CN103307982A - On-line monitoring device for dimensions of wheel sets - Google Patents

Abstract

The invention discloses an on-line monitoring device for dimensions of wheel sets. The on-line monitoring device comprises grating sensors, a car number identifying antenna and 2D laser sensors, wherein four grating sensors are installed along the outer side of a side track in parallel, the car number identifying antenna is positioned between the first grating sensor and the second grating sensor and arranged between two tracks, the eight 2D laser sensors are located between the third grating sensor and the fourth grating sensor and 3-15m away from the third grating sensor, the 2D laser sensors are symmetrically installed on sides of two tracks, for a single track, three 2D laser sensors are installed on the inner side of two tracks, and one 2D laser sensor is installed on the outer side of the two tracks, and the two 2D laser sensors close to the fourth grating sensor are arranged symmetrically. The on-line monitoring device is simple in design, convenient to lay, small in calculation amount, high in measurement accuracy and high in practicability.

Description

The wheelset profile on-Line Monitor Device

Technical field

The invention belongs to rail vehicle on-line monitoring field, particularly a kind of wheelset profile on-Line Monitor Device.

Background technology

Locomotive wheel is the binding site of locomotive and track, is carrying the weight of whole locomotive and is guaranteeing locomotive operation in orbit.In case wheel problem occurred when operation, even a minor issue all may cause great accident, locomotive wheel need to be monitored the possibility that accident is occurred and be dropped to minimum.The variation of wheel profile size has tremendous influence to taking turns in right performance and the security.When two coaxial wheel wears were uneven, locomotive tended to wear away a larger side and then aggravates the wearing and tearing that this is taken turns.In addition, wheel fault can cause temporary impact to rail, increases the rail loss and causes the locomotive operation security to descend.Except the security of operation that guarantees locomotive, the tracking and monitoring that wheel tread shape is changed can and compare wheel different parts abrasion situation record, and research provides data on the spot to physical dimension for wheel.Therefore wheel tread shape is changed that to monitor be very necessary, this monitoring task also has been put into during the locomotive conventional project checks.

To the in the past artificial estimation of basic dependence of measurement of wheel diameters, the accuracy of the method estimated value relies on monitoring personnel's survey instrument and experience to a great extent.Along with the more survey instrument of the development of science and technology has been introduced in the wheel condition monitoring, wheel mainly is divided into contact and contactless to the technology of shape dimension measurement now.

(1) contact

1. slide calliper rule formula testing tool

Slide calliper rule formula testing tool is the most original instrument that the wheel situation is measured.It has adopted special shape design for the wheel of measuring; Adopted vernier caliper on the slide calliper rule simultaneously, milscale guarantees precision.This method precision is subjected to man's activity large.

2. magnetic is climbed the formula survey instrument

The principle that magnetic is climbed the formula survey instrument is to adopt magnetic rollers partly to roll along wheel tread, by calculating the abrasion information of whole tread.This instrument is portable design, and is light and handy convenient.In addition, obtain wearing valve owing to using computer that the data of measuring are processed, reduced and calculated time of consuming and artificial error.But this instrument needs manually-operated.

(2) contactless

1. ultrasonic telemetry

Russia adopts this method design tread pick-up unit the mid-90.In the speed of a motor vehicle be≤when 5km moved, the telemetering pickup group can detect apart from the distance of each figuratrix of wheel, can obtain the parameters such as wheel diameter, flange thickness, tread wear and vertical abrasion after the analyzing and processing.But this detection method precision is lower, can't obtain the complete appearance curve of wheel.

2. image method

The image method measurement mechanism is comprised of laser beam, CCD, wheel detector, synchronization detecting sensor and shadow shield.When wheel passed through measurement mechanism, Ear Mucosa Treated by He Ne Laser Irradiation caught the wheel rim that passes through to wheel to be measured with photoelectric sensor, simultaneously with at a high speed at random grating photography.To the picture of photographing, through filtering and thinning processing, extract the center line of laser image out, calculate the size at each position of wheel.This measurement device precision is high, but video camera is installed in wheel below, track is required high, and video camera easily is subjected to contamination by dust, and data processing amount is large in addition, and the speed of a motor vehicle is had certain limitation.

Summary of the invention

The object of the present invention is to provide a kind of simplicity of design, lay convenient, calculated amount is little, measuring accuracy is high, and real-time wheelset profile on-Line Monitor Device.

The technical solution that realizes the object of the invention is:

A kind of wheelset profile on-Line Monitor Device, comprise grating sensor, the license number identification aerial, the 2D laser sensor, wherein, along the siding track outside four grating sensors are installed side by side, second grating sensor 5～20m of first grating sensor distance, second grating sensor and the 3rd grating sensor are at a distance of 0.1～1.0m, the 4th grating sensor 5～20m of the 3rd grating sensor distance, the license number identification aerial is arranged between two tracks, apart from first grating sensor 3～10m between first grating sensor and second grating sensor; Eight 2D laser sensors between the 3rd grating sensor and the 4th grating sensor grating, the 3rd grating sensor 3～15m of distance; 2D laser sensor symmetry is installed on two track sides, with regard to single track, three 2D laser sensors are installed on the inboard of two tracks, and a 2D laser sensor is installed on two track outsides, and two 2D laser sensors of close the 4th grating sensor are arranged symmetrically with; The relative distance of each 2D laser sensor and track is 100mm～450mm, two 2D laser sensors in the middle of inboard and the angle of vertical line be 0 °～15 °, with the angle of vertical equity line be 15 °～65 °, the angle of other 2D laser sensors and vertical line be 25 °～65 °, and the angle of vertical equity line be 15 °～65 °.

The present invention compared with prior art, its remarkable advantage:

1, precision is high: device of the present invention adopts high precision, high speed two-dimension laser profile sensor, can merge and then improve precision to multi-group data.

2, calculated amount is little: what the sensor of apparatus of the present invention was exported is the 2-D data signal, and traditional images calculated signals amount significantly reduces relatively.

3, real-time: adopt device of the present invention, need not when train enters search coverage to stop, the data of surveying are uploaded to industrial computer in real time.

4, device is simple, and is workable.

Below in conjunction with accompanying drawing the present invention is described in further detail.

Description of drawings

Fig. 1 is the structural representation of wheelset profile on-Line Monitor Device of the present invention.

Fig. 2 is the schematic diagram of wheelset profile on-Line Monitor Device laser sensor of the present invention position in orbit.

Fig. 3 is the embodiment process flow diagram of wheelset profile on-Line Monitor Device laser sensor of the present invention.

Embodiment

A kind of wheelset profile on-Line Monitor Device of the present invention, comprise grating sensor, the license number identification aerial, the 2D laser sensor, wherein, along the siding track outside four grating sensors are installed side by side, second grating sensor 5～20m of first grating sensor distance, second grating sensor and the 3rd grating sensor are at a distance of 0.1～1.0m, the 4th grating sensor 5～20m of the 3rd grating sensor distance, the license number identification aerial is arranged between two tracks, apart from first grating sensor 3～10m between first grating sensor and second grating sensor; Eight 2D laser sensors between the 3rd grating sensor and the 4th grating sensor grating, the 3rd grating sensor 3～15m of distance; 2D laser sensor symmetry is installed on two track sides, with regard to single track, three 2D laser sensors are installed on the inboard of two tracks, and a 2D laser sensor is installed on two track outsides, and two 2D laser sensors of close the 4th grating sensor are arranged symmetrically with; The relative distance of each 2D laser sensor and track is 100mm～450mm, two 2D laser sensors in the middle of inboard and the angle of vertical line be 0 °～15 °, with the angle of vertical equity line be 15 °～65 °, the angle of other 2D laser sensors and vertical line be 25 °～65 °, and the angle of vertical equity line be 15 °～65 °.

The terminal employing of four grating sensors plug-in type outlet of installing side by side along the siding track outside, each grating sensor is comprised of emitter and receiving trap, is installed on the track outside, apart from track 100mm～400mm.

The license number identification aerial is installed in the track centre position by antenna mounting frame, and antenna mounting frame is fixed in ground; The license number identification aerial is 100mm～500mm apart from the distance of rail vehicle bottom;

The 2D laser sensor is installed on the mounting bracket, and the length of support is 1～2m, and wide is 0.5～1.5m; Described 2D laser sensor and mounting bracket thereof place in the guard box, and this guard box is fixed by the anchor clamps of track bottom.

Implement process of the present invention:

1, laying is that sensor begins the critical point of continuous wave output data to the data between the critical point of not exporting continuously data to the corresponding data of the single wheel of tread data sectional at first after getting well above-mentioned device;

2, the corresponding data based following principle of each wheel is processed: on the one hand, cast out each wheel corresponding data front two groups and last two groups; On the other hand, when the data point of single group data less than the maximum sampling number of sensor single 1/2 the time, should organize data and cast out;

3, the 2-D data that track outside 2D laser sensor is recorded carries out conversion according to following formula:

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (\mathrm{\θ}+\mathrm{\β})=x_n\cos \mathrm{\β}+y_n\sin \mathrm{\β}$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (\mathrm{\θ}+\mathrm{\β})=y_n\cos \mathrm{\β}-x_n\sin \mathrm{\β}$

The 2-D data that the inboard 2D laser sensor of track is recorded carries out conversion according to following formula:

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (\mathrm{\θ}-\mathrm{\β})=x_n\cos \mathrm{\β}-y_n\sin \mathrm{\β}$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (\mathrm{\θ}-\mathrm{\β})=y_n\cos \mathrm{\β}+x_n\sin \mathrm{\β}$

Wherein, (x _n, y _n) be any coordinate figure in the original coordinate system, n be the numbering of this point, and θ puts for this and the angle of ordinate, and β is the angle of this 2D laser sensor and vertical equity line, (u _n, v _n) be this coordinate figure in the coordinate system after conversion;

4, data fusion, with every group of data fusion after the coordinate transform, according to following formula:

u _n ⁽⁰⁾=u _n ⁽¹⁾+a u _m ⁽⁰⁾=u _m ⁽²⁾+c

v _n ⁽⁰⁾=v _n ⁽¹⁾+b v _m ⁽⁰⁾=v _m ⁽²⁾+d

Wherein, (u _n ⁽¹⁾, v _n ⁽¹⁾) and (u _m ⁽²⁾, v _m ⁽²⁾) be respectively near the coordinate figure in the coordinate system after two laser sensor conversions of the 4th grating sensor, a and b are the transverse and longitudinal coordinate of original coordinates initial point under the fusion coordinate system of outside laser sensor, and c and d are the transverse and longitudinal coordinate of original coordinates initial point under the fusion coordinate system of inboard laser sensor.(u _n ⁽⁰⁾, v _n ⁽⁰⁾) and (u _m ⁽⁰⁾, v _m ⁽⁰⁾) be respectively these 2 coordinate figures in merging coordinate system;

5, determine crucial tread data segment, ask for the maximal value of every group of tread data y coordinate after the above-mentioned fusion and the difference of minimum value, those group data of difference maximum are crucial tread data;

6, calculate wheelset profile, processing is obtained the data based geometric relationship of tread ask for the wheelset profile data such as wheel rim is high, wheel rim is thick, wheel diameter, distance between backs of wheel flanges;

7, judge whether wheelset profile is unusual, after obtaining each wheelset profile, with measurement size and the contrast of given size bound, when the upper limit of flange height greater than given size, flange thickness is less than the lower limit of given size, wheel footpath then can draw the unusual conclusion of wheelset profile, otherwise wheelset profile is normal greater than the upper limit of given size or less than the lower limit of given size; The general flange height of working as is greater than 32mm, and flange thickness is less than 22mm, and the wheel footpath can draw the unusual conclusion of wheelset profile greater than 840mm or less than 770mm, otherwise wheelset profile is normal.

Embodiment 1:

Detector for train wheel pair size on-line detecting system principle of work is that laser displacement sensor is installed in the rail both sides, when train passes through with certain speed, utilize sensor that Railway wheelset is scanned and obtain wheel to the sampled data of physical dimension, again by specific algorithm to sampled data real-time analyze and restore the right shape of wheel, thereby finish the online detection of detector for train wheel pair size.Give the alarm when unusual when detecting wheelset profile, overhaul when making things convenient for train to enter the station.

The wheel diameters detection system adopts laser scanning method to realize that wheel is to the on-line monitoring of profile.8 be installed on the high precision in the outside in the track, high-frequency 2D laser sensor is used for collection wheel to dimensional data, background processor is judged the abnormal conditions of wheelset profile to the raw data analyzing and processing.

In conjunction with Fig. 1, the direction of advancing take train in orbit is as benchmark.Be respectively grating sensor, license number identification aerial, 2D laser sensor etc. along current of traffic sensor layout.Along the siding track outside four grating sensors are installed side by side, the first grating P1 distance the 2nd P2 grating 5m started and image data with the triggering following hardware facility for detection of the moment directly over the vehicle arrival sensor, P2 and the 3rd P3 grating are at a distance of 0.1m, the two calculates car speed to determine that laser sensor begins shooting time according to the data that gather, and the 4th grating P4 and P3 sail out of the moment of monitored area with the shutdown system hardware facility apart from 5m for detection of vehicle.License number identification aerial AEI is arranged between two tracks between P1 and P2, and distance P 1 is that 3m is for detection of the information of sending a car.Laser sensor is between P3 and P4, and distance P 3 is 3m.

In conjunction with Fig. 2,2D laser sensor symmetry is installed on two track sides, with regard to single track, three 2D laser sensor L2, L3, L4 are installed on the inboard of two tracks, a 2D laser sensor L1 is installed on two track outsides, when having train to pass through, L1 and L2 scan the inside and outside tread of wheel respectively, obtain complete tread dimension information; L2, L3, L4 survey record are taken turns the dimension information to diameter.L1 and L2 are arranged symmetrically with.Adopt high-frequency 2D laser sensor repeatedly to sample in the moment of wheel process, improve measuring accuracy.The relative distance of each 2D laser sensor and track is 100mm, two 2D laser sensors in the middle of inboard and the angle of vertical line be 0 °, with the angle of vertical equity line be 15 °, the angle of other 2D laser sensors and vertical line be 25 °, and the angle of vertical equity line be 15 °.

For guaranteeing the measuring accuracy of sensor, the pedestal of mounting bracket is built with cement again.Mounting bracket is fixed by bolt and anchor clamps and pedestal, then with bolt the angle stop block is fixed on the erecting frame, at last laser sensor is installed on the angle stop block.Installing needs the angle of LASER Light Source is proofreaied and correct.The design parameter of laser sensor is as follows:

Sample frequency: 100Hz

Vertical range: 200mm

Horizontal range: 120mm

Mounting distance: 450mm

In conjunction with Fig. 3, the present invention is based on the wheelset profile on-line monitoring method.Wheel rim is high, wheel rim is thick by raw data screening, classification, coordinate transform and fusion are obtained, wheel is to critical sizes such as diameter and inboard distances, further judges the wheelset profile abnormal conditions.The basic step of algorithm is:

1, tread data sectional

Train when the monitored area, sensor continuous sampling thereby can't distinguish the corresponding data of each wheel.Can distinguish the corresponding wheel of each data segment by the regularity of distribution of analyzing data.It is limited distance that the 2D laser sensor detects range, and sensor is not exported data when exceeding the sensor useful range.Sensor output data when wheel arrives in the 2D laser sensor effective range for the first time, sensor is no longer exported data when wheel leaves effective range fully, until second wheel enters in the measurement range.The corresponding data of this wheel are that sensing data begins the critical point that continuous wave output to data are not exported continuously.

2, data pre-service

Online wheel diameters monitoring system adopts the mode that gathers first aftertreatment, causes the pending data volume of storing very large, and wherein has very most of data to belong to non-entire vehicle wheel tread shape data.High-frequency 2D laser sensor will carry out the several scanning survey to wheel tread and wheel rim in acquisition range, in data initial and that the later stage gathers incomplete tread contour data will appear like this, and these data are for the calculating of wheel diameters measurement data with analyze useless, therefore reject the type data, remaining data then is the valid data section.Before subsequent algorithm is processed, reject invalid data, extracted valid data section, can save the space and improve system effectiveness.On the one hand, cast out front two groups and last two groups of each wheel corresponding data; On the other hand, when the data point of single group data during less than 500, should organize data and cast out.

3, coordinate transform

Because the installation site of sensor and surface level and track have a certain degree, the curve that records will inevitably produce distortion, needs the raw data changes in coordinates to correct the curve of distortion.The collection of single 2D laser sensor is counted and is approximately 2000 points, and having got one of them data point is example, and the data point that L1 records is (228.2,395.3), and it is carried out conversion according to following formula:

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (30+15)=320.5$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (30+15)=325.0$

The data point that L2 records is (228.4,395.5), and it is carried out conversion according to following formula::

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (-30-15)=-320.5$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (-30-15)=325.2$

The coordinate system internal coordinate of L1 after conversion is (320.5,325.0), and the coordinate in the coordinate system of L2 after its conversion is (320.5,325.2).

4, data fusion

With the data fusion after L1 and the L2 conversion, the L1 coordinate that merge coordinate system relative to the true origin of L2 original coordinate system is respectively (300,0) and (300,0).These 2 coordinate figures in merging coordinate system are respectively (20.5,325.0) and (20.5,325.2) after the conversion.

5, determine crucial tread data segment

Because train is high degree of motion, so that the light source of sensor has a large amount of working times to depart from core wheel is distant.The tread profile that record this moment can deform, after a series of data that sensor is recorded are carried out pre-service and coordinate transform, and the data of taking in the time of also need determining that light source is crossed core wheel by algorithm.Ask for the maximal value of y coordinate in many group tread data and the difference of minimum value, those group data of difference maximum are crucial tread data.

6, calculate wheelset profile

Obtain after the wheel tread curve, can ask for according to geometric relationship the wheelset profile data such as wheel rim is high, wheel rim is thick, wheel diameter, distance between backs of wheel flanges.

7, judge whether wheelset profile is unusual

After obtaining each wheelset profile, say the contrast of measurement size and given size bound.When flange height greater than 32mm, flange thickness is less than 22mm, the wheel footpath can draw the unusual conclusion of wheelset profile greater than 840mm or less than 770mm, otherwise wheelset profile is normal.

The defective wheel of tread, its wheelset profile is as follows: flange height is 31.5mm, and flange thickness is 20.9mm, and wheel is 825.4mm to diameter.Gather its wheelset profile information and can get the high 32.0mm of being of its wheel rim through algorithm process, wheel rim is thick to be 21.3mm, and wheel is 824.6mm to diameter.Because flange thickness less than 22mm, is judged the tread defectiveness that this is taken turns, this method correct judgment.The error of each size and its full-size(d) is respectively: the high 0.5mm of wheel rim, and the thick 0.4mm of wheel rim, wheel is to diameter 0.8mm.The tread dimensional accuracy of this device reaches 0.5mm, and wheel reaches 0.8mm to the diameter precision, and wheelset profile on-Line Monitor Device precision relatively in the past increases substantially.

Embodiment 2:

Detector for train wheel pair size on-line detecting system principle of work is that laser displacement sensor is installed in the rail both sides, when train passes through with certain speed, utilize sensor that Railway wheelset is scanned and obtain wheel to the sampled data of physical dimension, again by specific algorithm to sampled data real-time analyze and restore the right shape of wheel, thereby finish the online detection of detector for train wheel pair size.Give the alarm when unusual when detecting wheelset profile, overhaul when making things convenient for train to enter the station.

The wheel diameters detection system adopts laser scanning method to realize that wheel is to the on-line monitoring of profile.8 be installed on the high precision in the outside in the track, high-frequency 2D laser sensor is used for collection wheel to dimensional data, background processor is judged the abnormal conditions of wheelset profile to the raw data analyzing and processing.

In conjunction with Fig. 1, the direction of advancing take train in orbit is as benchmark.Be respectively grating sensor, license number identification aerial, 2D laser sensor etc. along current of traffic sensor layout.Along the siding track outside four grating sensors are installed side by side, the first grating P1 distance the 2nd P2 grating 15m started and image data with the triggering following hardware facility for detection of the moment directly over the vehicle arrival sensor, P2 and the 3rd P3 grating are at a distance of 0.5m, the two calculates car speed to determine that laser sensor begins shooting time according to the data that gather, and the 4th grating P4 and P3 sail out of the moment of monitored area with the shutdown system hardware facility apart from 15m for detection of vehicle.License number identification aerial AEI is arranged between two tracks between P1 and P2, and distance P 1 is that 6m is for detection of the information of sending a car.Laser sensor is between P3 and P4, and distance P 3 is 6m.

In conjunction with Fig. 2,2D laser sensor symmetry is installed on two track sides, with regard to single track, three 2D laser sensor L2, L3, L4 are installed on the inboard of two tracks, a 2D laser sensor L1 is installed on two track outsides, when having train to pass through, L1 and L2 scan the inside and outside tread of wheel respectively, obtain complete tread dimension information; L2, L3, L4 survey record are taken turns the dimension information to diameter.L1 and L2 are arranged symmetrically with.Adopt high-frequency 2D laser sensor repeatedly to sample in the moment of wheel process, improve measuring accuracy.The relative distance of each 2D laser sensor and track is 250mm, two 2D laser sensors in the middle of inboard and the angle of vertical line be 8 °, with the angle of vertical equity line be 45 °, the angle of other 2D laser sensors and vertical line be 45 °, and the angle of vertical equity line be 45 °.

For guaranteeing the measuring accuracy of sensor, the pedestal of mounting bracket is built with cement again.Mounting bracket is fixed by bolt and anchor clamps and pedestal, then with bolt the angle stop block is fixed on the erecting frame, at last laser sensor is installed on the angle stop block.Installing needs the angle of LASER Light Source is proofreaied and correct.The design parameter of laser sensor is as follows:

Sample frequency: 100Hz

Vertical range: 200mm

Horizontal range: 120mm

Mounting distance: 450mm

In conjunction with Fig. 3, the present invention is based on the wheelset profile on-line monitoring method.Wheel rim is high, wheel rim is thick by raw data screening, classification, coordinate transform and fusion are obtained, wheel is to critical sizes such as diameter and inboard distances, further judges the wheelset profile abnormal conditions.The basic step of algorithm is:

1, tread data sectional

Train when the monitored area, sensor continuous sampling thereby can't distinguish the corresponding data of each wheel.Can distinguish the corresponding wheel of each data segment by the regularity of distribution of analyzing data.It is limited distance that the 2D laser sensor detects range, and sensor is not exported data when exceeding the sensor useful range.Sensor output data when wheel arrives in the 2D laser sensor effective range for the first time, sensor is no longer exported data when wheel leaves effective range fully, until second wheel enters in the measurement range.The corresponding data of this wheel are that sensing data begins the critical point that continuous wave output to data are not exported continuously.

2, data pre-service

Online wheel diameters monitoring system adopts the mode that gathers first aftertreatment, causes the pending data volume of storing very large, and wherein has very most of data to belong to non-entire vehicle wheel tread shape data.High-frequency 2D laser sensor will carry out the several scanning survey to wheel tread and wheel rim in acquisition range, in data initial and that the later stage gathers incomplete tread contour data will appear like this, and these data are for the calculating of wheel diameters measurement data with analyze useless, therefore reject the type data, remaining data then is the valid data section.Before subsequent algorithm is processed, reject invalid data, extracted valid data section, can save the space and improve system effectiveness.On the one hand, cast out front two groups and last two groups of each wheel corresponding data; On the other hand, when the data point of single group data during less than 500, should organize data and cast out.

3, coordinate transform

Because the installation site of sensor and surface level and track have a certain degree, the curve that records will inevitably produce distortion, needs the raw data changes in coordinates to correct the curve of distortion.The data point that L1 records is (0.1,449.8), and it is carried out conversion according to following formula:

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (0+45)=318.1$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (0+45)=318.0$

The data point that L2 records is (0.3,449.9), and it is carried out conversion according to following formula::

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (0-45)=-318.1$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (0-45)=318.2$

The coordinate system internal coordinate of L1 after conversion is (318.1,318.0), and the coordinate in the coordinate system of L2 after its conversion is (318.1,318.2).

4, data fusion

With the data fusion after L1 and the L2 conversion, the L1 coordinate that merge coordinate system relative to the true origin of L2 original coordinate system is respectively (300,5) and (300 ,-5).These 2 coordinate figures in merging coordinate system are respectively (18.1,323.0) and (18.1,313.2) after the conversion.

5, determine crucial tread data segment

Because train is high degree of motion, so that the light source of sensor has a large amount of working times to depart from core wheel is distant.The tread profile that record this moment can deform, after a series of data that sensor is recorded are carried out pre-service and coordinate transform, and the data of taking in the time of also need determining that light source is crossed core wheel by algorithm.Ask for the maximal value of y coordinate in many group tread data and the difference of minimum value, those group data of difference maximum are crucial tread data.

6, calculate wheelset profile

Obtain after the wheel tread curve, can ask for according to geometric relationship the wheelset profile data such as wheel rim is high, wheel rim is thick, wheel diameter, distance between backs of wheel flanges.

7, judge whether wheelset profile is unusual

After obtaining each wheelset profile, say the contrast of measurement size and given size bound.When flange height greater than 32mm, flange thickness is less than 22mm, the wheel footpath can draw the unusual conclusion of wheelset profile greater than 840mm or less than 770mm, otherwise wheelset profile is normal.

For a flawless wheel of tread, gathering its wheelset profile information and can getting its flange height through algorithm process is 31.5mm, and flange thickness is 20.9mm, and wheel is 825.4mm to diameter.Gather its wheelset profile information and can get the high 31.8mm of being of its wheel rim through algorithm process, wheel rim is thick to be 21.2mm, and wheel is 824.9mm to diameter.Because flange thickness less than 22mm, is judged the tread defectiveness that this is taken turns, this method correct judgment.The error of each size and its full-size(d) is respectively: the high 0.3mm of wheel rim, and the thick 0.3mm of wheel rim, wheel is to diameter 0.5mm.The tread dimensional accuracy of this device reaches 0.3mm, and wheel reaches 0.5mm to the diameter precision, and wheelset profile on-Line Monitor Device precision relatively in the past increases substantially.

Embodiment 3:

Detector for train wheel pair size on-line detecting system principle of work is that laser displacement sensor is installed in the rail both sides, when train passes through with certain speed, utilize sensor that Railway wheelset is scanned and obtain wheel to the sampled data of physical dimension, again by specific algorithm to sampled data real-time analyze and restore the right shape of wheel, thereby finish the online detection of detector for train wheel pair size.Give the alarm when unusual when detecting wheelset profile, overhaul when making things convenient for train to enter the station.

The wheel diameters detection system adopts laser scanning method to realize that wheel is to the on-line monitoring of profile.8 be installed on the high precision in the outside in the track, high-frequency 2D laser sensor is used for collection wheel to dimensional data, background processor is judged the abnormal conditions of wheelset profile to the raw data analyzing and processing.

In conjunction with Fig. 1, the direction of advancing take train in orbit is as benchmark.Be respectively grating sensor, license number identification aerial, 2D laser sensor etc. along current of traffic sensor layout.Along the siding track outside four grating sensors are installed side by side, the first grating P1 distance the 2nd P2 grating 20m started and image data with the triggering following hardware facility for detection of the moment directly over the vehicle arrival sensor, P2 and the 3rd P3 grating are at a distance of 1.0m, the two calculates car speed to determine that laser sensor begins shooting time according to the data that gather, and the 4th grating P4 and P3 sail out of the moment of monitored area with the shutdown system hardware facility apart from 20m for detection of vehicle.License number identification aerial AEI is arranged between two tracks between P1 and P2, and distance P 1 is that 10m is for detection of the information of sending a car.Laser sensor is between P3 and P4, and distance P 3 is 15m.

In conjunction with Fig. 2,2D laser sensor symmetry is installed on two track sides, with regard to single track, three 2D laser sensor L2, L3, L4 are installed on the inboard of two tracks, a 2D laser sensor L1 is installed on two track outsides, when having train to pass through, L1 and L2 scan the inside and outside tread of wheel respectively, obtain complete tread dimension information; L2, L3, L4 survey record are taken turns the dimension information to diameter.L1 and L2 are arranged symmetrically with.Adopt high-frequency 2D laser sensor repeatedly to sample in the moment of wheel process, improve measuring accuracy.The relative distance of each 2D laser sensor and track is 250mm, two 2D laser sensors in the middle of inboard and the angle of vertical line be 15 °, with the angle of vertical equity line be 65 °, the angle of other 2D laser sensors and vertical line be 65 °, and the angle of vertical equity line be 65 °.

For guaranteeing the measuring accuracy of sensor, the pedestal of mounting bracket is built with cement again.Mounting bracket is fixed by bolt and anchor clamps and pedestal, then with bolt the angle stop block is fixed on the erecting frame, at last laser sensor is installed on the angle stop block.Installing needs the angle of LASER Light Source is proofreaied and correct.The design parameter of laser sensor is as follows:

Sample frequency: 100Hz

Vertical range: 200mm

Horizontal range: 120mm

Mounting distance: 450mm

In conjunction with Fig. 3, the present invention is based on the wheelset profile on-line monitoring method.Wheel rim is high, wheel rim is thick by raw data screening, classification, coordinate transform and fusion are obtained, wheel is to critical sizes such as diameter and inboard distances, further judges the wheelset profile abnormal conditions.The basic step of algorithm is:

1, tread data sectional

Train when the monitored area, sensor continuous sampling thereby can't distinguish the corresponding data of each wheel.Can distinguish the corresponding wheel of each data segment by the regularity of distribution of analyzing data.It is limited distance that the 2D laser sensor detects range, and sensor is not exported data when exceeding the sensor useful range.Sensor output data when wheel arrives in the 2D laser sensor effective range for the first time, sensor is no longer exported data when wheel leaves effective range fully, until second wheel enters in the measurement range.The corresponding data of this wheel are that sensing data begins the critical point that continuous wave output to data are not exported continuously.

2, data pre-service

Online wheel diameters monitoring system adopts the mode that gathers first aftertreatment, causes the pending data volume of storing very large, and wherein has very most of data to belong to non-entire vehicle wheel tread shape data.High-frequency 2D laser sensor will carry out the several scanning survey to wheel tread and wheel rim in acquisition range, in data initial and that the later stage gathers incomplete tread contour data will appear like this, and these data are for the calculating of wheel diameters measurement data with analyze useless, therefore reject the type data, remaining data then is the valid data section.Before subsequent algorithm is processed, reject invalid data, extracted valid data section, can save the space and improve system effectiveness.On the one hand, cast out front two groups and last two groups of each wheel corresponding data; On the other hand, when the data point of single group data during less than 500, should organize data and cast out.

3, coordinate transform

Because the installation site of sensor and surface level and track have a certain degree, the curve that records will inevitably produce distortion, needs the raw data changes in coordinates to correct the curve of distortion.The data point that L1 records is (153.6,421.9), and it is carried out conversion according to following formula:

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (-20+65)=315.3$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (-20+45)=320.5$

The data point that L2 records is (153.8,422.6), and it is carried out conversion according to following formula::

$u_n=\sqrt{{x_n}^2+{y_n}^2}\sin (20-65)=-315.3$

$v_n=\sqrt{{x_n}^2+{y_n}^2}\cos (20-65)=321.6$

The coordinate system internal coordinate of L1 after conversion is (315.3,320.5), and the coordinate in the coordinate system of L2 after its conversion is (315.3,321.6).

4, data fusion

With the data fusion after L1 and the L2 conversion, the L1 coordinate that merge coordinate system relative to the true origin of L2 original coordinate system is respectively (300,0) and (300,0).These 2 coordinate figures in merging coordinate system are respectively (15.3,320.5) and (15.3,321.6) after the conversion.

5, determine crucial tread data segment

Because train is high degree of motion, so that the light source of sensor has a large amount of working times to depart from core wheel is distant.The tread profile that record this moment can deform, after a series of data that sensor is recorded are carried out pre-service and coordinate transform, and the data of taking in the time of also need determining that light source is crossed core wheel by algorithm.Ask for the maximal value of y coordinate in many group tread data and the difference of minimum value, those group data of difference maximum are crucial tread data.

6, calculate wheelset profile

Obtain after the wheel tread curve, can ask for according to geometric relationship the wheelset profile data such as wheel rim is high, wheel rim is thick, wheel diameter, distance between backs of wheel flanges.

7, judge whether wheelset profile is unusual

After obtaining each wheelset profile, say the contrast of measurement size and given size bound.When flange height greater than 32mm, flange thickness is less than 22mm, the wheel footpath can draw the unusual conclusion of wheelset profile greater than 840mm or less than 770mm, otherwise wheelset profile is normal.

For a flawless wheel of tread, gathering its wheelset profile information and can getting its flange height through algorithm process is 31.5mm, and flange thickness is 20.9mm, and wheel is 825.4mm to diameter.Gather its wheelset profile information and can get the high 31.9mm of being of its wheel rim through algorithm process, wheel rim is thick to be 21.4mm, and wheel is 824.5mm to diameter.Because flange thickness less than 22mm, is judged the tread defectiveness that this is taken turns, this method correct judgment.The error of each size and its full-size(d) is respectively: the high 0.4mm of wheel rim, and the thick 0.5mm of wheel rim, wheel is to diameter 0.9mm.The tread dimensional accuracy of this device reaches 0.5mm, and wheel reaches 1.0mm to the diameter precision, and wheelset profile on-Line Monitor Device precision relatively in the past increases substantially.

Claims (4)

1. wheelset profile on-Line Monitor Device, it is characterized in that: comprise grating sensor, the license number identification aerial, the 2D laser sensor, wherein, along the siding track outside four grating sensors are installed side by side, second grating sensor 5～20m of first grating sensor distance, second grating sensor and the 3rd grating sensor are at a distance of 0.1～1.0m, the 4th grating sensor 5～20m of the 3rd grating sensor distance, the license number identification aerial is arranged between two tracks, apart from first grating sensor 3～10m between first grating sensor and second grating sensor; Eight 2D laser sensors between the 3rd grating sensor and the 4th grating sensor grating, the 3rd grating sensor 3～15m of distance; 2D laser sensor symmetry is installed on two track sides, with regard to single track, three 2D laser sensors are installed on the inboard of two tracks, and a 2D laser sensor is installed on two track outsides, and two 2D laser sensors of close the 4th grating sensor are arranged symmetrically with; The relative distance of each 2D laser sensor and track is 100mm～450mm, two 2D laser sensors in the middle of inboard and the angle of vertical line be 0 °～15 °, with the angle of vertical equity line be 15 °～65 °, the angle of other 2D laser sensors and vertical line be 25 °～65 °, and the angle of vertical equity line be 15 °～65 °.

2. a kind of wheelset profile on-Line Monitor Device according to claim 1, it is characterized in that: the terminal employing of four grating sensors plug-in type outlet of installing side by side along the siding track outside, each grating sensor is comprised of emitter and receiving trap, be installed on the track outside, apart from track 100mm～400mm.

3. a kind of wheelset profile on-Line Monitor Device according to claim 1, it is characterized in that: the license number identification aerial is installed in the track centre position by antenna mounting frame, and antenna mounting frame is fixed in ground; The license number identification aerial is 100mm～500mm apart from the distance of rail vehicle bottom.

4. a kind of wheelset profile on-Line Monitor Device according to claim 1, it is characterized in that: the 2D laser sensor is installed on the mounting bracket, and the length of support is 1～2m, and wide is 0.5～1.5m; Described 2D laser sensor and mounting bracket thereof place in the guard box, and this guard box is fixed by the anchor clamps of track bottom.

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