CN212030475U

CN212030475U - Portable wheel tread circumference profile device capable of being measured movably

Info

Publication number: CN212030475U
Application number: CN202020902052.9U
Authority: CN
Inventors: 贺子铭; 董章武; 芮军; 徐见; 张小乐
Original assignee: Maanshan City Leishi Track Traffic Equipment Co ltd
Current assignee: Maanshan City Leishi Track Traffic Equipment Co ltd
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2020-11-27
Anticipated expiration: 2030-05-25

Abstract

The utility model discloses a portable measuring portable wheel tread circumference profile device belongs to train wheel and detects technical field. The device comprises a measuring component, a following component and a positioning component, wherein the positioning component comprises fixing plates and positioning wheels which are symmetrically distributed, the two fixing plates are fixedly connected through a long shaft, and the positioning wheels are correspondingly arranged on the fixing plates; the measuring component is arranged perpendicular to the fixing plates, and the following component is arranged on a long shaft between the two fixing plates in a sliding mode. The utility model discloses a device can follow the wheel and remove to need not to lift up the wheel, detect convenient, labour saving and time saving, can be the reduce cost of enterprise. Meanwhile, the axial profile of the wheel tread can be obtained through measurement by adjusting all the components of the device, and the measurement result is more accurate and convenient.

Description

Portable wheel tread circumference profile device capable of being measured movably

Technical Field

The utility model belongs to the technical field of train wheel detects, more exactly says, relates to a portable measuring portable wheel tread circumference profile device.

Background

The train wheel is one of the most important running parts of the rail transit train and bears all dynamic and static loads of the train. However, in the running process of the train, the wheels are abraded to different degrees, such as wheel radial run-out and the like, due to long-term friction between the wheels and the track. The wheel diameter jump means: the rolling circle of the wheel tread has the maximum variation when a point on an actual surface in the same cross section rotates for one circle around the axle reference axis or continuously rotates. The bigger the wheel diameter jump is, the more the fatigue damage of walking parts can be accelerated by the vibration caused by the wheel diameter jump, the wheel abrasion is aggravated, the rail corrugation is increased, the riding comfort is reduced, and the serious threat to the driving safety can be caused. Therefore, the method can accurately measure the radial jump of the train wheels and has great significance for guaranteeing the driving safety of the train.

The existing means of detecting geometric parameters of wheels are static measurements. The static measurement is a means for measuring geometric parameters of the wheel by using special equipment such as a lathe and the like, has the advantage of high precision, and has the defects of large equipment investment, high cost, large consumption of manpower and material resources and longer measurement period, thereby influencing the normal use of the train. Due to the limitations of static measurement, more and more people are focusing on the solution research of laser scanning wheel-set.

Through search, the Chinese patent application numbers are: 201810715534.0, filing date: in 2018, 6 and 30 months, the invention and creation name is as follows: a dynamic and rapid rechecking method for the diameter of a wheel of a train bogie. In the method disclosed in the application, the detection support is installed on the ground, and then the laser sensor support is fixed on the detection support, and the laser line and the axis of the wheel pair are in the same plane and are perpendicular to the ground, but the scheme has two defects.

Firstly, the position of a laser sensor in the device is not adjustable, and fine adjustment cannot be carried out according to the difference of each transmission trolley pair, so that scanned data can be influenced, and further the evaluation of the wheel wear condition is influenced.

Two, laser sensor fixes on detecting the support among the device, and detects the support and fix subaerial again, so whole structure is fixed subaerial, belongs to fixed, when scanning the wheel at every turn, need remove the assigned position with the bogie, and need lift up individual wheel, manual rotatory wheel to the nominal diameter of scanning the wheel, this kind of scheme is wasted time and energy, and the limitation of use is poor.

SUMMERY OF THE UTILITY MODEL

1. Problems to be solved

The utility model aims to overcome the unmovable of current fixed point laser scanning wheel to time, be difficult to the not enough of regulation, provide a portable measuring portable wheel tread circumference profile device. The utility model discloses a device can follow the wheel and remove to need not to lift up the wheel, detect convenient, labour saving and time saving, can be the reduce cost of enterprise. Meanwhile, the axial profile of the wheel tread can be measured through adjustment among all the parts during measurement, and the measurement result is more accurate and convenient.

2. Technical scheme

In order to solve the above problem, the utility model discloses the technical scheme who adopts as follows:

the utility model discloses a portable wheel tread circumferential contour device capable of mobile measurement, which comprises a measuring component, a following component and a positioning component, wherein the positioning component comprises fixing plates and positioning wheels which are symmetrically distributed, the two fixing plates are fixedly connected through a long shaft, and the positioning wheels are correspondingly arranged on the fixing plates; the measuring component is arranged perpendicular to the fixing plates, and the following component is arranged on a long shaft between the two fixing plates in a sliding mode.

Furthermore, the measuring component comprises an adjusting base, a laser displacement sensor, a meter counting wheel and an encoder, wherein a follow-up wheel is arranged at the bottom of the adjusting base, and the laser displacement sensor is arranged on the follow-up wheel; the meter wheel is connected with the encoder and is arranged on a rotating shaft of the adjusting base through a first mounting bracket.

Furthermore, the follow-up wheel is connected with the adjusting base in a sliding mode through a second mounting bracket and is fixed on a laser bracket, and the laser bracket is connected with the adjusting base through a first sliding block; the first mounting bracket and the rotating shaft of the adjusting base are fixed through a pin shaft.

Furthermore, the first sliding block is of an L-shaped structure, a laser support is fixedly mounted on a longitudinal side plate of the first sliding block, a threaded through hole is processed on a transverse side plate of the first sliding block, and the first sliding block is connected with the adjusting base through a first adjusting rotating rod.

Furthermore, the following part comprises a mounting seat and a following wheel, the following wheel is mounted at the bottom of the mounting seat through a third mounting bracket, a sliding bearing seat is processed at the top of the mounting seat, and the mounting seat is slidably mounted on a long shaft between the two fixing plates through the sliding bearing seat; the long shafts penetrating through the two fixing plates comprise a first long shaft, a second long shaft and a third long shaft, and two ends of the first long shaft, the second long shaft and the third long shaft are fixedly connected with the fixing plates through fixing lug plates; the positioning wheel is arranged on a fourth mounting bracket which is fixedly connected with the fixed plate through a long bolt.

Furthermore, the positioning component is provided with an inductor and a ball plunger, and the inductor and the ball plunger are respectively arranged on different fixing plates of the positioning component.

Furthermore, the inductor is fixedly arranged on an inductor bracket, the inductor bracket is connected with the fixed plate in a sliding manner through a second sliding block, the second sliding block is fixedly connected with the fixed plate, and the second sliding block is connected with the inductor bracket through a second adjusting rotating rod; and ball plungers are symmetrically arranged in holes at two ends of one side, close to the fourth mounting bracket, of the fixing plate through interference fit respectively, and positioning wheels are symmetrically arranged at two ends of the fourth mounting bracket.

Furthermore, mounting holes in threaded fit with the second adjusting rotary rod are machined in the second sliding block and the inductor support, and the second adjusting rotary rod penetrates through the mounting holes in the second sliding block and the inductor support.

3. Advantageous effects

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a portable measuring portable wheel tread circumference profile device, including measuring unit, following part and locating part, locating part includes symmetric distribution's fixed plate and locating wheel, and links to each other through the major axis is fixed between two fixed plates, and measuring unit and following part are installed on locating part, and the radials laminating in locating part and the wheel follows part and rail contact. When the train wheel walking, through the setting of following the part for whole measuring device can follow the wheel and remove, and the simultaneous measurement part begins to detect, thereby need not to lift the wheel, detects convenient, labour saving and time saving, has effectively solved current fixed point laser scanning wheel to the time problem that can not remove, be difficult to the regulation.

(2) The utility model discloses a portable measuring portable wheel tread circumference profile device, measuring unit are including adjusting base, laser displacement sensor, meter rice wheel and encoder, and laser displacement sensor passes through the laser instrument support and links to each other with adjusting the base, and meter rice wheel and encoder link to each other and install in the pivot of adjusting the base through a installing support. When measuring, keep meter rice wheel laminating wheel tread, the wheel rolls and drives meter rice wheel and rotate, and meter rice wheel drives the encoder and rotates, and a signal is given for laser displacement sensor to encoder every certain pulse quantity, measures a point of wheel tread, and after the wheel rolled a week, a circle was enclosed to the point of measuring to reflect the wheel tread circumference profile condition, easy operation, labour saving and time saving is favorable to reducing the cost of enterprises.

(3) The utility model discloses a portable measuring portable wheel tread circumference profile device, laser instrument support link to each other with the regulation base through first slider, and this first slider is L type structure, and its vertical curb plate links firmly with the laser instrument support, processes threaded hole on its horizontal curb plate to link to each other with the regulation base through first regulation swinging arms. Through the arrangement of the first sliding block and the optimized design of the specific structure of the first sliding block, the mounting position of the laser displacement sensor can be conveniently adjusted at any time, and therefore the measurement precision can be guaranteed. Meanwhile, the first mounting bracket and the rotating shaft of the adjusting base are fixed through the pin shaft, and the first mounting bracket can be adjusted at a certain angle during installation, so that the meter wheel can be tightly attached to the tread of the wheel, the measuring point is opposite to the tread of the wheel, and the accuracy of the measuring result is ensured. In addition, adjust the base bottom and still install the trailing wheel, through the setting of trailing wheel, be favorable to improving the holistic installation stability of measuring part, prevent that it from taking place the slope, and this trailing wheel installs on the second installing support, but second installing support passes through slider slidable mounting on adjusting the base to be convenient for adjust the mounted position of trailing wheel at any time, and then can further reduce measuring error.

(4) The utility model discloses a portable measuring portable wheel tread circumference profile device follows the part and includes mount pad and follow wheel, and processing has the sliding bearing seat on the mount pad, follows the part and installs on the major axis between two fixed plates through the sliding bearing seat, through the setting of sliding bearing seat, follows the part and can carry out round trip movement at the major axis, can adjust the mounted position of following the part at any time according to the needs of different measurement environment, easy operation, convenience.

(5) The utility model discloses a portable measuring portable tire tread circumference profile device installs inductor and bulb plunger on the locating part, and the inductor is fixed on the inductor support, and the inductor support slides with the fixed plate through the second slider and links to each other, optimizes through the mounting means to the inductor to be convenient for adjust the mounted position of inductor. The ball plunger is arranged in the hole of the fixing plate in an interference fit mode, the number of the ball plungers is two, the ball plungers are matched with the inner rim surface, the positioning purpose is achieved, and the accuracy of a measuring result is ensured. Simultaneously, the number of locating wheel is 4, and the symmetric distribution is on the fixed plate of both sides, and when installing with the wheel, the radials come the location fixed inside and outside the cooperation of four locating wheels, ensures that the laser of laser displacement sensor transmission crosses the wheel centre of a circle, plays the effect of calibration to be favorable to improving and detect the precision.

Drawings

Fig. 1 is a schematic view of the overall structure of the measuring device of the present invention;

fig. 2 is a schematic view of the overall structure of the measuring part of the present invention;

FIG. 3 is a schematic view of the installation structure of the metering wheel of the present invention;

FIG. 4 is a schematic view of the following member of the present invention;

fig. 5 is a schematic structural diagram of the installation and position adjustment of the laser displacement sensor according to the present invention;

fig. 6 is a schematic view of the overall structure of the positioning member of the present invention;

fig. 7 is a schematic view of the mounting structure of the positioning wheel of the present invention;

fig. 8 is a schematic view of an installation structure of the inductor of the present invention;

fig. 9 is a schematic structural view of installation and position adjustment of the inductor according to the present invention;

fig. 10 is a schematic view of a usage state when the measuring device of the present invention is used for detection.

In the figure:

1. a measurement component:

100. adjusting the base; 101. a first slider; 102. a first adjusting rotary rod; 103. a laser holder; 104. a laser displacement sensor; 105. a first mounting bracket; 106. an encoder; 107. a meter wheel; 108. a follower wheel; 109. a pin shaft; 110. a second mounting bracket;

2. a following component:

200. a mounting seat; 201. a third mounting bracket; 202. a follower wheel; 203. a sliding bearing seat;

3. a positioning member:

300. a fixing plate; 301. a fourth mounting bracket; 302. an inductor support; 303. a second adjusting rotary rod; 304. a second slider; 305. an inductor; 306. positioning wheels; 307. fixing the ear plate; 308. a long bolt; 309. a ball plunger; 310. a first long axis; 311. a second long axis; 312. a third major axis;

4. the inner rim surface of the wheel; 5. a wheel tread; 6. a rail; 7. and (7) wheels.

Detailed Description

The present invention will be further described with reference to the following specific embodiments.

Example 1

As shown in fig. 1-2, 4 and 6, the portable wheel tread circumferential contour device capable of mobile measurement of the embodiment includes a measurement component 1, a following component 2 and a positioning component 3, where the positioning component 3 includes fixing plates 300 and positioning wheels 306 that are symmetrically distributed, the two fixing plates 300 are fixedly connected through a long axis, the positioning wheels 306 are mounted on a fourth mounting bracket 301, and the fourth mounting bracket 301 is fixedly connected with the fixing plates 300 through long bolts 308.

The measuring component 1 is perpendicular to one fixing plate 300 on one side and is installed, specifically, the measuring component 1 comprises an adjusting base 100, a laser displacement sensor 104, a metering wheel 107 and an encoder 106, the adjusting base 100 is installed on the inner side of one fixing plate 300 through an adjusting screw, a follower wheel 108 is installed at the bottom of the adjusting base, the follower wheel 108 contacts with the surface of a wheel rim to support the whole measuring component 1, installation stability is improved, inclination of the measuring component in the using process is prevented, and accuracy of a measuring result is guaranteed. The laser displacement sensor 104 is installed on the adjusting base 100, and the meter wheel 107 is connected with the encoder 106 and installed on the rotating shaft of the adjusting base 100 through the first installation support 105.

The follower member 2 includes a mounting base 200 and a follower wheel 202, and is mounted on the long axis between two fixed plates 300. As shown in fig. 10, the positioning wheel 306 of the positioning member 3 is engaged with the inner and outer webs of the wheel 7, and the follower member 2 is in contact with the rail 6. When the train wheel walking, through the setting of following part 2 for whole measuring device can follow wheel 7 and remove, and measuring part 1 begins to detect simultaneously, thereby need not to lift the wheel, detects convenient, labour saving and time saving, has effectively solved current fixed point laser scanning wheel to the time problem that can not remove, be difficult to adjust. Specifically, as shown in fig. 4 and 6, the follower wheel 202 is mounted at the bottom of the mounting base 200 through a third mounting bracket 201, and a sliding bearing seat 203 is machined at the top of the mounting base 200 and is slidably mounted on the long shaft between the two fixing plates 300 through the sliding bearing seat 203. Through the setting of sliding bearing seat 203, follow part 2 and can carry out round trip movement at the major axis, can adjust simple operation, convenience to the mounted position of following part 2 at any time according to the needs of different measurement environment.

Example 2

The portable wheel tread circumferential contour device with movable measurement of the embodiment is basically the same as the embodiment 1 in structure, and mainly has the following differences: as shown in fig. 2, the follower wheel 108 is mounted on a second mounting bracket 110 through a pin 109, and the second mounting bracket 110 is connected with the adjustment base 100 through a slider in a sliding manner, so that the mounting position of the follower wheel 108 can be adjusted at any time, and further the measurement error can be reduced. As shown in fig. 3, the laser displacement sensor 104 is fixed to the laser bracket 103 by using a screw, and the laser bracket 103 is connected to the adjustment base 100 through the first slider 101. Specifically, as shown in fig. 5, the first slider 101 is an L-shaped structure, the laser holder 103 is fixedly mounted on a longitudinal side plate of the first slider, a threaded through hole is formed in a transverse side plate of the first slider, a connecting seat is integrally formed on one side of the adjusting base 100, a threaded through hole is also formed in the connecting seat, the first adjusting rotating rod 102 penetrates through the threaded through holes of the first slider 101 and the adjusting base 100 to be mounted, and the mounting position of the laser displacement sensor 104 can be conveniently adjusted at any time by rotating a knob of the first adjusting rotating rod 102.

Meanwhile, the first mounting bracket 105 and the rotating shaft of the adjusting base 100 are fixed through a pin shaft, so that the first mounting bracket 105 can be adjusted at a certain angle during installation, the metering wheel 107 can be tightly attached to the wheel tread 5, the measuring point is opposite to the position of the wheel tread 5, and the accuracy of the measuring result is ensured. In addition, as shown in fig. 6 to 8, the long shafts penetrating through the two fixing plates 300 include a first long shaft 310, a second long shaft 311, and a third long shaft 312, and both ends of the first long shaft 310, the second long shaft 311, and the third long shaft 312 are fixedly connected to the fixing plates 300 through fixing ear plates 307. By providing the three major axes, the mounting stability between the two fixing plates 300 can be further improved. The positioning component 3 is further provided with a sensor 305 and a ball plunger 309, and the sensor 305 and the ball plunger 309 are respectively arranged on different fixing plates 300 of the positioning component 3. Through the setting of inductor 305 and ball plunger 309, pinpoint the installation of device, avoid the measuring error that produces because of the measurement point is inaccurate.

Specifically, the inductor 305 is fixedly mounted on an inductor support 302, the inductor support 302 is slidably connected to the fixing plate 300 through a second sliding block 304, and a bearing sleeve is further disposed thereon. Specifically, as shown in fig. 9, the second slider 304 is fixedly mounted on the side surface of the fixing plate 300 through a screw, mounting holes in threaded fit with the second adjusting rotating rod 303 are formed in both the second slider 304 and the inductor bracket 302, and the second adjusting rotating rod 303 penetrates through the second slider 304 and is in threaded connection with the mounting hole of the inductor bracket 302. Through optimizing the mounting means to inductor 305, the knob of rotating second regulation rotary rod 303 top can realize adjusting the regulation of inductor 305 mounted position, and is easy and simple to handle, quick.

The ball plungers 309 are installed in the holes of the fixing plate 300 in an interference fit manner, the number of the ball plungers 309 is two, the ball plungers are symmetrically and fixedly installed at two ends of one side, close to the fourth installation support 301, of the fixing plate 300, the inner rim surfaces are matched, the positioning purpose is achieved, and the accuracy of the measuring result is ensured. Simultaneously, the number of locating wheel 306 is four, installs two locating wheels 306 on every fixed plate 300, and two locating wheels 306 symmetry install at the both ends of fourth installing support 301, when fixing a position the installation with wheel 7, four locating wheels 306 cooperate the inside and outside radials to fix a position fixedly, ensure that the laser of laser displacement sensor 104 transmission crosses the wheel centre of a circle, play the effect of calibration to be favorable to improving and detect the precision.

Adopt the utility model discloses a when measuring device measures, its concrete operation process as follows: mounting the device on a wheel 7; then adjusting the installation position of the measuring component 1; and driving the wheel, and starting to measure the diameter jump value of the wheel by the rotation of the wheel. Specifically, when a customer needs to know the wheel wear, the device is taken out, and as shown in fig. 10, four positioning wheels 306 on the positioning component 3 are attached and fixed to the inner and outer spokes of the wheel 7, so as to ensure that the ball plunger 309 on the fixing plate 300 on one side is in contact with the inner rim surface 4 of the wheel, and the bearing sleeve in the sensor bracket 302 is in contact with the wheel tread 5. The installation positions of the follow-up wheel 108, the meter counting wheel 107 and the follow-up wheel 202 are adjusted to ensure that the follow-up wheel 108 is in contact with the rim of the wheel 7, the meter counting wheel 107 is attached to the tread 5 of the wheel, and the follow-up wheel 202 is in contact with the rail surface of the rail 6. The position of the laser displacement sensor 104 of the measuring component 1 is adjusted, so that the laser emitted by the laser displacement sensor 104 passes through the center of a wheel, when measurement is carried out, the wheel 7 rolls to drive the meter wheel 107 to rotate, the meter wheel 107 drives the encoder 106 to rotate, the encoder 106 gives a signal to the laser displacement sensor 104 at intervals of a certain pulse number to measure a point on the wheel tread 5, and after the wheel 7 rolls for a circle, the measured point surrounds a circle, so that a data set can be obtained, namely the X coordinate is the pulse number, and a Y coordinate (displacement value) is recorded at intervals of N pulses from 0 until the last pulse N (N is not necessarily an integral multiple of N), thereby reflecting the circumferential profile condition of the wheel tread so that a customer can clearly know the wheel abrasion condition. Specifically, the data measured by the laser displacement sensor 104 is processed as follows, and the wheel diameter jump value, the eccentricity amount, and the ovality are finally obtained.

(1) Calculating the diameter of the wheel 7

Given that the circumference of the meter wheel 107 is C, the number of pulses generated by the meter wheel 107 driving the encoder 106 to rotate once is M, and the total number of pulses generated by the wheel 7 rotating once is N, when the wheel 7 rotates once, the meter wheel 107 rotates N/M cycles, the circumference of the wheel 7 is NC/M, and therefore, the diameter of the wheel 7 is:

(2) calculating the radius of the wheel tread 5 at each point

Converting the measured displacement value into the radius of each point of the wheel tread 5, and assuming the collected originalThe starting data is (X)_i，Y_i) Wherein X is_iThe pulse serial number corresponding to each measuring point is taken as 0, N, 2N, 3N … … N, Y_iFor the displacement value of each measurement point, the number of data collected is k. In the present measurement scheme, the larger the displacement value, the smaller the radius corresponding to the measurement point. The average displacement value of the wheel 7 in one circle is measured as follows:

the displacement value at each measuring point is converted into the radius of the wheel 7, and the pulse serial number at each measuring point is converted into the circumference coordinate of the wheel 7:

(3) calculating wheel runout

And finding out the large radius and the minimum radius from the obtained radius of each point of the wheel tread 5, wherein the difference value of the large radius and the minimum radius is the radial run-out.

(4) Calculating the eccentricity

By calculated (X'_i，Y'_i) Performing circle fitting to obtain the coordinates (a, b) of the center of the fitting circle, wherein the eccentricity is

(5) Calculating ovality

By calculated (X'_i，Y'_i) And (5) carrying out ellipse fitting to obtain the major axis and the minor axis of the ellipse, wherein the difference between the major axis and the minor axis is the ellipticity.

Claims

1. The utility model provides a portable wheel tread circumference profile device of portable measurement which characterized in that: the device comprises a measuring component (1), a following component (2) and a positioning component (3), wherein the positioning component (3) comprises fixing plates (300) and positioning wheels (306) which are symmetrically distributed, the two fixing plates (300) are fixedly connected through a long shaft, and the positioning wheels (306) are correspondingly arranged on the fixing plates (300); the measuring component (1) is perpendicular to the fixing plates (300) for installation, and the following component (2) is installed on a long shaft between the two fixing plates (300) in a sliding mode.

2. The portable wheel tread circumferential profile device for mobile measurement according to claim 1, wherein: the measuring component (1) comprises an adjusting base (100), a laser displacement sensor (104), a meter wheel (107) and an encoder (106), wherein a follow-up wheel (108) is installed at the bottom of the adjusting base (100), and the laser displacement sensor (104) is installed on the follow-up wheel; the meter counting wheel (107) is connected with the encoder (106) and is arranged on a rotating shaft of the adjusting base (100) through a first mounting bracket (105).

3. A portable wheel tread circumferential profile device for mobile measurement according to claim 2, wherein: the follow-up wheel (108) is connected with the adjusting base (100) in a sliding mode through a second mounting bracket (110), the laser displacement sensor (104) is fixed on the laser bracket (103), and the laser bracket (103) is connected with the adjusting base (100) through a first sliding block (101); the first mounting bracket (105) and a rotating shaft of the adjusting base (100) are fixed by a pin shaft.

4. A portable wheel tread circumferential profile device for mobile measurement according to claim 3, wherein: the first sliding block (101) is of an L-shaped structure, a laser support (103) is fixedly mounted on a longitudinal side plate of the first sliding block, a threaded through hole is processed on a transverse side plate of the first sliding block, and the first sliding block is connected with the adjusting base (100) through a first adjusting rotating rod (102).

5. A portable wheel tread circumferential profile device for mobile measurement according to any one of claims 1 to 4, wherein: the following part (2) comprises a mounting seat (200) and a following wheel (202), the following wheel (202) is mounted at the bottom of the mounting seat (200) through a third mounting bracket (201), a sliding bearing seat (203) is machined at the top of the mounting seat, and the following wheel is slidably mounted on a long shaft between two fixing plates (300) through the sliding bearing seat (203); the long shafts penetrating through the two fixing plates (300) comprise a first long shaft (310), a second long shaft (311) and a third long shaft (312), and two ends of the first long shaft (310), the second long shaft (311) and the third long shaft (312) are fixedly connected with the fixing plates (300) through fixing ear plates (307); the positioning wheel (306) is mounted on a fourth mounting bracket (301), and the fourth mounting bracket (301) is fixedly connected with the fixing plate (300) through a long bolt (308).

6. The portable wheel tread circumferential profile device for mobile measurement according to claim 5, wherein: the positioning component (3) is provided with a sensor (305) and a ball plunger (309), and the sensor (305) and the ball plunger (309) are respectively arranged on different fixing plates (300) of the positioning component (3).

7. The portable wheel tread circumferential profile device for mobile measurement according to claim 6, wherein: the inductor (305) is fixedly arranged on the inductor bracket (302), the inductor bracket (302) is connected with the fixed plate (300) in a sliding way through a second sliding block (304), the second sliding block (304) is fixedly connected with the fixed plate (300), and the second sliding block is connected with the inductor bracket (302) through a second adjusting rotating rod (303); ball plungers (309) are symmetrically installed in holes in two ends of one side, close to the fourth installation support (301), of the fixing plate (300) through interference fit respectively, and positioning wheels (306) are symmetrically installed at two ends of the fourth installation support (301).

8. The portable wheel tread circumferential profile device for mobile measurement according to claim 7, wherein: and mounting holes in threaded fit with the second adjusting rotating rod (303) are formed in the second sliding block (304) and the inductor support (302), and the second adjusting rotating rod (303) penetrates through the mounting holes in the second sliding block (304) and the inductor support (302).