P _ioutput valve S _i, coordinate figure (x _i, y _i), mounted angle θ _idetermine respective sensor P on wheel _imeasurement point coordinate (X _i, Y _i):

(X _i,Y _i)＝(x _i,y _i)+(S _i×cosθ _i,S _i×sinθ _i)i＝1,2…n

5th step, according to n on wheel measurement point coordinate (X _i, Y _i) carry out fitting circle, obtain the wheel diameter D of this measuring position;

The multiple valid data groups collected are carried out matching and are obtained a series of wheel diameter, averaged by a series of wheel diameters obtained, obtain the wheel diameter D that this measuring position is final by the 6th step _final.

2. the wheel diameter of urban rail vehicle method of inspection of linear sensor inclination installation according to claim 1, is characterized in that, according to n on wheel measurement point coordinate (X described in the 5th step _i, Y _i) carry out fitting circle, adopt method of least square, formula is as follows:

$D=\sqrt{a^2+b^2+4\frac{\mathrm{\&Sigma;}({X_i}^2+{Y_i}^2)+{\mathrm{a\&Sigma;X}}_i+{\mathrm{b\&Sigma;Y}}_i}{n}},i=1,2...n$

Wherein, a is the center of circle abscissa x after matching ₀-2 times of i.e. a=-2x ₀, b is the center of circle ordinate y after matching ₀-2 times of i.e. b=-2y ₀, and

$a=\frac{HD-EG}{CG-D^2}$

$b=\frac{HC-ED}{D^2-GC}$

Wherein C, D, E, G, H are intermediate parameters, as follows respectively:

$\left.\begin{array}{c}C={\mathrm{n\&Sigma;X}}_i^2-{\mathrm{\&Sigma;X}}_i{\mathrm{\&Sigma;X}}_i\\ D={\mathrm{n\&Sigma;X}}_i{Y}_i-{\mathrm{\&Sigma;X}}_i{\mathrm{\&Sigma;Y}}_i\\ E={\mathrm{n\&Sigma;X}}_i^3+{\mathrm{n\&Sigma;X}}_i{Y}_i^2-\mathrm{\&Sigma;}(X_i^2+Y_i^2){\mathrm{\&Sigma;X}}_i\\ G={\mathrm{n\&Sigma;Y}}_i^2-{\mathrm{\&Sigma;Y}}_i{\mathrm{\&Sigma;Y}}_i\\ H={\mathrm{n\&Sigma;X}}_i^2{Y}_i+{\mathrm{n\&Sigma;Y}}_i^3-\mathrm{\&Sigma;}({X_i}^2+{Y_i}^2){\mathrm{\&Sigma;Y}}_i\end{array}\right\},i=1,2...n.$