CN218666956U - Rail panel fine tuning vehicle and rail panel fine tuning equipment - Google Patents

Abstract

The utility model relates to a rail row fine adjustment car and rail row fine adjustment equipment, including the automobile body, be equipped with running gear at the automobile body bottom, be equipped with the height fine adjustment module on the automobile body, the height fine adjustment module is including dividing two sets of height fine adjustment mechanisms of locating the left and right sides of automobile body, the height fine adjustment mechanism includes the height fine adjustment arm, be suitable for with the height fine adjustment swivel nut of the height adjusting screw bolt spiro union on the rail row, be used for driving the first height drive unit that the height fine adjustment arm revolved around a vertical pivot and be used for driving the second height drive unit that the height fine adjustment swivel nut rotated, first height drive unit installs on the automobile body, the second height drive unit installs on the height fine adjustment arm; the rotation radius of the elevation fine adjustment threaded sleeve relative to the vertical rotating shaft is adjustable. The utility model discloses in, it is adjustable for the radius of rotation of vertical pivot to set up the accurate adjustment swivel nut of elevation, can make the accurate adjustment mechanism of elevation adapt to the height regulation of the section of track of different structures different gauges, the application scope of the accurate shunting of extension rail row.

Description

Rail panel fine tuning vehicle and rail panel fine tuning equipment

Technical Field

The utility model belongs to the technical field of the rail transit engineering, concretely relates to section of track smart tuning car reaches section of track smart tuning equipment including this section of track smart tuning car.

Background

At present, a ballastless track passenger dedicated line mostly adopts a double-block ballastless track, the design speed reaches 350km/h, and the safety, the smoothness and the comfort of the running of a high-speed train must be supported by a good track geometric state. The track fine adjustment is a key link of track precision control, and the track linearity is optimized by calculating the track adjustment according to the sensing data and the smoothness control index of a track detection system, so that the wheel track can be well matched, and the safety, the stability and the riding comfort of train operation are improved.

The track panel fine adjustment operation relates to track panel elevation fine adjustment operation and track direction fine adjustment operation. Chinese patent CN111851172a discloses a ballastless track panel fine tuning machine and a transmission shaft thereof, the track panel fine tuning machine comprises a main frame, two vertical adjustment assemblies and two horizontal adjustment assemblies, the two vertical adjustment assemblies are respectively arranged on two sides of the main frame, the vertical adjustment assemblies comprise a longitudinal adjustment bracket and a transmission shaft vertically arranged on the longitudinal adjustment bracket, the vertical adjustment assembly has a single posture, and can only be applied to the track panel fine tuning operation of a specific track gauge or a specific structure, and the application range is limited.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a section of track smart tuning car reaches section of track smart tuning equipment including this section of track smart tuning car, can solve prior art's partial defect at least.

The utility model relates to a section of track fine tuning car, including the automobile body, be equipped with running gear in the automobile body bottom, be equipped with the fine tuning module of elevation on the automobile body, the fine tuning module of elevation is including locating separately the two sets of fine tuning mechanisms of elevation of the left and right sides of automobile body, the fine tuning mechanism of elevation includes the fine tuning arm of elevation, be suitable for with the fine tuning swivel nut of elevation adjusting screw bolt joint on the section of track, be used for driving the fine tuning arm of elevation around the rotatory first elevation drive unit of a vertical pivot and be used for driving the second elevation drive unit that the fine tuning swivel nut of elevation rotated, first elevation drive unit install in on the automobile body, second elevation drive unit install in on the fine tuning arm of elevation; the height fine adjustment screw sleeve is adjustable relative to the rotating radius of the vertical rotating shaft.

As one embodiment, the height fine adjustment arm is a telescopic arm.

In one embodiment, the elevation fine adjustment arm is provided with a plurality of connection sites, each connection site is sequentially arranged along the arm length direction of the elevation fine adjustment arm, and one connection site is selected to be connected with the first elevation driving unit.

As one of the implementation modes, the output end of the first elevation driving unit is provided with a mounting frame, the elevation fine adjustment arm is provided with a plurality of bolt connecting holes, each bolt connecting hole is sequentially arranged along the arm length direction of the elevation fine adjustment arm, and part of the bolt connecting holes are provided with adjusting bolts and all the adjusting bolts are connected with the mounting frame.

As one of the implementation mode, the mounting bracket includes two mounting panels, is provided with the bolt via hole on two mounting panels, the fine adjustment arm clamp of elevation is established between two mounting panels, adjusting bolt adopts the nut locking after passing the bolt via hole on one of them mounting panel, the bolt connecting hole on the fine adjustment arm of elevation and the bolt via hole on another mounting panel in proper order.

As one embodiment, the height fine adjustment arm is fixedly connected with the mounting frame through a plurality of adjusting bolts.

In one embodiment, the vehicle body is a frame type vehicle frame, and two sets of height fine adjustment mechanisms are arranged at two adjacent corners of the vehicle body.

In one embodiment, the vehicle body is further provided with a fine rail adjusting module, and the fine rail adjusting module is arranged at the other corner of the vehicle body.

The utility model discloses still relate to a section of track accurate adjustment equipment, examine dolly and section of track accurate adjustment car including the rail, the section of track accurate adjustment car adopt as above the section of track accurate adjustment car, the rail examine the dolly with body connection.

The utility model discloses following beneficial effect has at least: the utility model discloses in, it is adjustable for the radius of rotation of vertical pivot to set up the accurate adjustment swivel nut of elevation, can make the accurate adjustment mechanism of elevation adapt to the height regulation of the section of track of different structures different gauges, the application scope of the accurate shunting of extension rail row.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a track panel fine adjustment device (a track panel fine adjustment vehicle + a track inspection trolley) provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a track panel fine tuning device (one track panel fine tuning vehicle + two track inspection vehicles) provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a track panel fine tuning device (one track panel fine tuning vehicle + three track inspection vehicles) provided in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of track panel fine tuning equipment (including a plurality of track panel fine tuning detection modules) provided in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an elevation fine adjustment mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a rail-direction fine adjustment mechanism according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a thread insert adaptive mechanism according to an embodiment of the present invention;

fig. 8 is a schematic structural view of the rail inspection trolley provided with a plurality of prisms according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are described below clearly and completely, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

Referring to fig. 1 to 3, an embodiment of the present invention provides a track panel fine tuning vehicle 1, which includes a first vehicle body 11, and a first traveling mechanism is provided at a bottom of the first vehicle body 11, and the first traveling mechanism is adapted to travel on a track panel. The first vehicle body 11 is provided with a fine adjustment device.

(1) In one embodiment, the first travel mechanism includes a plurality of first travel wheels. Preferably, the first vehicle body 11 is configured with four first traveling wheels, and the four first traveling wheels are arranged in a 2 × 2 array, so that the operation stability and the smoothness of the first vehicle body 11 can be ensured.

The first vehicle body 11 is preferably driven automatically, and for example, a travel driving motor is disposed at least in part on the first travel wheels. Optionally, the first vehicle body 11 can travel on the track panel in two directions, so that the purpose of two-way detection of the track panel detection vehicle can be achieved, the operation is more flexible, and the operation efficiency and the detection accuracy can be effectively improved; the bidirectional traveling mode may be, for example, a mode in which the traveling drive motor is designed to be a motor that can be driven in forward and reverse directions.

In one embodiment, the walking driving motor is a stepping motor, and the first vehicle body 11 can be controlled to move in a certain step, so as to drive the fine adjustment device to move in a certain step, for example, the moving step of the first vehicle body 11 can be set according to the distance between two adjacent fine adjustment points, or according to the distance between the elevation adjustment screws, or according to the distance between the rail adjustment screws, so that the elevation fine adjustment arm 122/the rail fine adjustment arm 132 can be prevented from frequently performing attitude adjustment, and thus the track panel adjustment efficiency and the adjustment accuracy can be improved.

(2) In one embodiment, as shown in fig. 1 to 4, the fine adjustment device includes an elevation fine adjustment module, which includes two sets of elevation fine adjustment mechanisms 12 respectively disposed on the left and right sides of the first vehicle body 11.

As shown in fig. 5, the elevation fine adjustment mechanism 12 includes an elevation fine adjustment arm 122, an elevation fine adjustment screw 124, a first elevation driving unit 121 for driving the elevation fine adjustment arm 122 to move, and a second elevation driving unit 123 for driving the elevation fine adjustment screw 124 to rotate, and the elevation fine adjustment screw 124 is adapted to be screwed with an elevation adjustment screw on the track panel.

In one embodiment, the first elevation driving unit 121 is configured to drive the elevation fine adjustment arm 122 to rotate around a vertical rotation shaft, so as to drive the elevation fine adjustment arm 122 to be close to or far from the elevation adjustment screw, thereby preventing the interference between the high Cheng Jingdiao arm 122 and the elevation adjustment screw during the movement of the first vehicle body 11. The first elevation driving unit 121 includes, but is not limited to, a first elevation driving motor, and an output shaft of the first elevation driving motor is axially parallel to the vertical direction. A rotary table may be connected to an output end of the first elevation driving unit 121, and an elevation fine adjustment arm 122 may be mounted on the rotary table. In another optional embodiment, the first elevation driving unit 121 is configured to drive the elevation fine adjustment arm 122 to perform lifting movement, so as to prevent the interference between the elevation adjustment screw and the high Cheng Jingdiao arm 122 during the movement of the first vehicle body 11; in this arrangement, a pneumatic cylinder, hydraulic cylinder or other linear drive device may be employed. Alternatively, the first elevation driving unit 121 may be a combined driving device, which can drive the elevation fine adjustment arm 122 to rotate around a vertical rotation shaft and drive the elevation fine adjustment arm 122 to perform a lifting motion, for example, a first elevation driving motor is installed at an output end of the lifting cylinder. The first elevation drive unit 121 is mounted on the first vehicle body 11. Preferably, the first elevation driving motor is provided with a rotary encoder, and the rotation number of the first elevation driving motor is obtained through the rotary encoder, so that the adjustment amount is calculated, and the purpose of accurate adjustment is achieved.

Preferably, the second elevation driving unit 123 is installed on the elevation fine adjustment arm 122, for example, at a free end of the elevation fine adjustment arm 122; the second elevation drive unit 123 is preferably removably mounted to the elevation fine adjustment arm 122 for easy access, maintenance and replacement. The second elevation driving unit 123 includes, but is not limited to, a second elevation driving motor, an output shaft of the second elevation driving motor is also axially parallel to the vertical direction, and the elevation fine adjustment screw 124 is connected with the output shaft of the second elevation driving motor. Preferably, the second elevation driving motor is configured with a rotary encoder, and the rotation number of the second elevation driving motor is obtained through the rotary encoder, so that the adjustment amount is calculated, and the purpose of accurate adjustment is achieved.

In one embodiment, the output end of the second elevation driving unit 123 is connected to the elevation fine adjustment screw 124 through a universal joint, so that the three-dimensional degree of freedom of the elevation fine adjustment screw 124 can be ensured, on one hand, the threaded connection between the elevation fine adjustment screw 124 and the elevation adjusting screw can be conveniently completed, the positioning accuracy of the elevation fine adjustment arm 122 can be correspondingly reduced, and the operation efficiency can be improved, on the other hand, the transmission smoothness between the second elevation driving unit 123, the elevation fine adjustment screw 124 and the elevation adjusting screw can be improved, the occurrence of situations such as holding power can be avoided, and the elevation adjusting accuracy of the track panel can be effectively improved; as shown in fig. 5, a double-gimbal structure 126 is preferably adopted, so that the transmission smoothness is better.

In one embodiment, the second elevation driving motor is a servo motor, and can be quickly started and quickly stopped, so that the response speed of the elevation fine adjustment mechanism 12 is increased, and the elevation adjustment precision of the track panel is improved. Furthermore, by monitoring the change of the current analog quantity of the servo motor, the tight joint degree of the elevation fine adjustment threaded sleeve 124 and the elevation adjusting screw can be automatically detected, the connection gap between the elevation fine adjustment threaded sleeve 124 and the elevation adjusting screw can be automatically eliminated, and accordingly the elevation adjusting precision of the track panel is improved.

In the above-mentioned scheme of driving the elevation fine adjustment arm 122 to rotate around a vertical rotation axis through the first elevation driving unit 121, further, the rotation radius of the elevation fine adjustment screw 124 relative to the vertical rotation axis is adjustable, so that the elevation fine adjustment mechanism 12 can adapt to elevation adjustment of track panels with different structures/different track gauges.

The arm length/rotation radius of the elevation fine adjustment arm 122 may be adjustable, and an automatic adjustment manner may be adopted, for example, a driving device capable of driving the elevation fine adjustment arm 122 to move along the arm length direction of the elevation fine adjustment arm 122 is configured (for example, a guide rail is disposed on the rotary table, and the driving device is used for driving the elevation fine adjustment arm 122 to move along the guide rail). A manual adjustment mode can also be adopted, in one embodiment, the elevation fine adjustment arm 122 adopts a telescopic arm with a self-locking mechanism; in another embodiment, a plurality of connection locations are disposed on the fine elevation adjustment arm 122, each connection location is sequentially disposed along the length direction of the fine elevation adjustment arm 122, and one of the connection locations is selected to be connected to the first elevation driving unit 121, so as to achieve the purpose of adjusting the rotation radius/the arm length of the fine elevation adjustment arm 122.

As a specific embodiment, as shown in fig. 5, a mounting bracket 125 is provided at the output end of the first elevation driving unit 121 (for a structure provided with a rotary table, the mounting bracket 125 is fixed to the rotary table), and the elevation fine adjustment arm 122 is fixed to the mounting bracket 125 by an adjustment bolt, and accordingly, a plurality of bolt connection holes are provided in the elevation fine adjustment arm 122, and the bolt connection holes are sequentially provided in the arm length direction of the elevation fine adjustment arm 122; further, the height fine adjustment arm 122 is connected with the mounting frame 125 through a plurality of adjusting bolts, so that the connection reliability between the height fine adjustment arm and the mounting frame can be improved, and preferably, the distance between bolt connection holes is the same, so that the connection position can be conveniently selected and adjusted; alternatively, as shown in fig. 5, the mounting block 125 includes two mounting plates 1251, the two mounting plates 1251 are arranged in parallel at intervals, and the interval between the two mounting plates 1251 is the same as the width/thickness of the elevation fine adjustment arm 122, bolt through holes (the number is set according to the number of adjustment bolts) are correspondingly arranged on the two mounting plates 1251, the elevation fine adjustment arm 122 is clamped between the two mounting plates 1251, and the adjustment bolts sequentially pass through the bolt through holes on one of the mounting plates 1251, the bolt connection holes on the elevation fine adjustment arm 122, and the bolt through holes on the other mounting plate 1251, and then are locked by nuts.

It is obvious that the following can also be used: a plurality of horizontal mounting positions are provided in the mounting bracket 125, and the horizontal mounting positions are sequentially provided in the arm length direction of the fine height adjustment arm 122, and the fine height adjustment arm 122 is alternatively mounted at one of the horizontal mounting positions. In contrast, the manner of providing a plurality of connection locations on the fine height adjustment arm 122 can improve the structural compactness of the fine height adjustment mechanism 12, and can also avoid the problem of weight increase caused by the too long length of the mounting bracket 125.

For the situation that the elevation fine adjustment arm 122 lifting drive device is not arranged, the installation height of the elevation fine adjustment arm 122 can be adjusted, and accordingly the application range of the rail row fine adjustment vehicle 1 is widened. Preferably, a plurality of elevation installation positions are provided on the installation frame 125, each elevation installation position is sequentially provided in a vertical direction, and the elevation fine adjustment arm 122 is alternatively installed at one elevation installation position. For the installation of the elevation fine adjustment arm 122 at the elevation installation position, it is still preferable to use an adjusting bolt fixing manner, which is not described herein again.

The two sets of elevation fine adjustment mechanisms 12 are used for adjusting elevation adjustment screws on two sides of the track panel, and preferably, the arrangement direction of the two sets of elevation fine adjustment mechanisms 12 is parallel to the transverse direction of the first vehicle body 11 (when the first vehicle body 11 travels on the track panel, the transverse direction of the first vehicle body 11 is parallel to the transverse direction of the track panel), so that the balance of the stress of the first vehicle body 11 can be ensured.

(3) In one embodiment, as shown in fig. 1-4, the fine tuning device includes an orbital fine tuning module 13.

As shown in fig. 6, the fine tuning module 13 includes a fine tuning arm 132, a fine tuning screw 134, a first fine tuning driving unit 131 for driving the fine tuning arm 132 to move, and a second fine tuning driving unit 133 for driving the fine tuning screw 134 to rotate, wherein the fine tuning screw 134 is adapted to be screwed with a fine tuning screw on the track panel.

The first track driving unit 131 is used for driving the track fine adjustment arm 132 to be close to the track adjustment screw or to be far away from the track adjustment screw, so that the track fine adjustment arm 132 can complete track adjustment operation and can adapt to track panel adjustment operation with different track gauges, and interference between the track fine adjustment arm 132 and the track adjustment screw in the moving process of the first vehicle body 11 is prevented. Preferably, the first rail driving unit 131 has a multi-stage driving structure, so that the spatial postures of the rail fine adjustment arm 132 and the rail fine adjustment screw 134 can be flexibly positioned, the rail adjustment accuracy and efficiency can be improved, and the device can be well protected.

In one embodiment, each driving structure has an output rotating shaft axially parallel to the vertical direction, and the fine rail adjusting arm 132 is connected with the output rotating shaft of the final driving structure; the adjacent two stages of driving structures are connected through a joint arm, wherein the joint arm is connected with an output rotating shaft of the previous stage of driving structure, and the next stage of driving structure is fixedly connected with the joint arm. In this embodiment, as shown in fig. 6, a two-stage driving structure combination is adopted, so that the driving and the spatial positioning of the fine adjustment arm 132 in the rail direction can be better realized. Preferably, the driving structure includes, but is not limited to, a first rail-oriented driving motor, and an output shaft of the first rail-oriented driving motor is configured as the output rotating shaft. Preferably, the first track-oriented driving motor is provided with a rotary encoder, and the rotation number of the first track-oriented driving motor is obtained through the rotary encoder, so that the adjustment amount is calculated, and the purpose of precise adjustment is achieved.

In another alternative embodiment, the first rail driving unit 131 is used to drive the rail fine adjustment arm 132 to perform a lifting motion, or a combination of the lifting motion and the rotating motion, so that the rail fine adjustment arm 132 can be flexibly positioned and the interference between the rail fine adjustment arm 132 and the rail adjustment screw during the movement of the first vehicle body 11 can be prevented.

Preferably, as shown in fig. 6, the fine rail adjustment arm 132 is an L-shaped arm, and includes a horizontal arm 1321 and a vertical arm 1322, wherein the horizontal arm 1321 is connected to the first rail driving unit 131, the top end of the vertical arm 1322 is connected to the horizontal arm 1321, and the second rail driving unit 133 is mounted at the bottom of the vertical arm 1322. The fine tuning arm 132 may be an integrally formed structure, or may be designed with a horizontal arm 1321 detachably connected to the vertical arm 1322; when the horizontal arm 1321 is detachably connected to the vertical arm 1322, the installation and maintenance of the fine tuning rail module 13 can be facilitated, and the vertical arm 1322 can be detached from the horizontal arm 1321, so that the second fine tuning rail drive unit 133 and the fine tuning rail nut 134 can be replaced and maintained, and the fine tuning rail 132 can be stored and stored conveniently.

The second orbital drive unit 133 is preferably removably mounted to the orbital fine adjustment arm 132 for ease of repair, maintenance and replacement. The second rail-oriented driving unit 133 includes, but is not limited to, a second rail-oriented driving motor, an output shaft of which is axially parallel to the first vehicle body 11 in the transverse direction or the axial direction of the first traveling wheel, and a fine rail-oriented adjusting screw 134 is connected to the output shaft of the second rail-oriented driving motor. Preferably, the second track-oriented driving motor is provided with a rotary encoder, and the number of revolutions of the second track-oriented driving motor is obtained through the rotary encoder, so that the adjustment amount is calculated, and the purpose of accurate adjustment is achieved.

In one embodiment, the output end of the second rail-direction driving unit 133 is connected to the rail-direction fine adjustment screw 134 through a universal joint, so that the three-dimensional degree of freedom of the rail-direction fine adjustment screw 134 can be ensured, on one hand, the threaded connection between the rail-direction fine adjustment screw 134 and the rail-direction adjustment screw can be conveniently completed, the positioning accuracy of the rail-direction fine adjustment arm 132 can be correspondingly reduced, and the operation efficiency can be improved, on the other hand, the transmission smoothness between the second rail-direction driving unit 133, the rail-direction fine adjustment screw 134 and the rail-direction adjustment screw can be improved, the occurrence of situations such as holding power and the like can be avoided, and the rail-direction adjustment accuracy of the rail panel can be effectively improved; wherein, preferably adopt two universal joint structure 126, the transmission is smooth and easy nature better.

In one embodiment, the second track driving motor is a servo motor, and can be started and stopped quickly, so as to improve the response speed of the track fine adjustment module 13 and improve the track direction adjustment precision of the track panel. Furthermore, by monitoring the change of the current analog quantity of the servo motor, the tight joint degree of the rail-direction fine adjustment screw sleeve 134 and the rail-direction adjusting screw can be automatically detected, the connection gap between the rail-direction fine adjustment screw sleeve 134 and the rail-direction adjusting screw can be automatically eliminated, and the rail-direction adjusting precision of the rail panel is correspondingly improved.

In one embodiment, a fine tuning rail seat 1351 is disposed at the bottom end of the fine tuning rail arm 132, and a nut adaptive mechanism 135 is disposed on the fine tuning rail seat 1351 and is used for enabling the fine tuning rail nut 134 to adapt to a fine tuning rail process and/or a fine tuning rail height process of the track panel, specifically, enabling a relative position between the fine tuning rail nut 134 and the second fine tuning rail driving unit 133 to be stable during the fine tuning rail direction of the track panel, and enabling the fine tuning rail nut 134 to keep following during the fine tuning rail height of the track panel. Preferably, the screw adaptive mechanism 135 includes a base plate, the second rail driving unit 133 is installed on the base plate, and the fine rail adjusting screw 134 is installed on the output end of the second rail driving unit 133; the thread insert adaptive mechanism 135 further includes a vertical adaptive structure and/or a rail-direction adaptive structure, the rail-direction adaptive structure is used for keeping a relative position between the rail-direction fine adjustment thread insert 134 and the second rail-direction driving unit 133 stable in the rail row rail-direction fine adjustment process, and the vertical adaptive structure is used for keeping the rail-direction fine adjustment thread insert 134 capable of keeping following in the rail row elevation fine adjustment process.

In one embodiment, as shown in fig. 7, the vertical adaptive structure includes at least two sets of vertical guide assemblies, each vertical guide assembly includes a vertical guide post 1352 and a vertical guide sleeve, which are matched with each other, and the vertical guide sleeves slide on the vertical guide posts 1352 to drive the substrate to move up and down; the rail-oriented adaptive structure comprises at least two sets of rail-oriented guide assemblies, each rail-oriented guide assembly comprises a rail-oriented guide post 1353 and a rail-oriented guide sleeve which are matched, and the base plate is driven to transversely move by sliding the rail-oriented guide sleeves on the rail-oriented guide posts 1353. It can be understood that when the vertical adaptive structure and the rail adaptive structure are included, they are combined to form a two-dimensional guiding mechanism, for example, the rail adaptive structure further includes a rail adjustable frame, each rail adjustable frame is fixed to the rail adjustable frame 1353, each rail adjustable frame is fixed to the base plate, and the base plate can be driven to slide along the rail adjustable frame 1353, each vertical adjustable frame is fixed to the rail adjustable frame, and the rail adjustable frame can be driven to slide along the vertical guide post 1352, and each vertical guide post 1352 is fixed to the rail fine adjustment seat 1351.

Preferably, the fine rail adjustment base 1351 is detachably mounted to the fine rail adjustment arm 132 for easy installation, repair and maintenance of the related devices.

By configuring the thread sleeve self-adaptive mechanism 135, the track-oriented fine adjustment thread sleeve 134 can self-adapt to the track panel adjustment process, and the working reliability and the smoothness of the fine adjustment device can be effectively improved.

In the above solution, by means of the above thread sleeve adaptive mechanism 135, the spatial position of the fine adjustment thread sleeve 134 in the rail direction can be adjusted, and the positioning accuracy of the fine adjustment thread sleeve 134 in the rail direction can be effectively improved by matching with the spatial positioning of the fine adjustment arm 132 in the rail direction by the first rail direction driving unit 131, wherein the coarse positioning of the fine adjustment thread sleeve 134 in the rail direction can be realized by the first rail direction driving unit 131, and then the fine positioning is performed by the thread sleeve adaptive mechanism 135, so that the fine adjustment thread sleeve 134 in the rail direction can be quickly screwed with the adjusting screw in the rail direction; in the scheme that the first track-direction driving unit 131 adopts a multi-stage driving structure and each driving structure adopts a motor to drive, the fine adjustment device can be suitable for track panel adjustment operations with different specifications/different elevations by combining with the thread sleeve self-adaptive mechanism 135.

Example two

Referring to fig. 1, 2 and 8, the present embodiment provides a track panel inspection vehicle, which includes a second vehicle body 21, and a second traveling mechanism is disposed at the bottom of the second vehicle body 21, and the second traveling mechanism is adapted to travel on a track panel. The second vehicle body 21 is provided with a track panel detection unit.

In one embodiment, the track panel detection unit includes at least one of the prism 22, a track gauge sensor for measuring the track gauge of the track panel, and a level sensor for measuring the levelness of the track panel, and preferably all three of them include, in cooperation with the total station, the total station can calculate the deviation values of the track panel, such as the track direction, height, level, track gauge, and the like, so as to guide a worker to perform fine adjustment on the track panel.

In one embodiment, the second traveling mechanism includes a plurality of second traveling wheels, in one embodiment, three second traveling wheels are configured on the second vehicle body 21, and the three second traveling wheels are arranged in a triangle, so that on the premise of ensuring the operation stability and smoothness of the second vehicle body 21, the structure of the second vehicle body 21 is simplified, the number of components and the occupied space of the second vehicle body 21 are reduced, and the transportation of the second vehicle body 21 is facilitated; specifically, 2 of the second road wheels are disposed at one of the lateral ends of the second vehicle body 21, and the other 1 of the second road wheels is disposed at the other lateral end of the second vehicle body 21.

Further optionally, the second vehicle body 21 includes a first vehicle frame and a second vehicle frame, the first vehicle frame and the second vehicle frame are both strip-shaped vehicle frames, a length direction of the first vehicle frame is perpendicular to an axial direction of a wheel shaft of the second road wheel, a length direction of the second vehicle frame is parallel to an axial direction of a wheel shaft of the second road wheel, the first vehicle frame and the second vehicle frame are connected to form a T-shaped second vehicle body 21, wherein 2 second road wheels are arranged on the first vehicle frame, and the other 1 second road wheel is arranged on the second vehicle frame. By adopting the T-shaped second vehicle body 21, the structure of the second vehicle body 21 can be simplified on the premise of ensuring the stability and smoothness of the operation of the second vehicle body 21. The prism 22 is preferably provided on the second frame, for example, at a middle position of the second frame, and the prism 22 is preferably positioned on a center line of the track panel when the second vehicle body 21 travels on the track panel.

The first frame and the second frame can be detachably assembled, so that the second vehicle body 21 can be conveniently stored and transported, and conventional detachable connection modes such as bolt connection and the like are all suitable for the embodiment; in particular, the first frame and the second frame have the same length, so that the second vehicle body 21 can be placed in a container after being disassembled into two frames, thereby facilitating the packaging, storage and transportation of the equipment components.

The second vehicle body 21 is preferably driven automatically, and for example, a travel drive motor is disposed at least in part on the second road wheels. Optionally, the second vehicle body 21 can travel on the track panel in two directions, so that the purpose of two-way detection of the track panel detection vehicle can be achieved, the work is more flexible, and the working efficiency and the detection accuracy can be effectively improved; the bidirectional traveling mode may be, for example, a mode in which the traveling drive motor is designed to be a motor that can be driven in forward and reverse directions.

In one embodiment, the walking driving motor is a stepping motor, and the second vehicle body 21 can be controlled to move in a certain step, so as to drive the track panel detection unit to move in a certain step, for example, the moving step of the second vehicle body 21 can be set according to the distance between two adjacent detection points, or according to the distance between the elevation adjusting screws, or according to the distance between the track adjusting screws, so that the measurement accuracy of the track panel can be improved.

EXAMPLE III

The present embodiment provides a track panel inspection vehicle, which is optimized on the basis of the track panel inspection vehicle provided in the second embodiment, specifically:

as shown in fig. 8, a plurality of prisms 22 are provided on the second vehicle body 21, and the prisms 22 are sequentially spaced along the second vehicle body 21, for example, the prisms 22 are all disposed on the second vehicle frame and are sequentially disposed along the length direction of the second vehicle frame.

By arranging the prisms 22 on the second vehicle body 21, synchronous tracking measurement of the left and right track panels can be realized, spatial attitude calculation of the track panels can be realized according to measurement results, and motion conditions of the track panels can be fed back in real time, so that an optimal adjustment scheme is analyzed, a control strategy is adjusted in real time, and control parameters are corrected. Compared with the traditional scheme of a single prism 22+ a sensor (a track gauge sensor, a level sensor and the like), the multi-prism 22 detection scheme provided by the embodiment can effectively improve the detection precision and the detection efficiency, and can avoid the problem of detection precision reduction caused by the detection error of the sensor. Further, a track gauge sensor and/or a level sensor are/is simultaneously arranged on the second vehicle body 21, and the detection data based on the prisms 22 and the sensor detection data can be mutually supplemented and verified by combining a plurality of prisms 22, so that the track panel detection precision is remarkably improved.

Further, the distance between the prisms 22 is adjustable, for example, each prism 22 can be detachably mounted on the second vehicle body 21 in a threaded manner, a clamping manner, or the like, or a slide rail is mounted on the second vehicle body 21, and the supports of each prism 22 are slidably mounted on the slide rail.

Example four

Referring to fig. 2 to 4, the present embodiment provides a track panel detection apparatus, which includes a plurality of track inspection trolleys 2, and the track inspection trolleys 2 are connected in series in sequence.

Preferably, at least part of the rail inspection trolley 2 adopts the track panel detection vehicle provided by the second embodiment, or adopts the track panel detection vehicle provided by the third embodiment.

The second running gear of one of the rail inspection trolleys 2 or the second running gear of a plurality of rail inspection trolleys 2 can be provided with power drive, and the second running gear of all the rail inspection trolleys 2 can also be provided with power drive. Of course, for the scheme that all or a plurality of rail inspection trolleys 2 are provided with power drives, in the practical application process, part of the power drives can be controlled not to be used.

By adopting the rail inspection trolleys 2 which are connected in series, more track panel state data can be provided at a time, the detection data richness is higher, and the accuracy and the detection efficiency of the track panel detection can be correspondingly improved. When a certain rail inspection trolley 2 detects a certain detection point, the rail inspection trolley 2 on the front side or the rear side can provide extra data and verify the detection data of the detection point, so that the accuracy and the reliability of the detection result are higher.

In one embodiment, the power drive of the second traveling mechanism is driven by a stepping motor, and each rail inspection trolley 2 can be controlled to move in a certain step. Preferably, the first rail inspection trolley 2 is moved to the next adjustment point of the rail panel by controlling the moving stride of the rail inspection trolley 2, the second rail inspection trolley 2 is moved to the position of the original first rail inspection trolley 2, the third rail inspection trolley 2 is moved to the position of the original second rail inspection trolley 2, and so on, the nth rail inspection trolley 2 is moved to the position of the original (n-1) th rail inspection trolley 2; generally, the prisms 22 on the rail inspection trolley 2 are installed at the same position, and the distance between two adjacent prisms 22 is preferably equal to n trolley moving steps. The mode can effectively improve the measurement precision of the track panel.

In one embodiment, the rail inspection trolleys 2 are detachably connected, so that the rail panel detection device can be divided into a plurality of rail inspection trolleys 2, a single rail inspection trolley 2 can work independently and can also be used for detection operation of other rail panels, and in addition, the number of the rail inspection trolleys 2 can be increased or decreased according to actual conditions, so that the application range and the working flexibility of the rail panel detection device are effectively improved. The existing detachable connection structures are all applicable to the embodiment, for example, the connecting rod 3 is detachably connected with the second vehicle bodies 21 of the two rail inspection trolleys 2 respectively (for example, the connecting rod 3 and the second vehicle bodies 21 are fixed by bolts), and the like.

In one embodiment, the distance between the rail inspection trolleys 2 is adjustable, so that the matching degree of the distance between the rail inspection trolleys 2 and the moving step of the trolleys is higher, and the measurement accuracy of the rail panel is further improved. In the scheme that the connecting rod 3 is detachably connected with the second car bodies 21 of the two rail inspection trolleys 2, a plurality of bolt connecting holes can be formed in the connecting rod 3, and one or more bolt connecting holes are selected to be provided with bolts; or a self-locking telescopic connecting rod 3 can be adopted to connect the two rail inspection trolleys 2. In another alternative, the two rail inspection trolleys 2 are connected by a screw rod, nuts can be respectively arranged on the second trolley bodies 21 (such as the second trolley frame) of the two rail inspection trolleys 2, the screw rod is respectively in threaded connection with the two nuts (the thread screwing directions of the two nuts are preferably opposite), and the axial direction of the screw rod is perpendicular to the axial direction of the wheel shaft of the second travelling wheel; the two rail inspection trolleys 2 can be close to or far away from each other by rotating the screw rod, and the measurement precision of the rail panel can be further improved by selecting the thread pitch of the threads, controlling the thread precision and the like; the scheme can realize the adjustment of the distance between the two rail inspection trolleys 2 and also can realize the detachable connection between the rail inspection trolleys 2.

EXAMPLE five

The embodiment provides a section of track fine tuning equipment, and it has section of track detection function and section of track fine tuning function.

(1) Optionally, the track panel fine adjustment device comprises a third vehicle body, and a third travelling mechanism is arranged at the bottom of the third vehicle body and is suitable for travelling on the track panel. And a fine adjustment unit and a track panel detection unit are arranged on the third vehicle body. In another aspect, it can be understood that a track panel detection unit is added to the track panel fine tuning vehicle 1.

The structure of the track panel detection unit can refer to the related contents in the second embodiment. Where the first vehicle body 11 includes a frame, a cross member may be mounted on the frame for arranging the track panel detection unit.

Preferably, a plurality of prisms 22 may be arranged in the longitudinal direction on the third vehicle body; the power drive of the third traveling mechanism is driven by a stepping motor, and the distance between two adjacent front and rear prisms 22 is preferably equal to the moving steps of the n third vehicle bodies. By controlling the moving step of the third vehicle body, when the first prism 22 moves to the next adjustment point of the track panel, the second prism 22 moves to the original first prism 22, the third prism 22 moves to the original second prism 22, and so on, the nth prism 22 moves to the original (n-1) th prism 22. The mode can effectively improve the measurement precision of the track panel.

(2) Optionally, the track panel fine tuning equipment comprises a track panel fine tuning vehicle 1 and a track inspection trolley 2, wherein the track panel fine tuning vehicle 1 is connected with the track inspection trolley 2; the track panel fine tuning vehicle 1 provided in the first embodiment may be used as the track panel fine tuning vehicle 1, and the track inspection vehicle 2 may be the track panel inspection vehicle in the second embodiment, so that the first vehicle body 11 is connected to the second vehicle body 21.

The first vehicle body 11 and the second vehicle body 21 may be driven automatically, respectively, or only the first vehicle body 11 or the second vehicle body 21 may be driven automatically, and the other vehicle body may be driven in a follow-up manner.

Preferably, the track panel fine tuning vehicle 1 and the track inspection trolley 2 are detachably connected, for example, the first vehicle body 11 and the second vehicle body 21 are detachably connected, so that the track panel fine tuning device can be divided into the track panel fine tuning vehicle 1 and the track inspection trolley 2, the track panel fine tuning vehicle 1 and the track inspection trolley 2 can respectively and independently work, and can also be used for detection/fine tuning operation of other track panels, and in addition, different track panel fine tuning vehicles 1 can be configured for the track inspection trolley 2 or different track inspection trolleys 2 can be configured for the track panel fine tuning vehicles 1 according to actual conditions, so that the application range and the working flexibility of the track panel fine tuning device are effectively improved. The existing detachable connection structure is applicable to the present embodiment, for example, the link 3 is detachably connected to the first vehicle body 11 and the second vehicle body 21 (for example, the link 3 is fixedly connected to the first vehicle body 11 and the second vehicle body 21 by bolts).

In one embodiment, the first vehicle body 11 and the second vehicle body 21 are connected by a link 3, and the axis of the link 3 is perpendicular to the axis of the first traveling wheel; at least one of the vehicle bodies is connected with the connecting rod 3 through a universal joint, and preferably, two ends of the connecting rod 3 are respectively connected with a universal joint. Based on the structure, the transmission smoothness between the rail row fine adjustment trolley 1 and the rail inspection trolley 2 can be ensured, the occurrence of the situations such as force blocking and the like can be avoided, and the rail row fine adjustment trolley is particularly suitable for the situation that one trolley body runs in a follow-up mode and the other trolley body runs automatically; the situation that the track panel detection precision/track panel adjustment precision is reduced due to displacement errors of the track panel fine tuning vehicle 1 and the track inspection trolley 2 can be improved or avoided; in addition, the structure can also better ensure the running stability, smoothness and displacement precision of the track panel fine adjustment equipment on the curve section track panel. Wherein, the connecting rod 3 is detachably connected with the universal joint, and/or the universal joint is detachably arranged on the corresponding vehicle body.

In one embodiment, as shown in fig. 1 to 4, the first vehicle body 11 includes a frame, and the second vehicle body 21 is accommodated in the frame of the first vehicle body 11 and fixedly connected to the first vehicle body 11, and forms a track panel fine adjustment detection module 100, which can effectively improve the structural compactness and the integration of the track panel fine adjustment device, reduce the volume of the track panel fine adjustment device, and more importantly, the track panel detection unit on the second vehicle body 21 is closer to the fine adjustment unit on the first vehicle body 11, and the fine adjustment unit can perform fine adjustment processing on the track panel adjustment point detected by the track panel detection unit nearby, so as to improve the track panel adjustment accuracy.

Further, the first vehicle body 11 further includes a cover plate covering the frame type vehicle frame; when this apron leans on with the upper surface of second automobile body 21, can carry out better restraint to second automobile body 21 through this apron, improve the operation smoothness nature of second automobile body 21 to improve and detect the precision, and can improve the structural integrity of first automobile body 11 and second automobile body 21, can promote pleasing to the eye degree simultaneously. The cover plate is detachably connected or hinged with the frame type frame, so that the second vehicle body 21 can be conveniently overhauled and maintained. The prism 22 on the second vehicle body 21 needs to penetrate through the cover plate, and accordingly, a relief hole is formed in the cover plate.

Preferably, the cross section of the first vehicle body 11 is U-shaped, that is, the first vehicle body 11 is higher at both lateral sides and lower in the middle. Based on the structure, a better detection visual field can be provided, and the condition that the total station affects the acquisition of the prism 22 information when a conventional plane type frame is adopted is avoided on the premise that the arrangement requirements of an elevation fine adjustment module, a rail fine adjustment module 13 and the like are met; this solution is particularly suitable for the case where the prism 22 is disposed on the first vehicle body 11 or the second vehicle body 21 is housed within the frame range of the first vehicle body 11, but is also suitable for the case where the second vehicle body 21 is disposed on the front side or the rear side of the first vehicle body 11, and can effectively improve the information acquisition field of view of the total station and avoid the prism 22 from being excessively high to be supported. Preferably, the central U-shaped groove of the first body 11 is of a clearance design, i.e. no other components are arranged in the central U-shaped groove, except for the prism 22 which may be inserted, in order to avoid obstructing the inspection field of view.

(3) Alternatively, as shown in fig. 2 to 4, the track panel fine tuning device comprises a track panel fine tuning vehicle 1 and a plurality of track inspection trolleys 2, wherein the track panel fine tuning vehicle 1 can adopt the track panel fine tuning vehicle 1 provided in the first embodiment;

in one embodiment, as shown in fig. 2 and 3, all the rail inspection trolleys 2 are adjacent to the track panel fine tuning trolley 1 and are connected with the track panel fine tuning trolley 1 (obviously, the scheme that the second trolley body 21 is accommodated in the frame type trolley frame of the first trolley body 11 also belongs to the adjacent connection scheme). In another embodiment, a part of the rail inspection vehicles 2 are connected adjacent to the rail panel fine tuning vehicle 1, and the rest of the rail inspection vehicles 2 are connected in series with the rail inspection vehicles 2 adjacent to the front side and/or the rear side of the rail panel fine tuning vehicle 1, for example, a plurality of rail inspection vehicles 2 may be connected to form the rail panel detection apparatus in the fourth embodiment (at least one of the rail inspection vehicles 2 is connected to the rail panel fine tuning vehicle 1).

Preferably, referring to the related contents in the above section (2), a connecting structure of a connecting rod 3+ universal joint may be adopted between the rail inspection trolley 2 and the rail panel fine tuning trolley 1.

Preferably, the first vehicle body 11 includes frame-type frames, and one rail inspection vehicle 2 is accommodated in the frame of the first vehicle body 11 and is fixedly connected to the first vehicle body 11, and the rest rail inspection vehicles 2 are located outside the first vehicle body 11.

Similarly, the first vehicle body 11 and the second vehicle body 21 may be driven automatically, respectively, or only the first vehicle body 11 or the second vehicle body 21 may be driven automatically, and the other vehicle body may be driven in a follow-up manner.

Similarly, the section of track fine tuning car 1 and the rail inspection trolley 2, and the rail inspection trolley 2 are preferably detachably connected, so that the application range and the working flexibility of the section of track fine tuning equipment can be effectively improved.

Other structures of the track panel fine tuning device can refer to the relevant contents in the above section (2).

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a section of track fine tuning car, includes the automobile body, is equipped with running gear at bottom of the car body, be equipped with elevation fine tuning module on the automobile body, elevation fine tuning module is including dividing two sets of elevation fine tuning mechanisms of locating the automobile body left and right sides, its characterized in that: the elevation fine adjustment mechanism comprises an elevation fine adjustment arm, an elevation fine adjustment screw sleeve suitable for being in screw connection with an elevation adjustment screw rod on a track panel, a first elevation driving unit used for driving the elevation fine adjustment arm to rotate around a vertical rotating shaft, and a second elevation driving unit used for driving the elevation fine adjustment screw sleeve to rotate, wherein the first elevation driving unit is installed on the vehicle body, and the second elevation driving unit is installed on the elevation fine adjustment arm; the height fine adjustment screw sleeve is adjustable relative to the rotating radius of the vertical rotating shaft.

2. The track panel fine tuning vehicle of claim 1, wherein: the elevation fine adjustment arm is a telescopic arm.

3. The track panel fine tuning vehicle of claim 1, wherein: the height fine adjustment arm is provided with a plurality of connecting positions, the connecting positions are sequentially arranged along the arm length direction of the height fine adjustment arm, and one of the connecting positions is selected to be connected with the first height driving unit.

4. The rail row fine tuning vehicle of claim 3, wherein: the output of first elevation drive unit is equipped with the mounting bracket, set up a plurality of bolted connection holes on the accurate accent arm of elevation, each bolted connection hole sets gradually along the arm length direction of the accurate accent arm of elevation, is equipped with adjusting bolt on some bolted connection holes and each adjusting bolt all with the mounting bracket is connected.

5. The rail row fine tuning vehicle of claim 4, wherein: the mounting bracket includes two mounting panels, is provided with the bolt via hole on two mounting panels, the accurate accent of elevation arm clamp is established between two mounting panels, adjusting bolt adopts the nut locking after passing bolt via hole on one of them mounting panel, the bolt connection hole on the accurate accent of elevation arm and the bolt via hole on another mounting panel in proper order.

6. The rail row fine tuning vehicle of claim 4, wherein: the elevation fine adjustment arm is fixedly connected with the mounting frame through a plurality of adjusting bolts.

7. The track panel fine tuning vehicle of claim 1, wherein: the frame type frame is adopted as the vehicle body, and the two sets of height fine adjustment mechanisms are arranged at two adjacent corner parts of the vehicle body.

8. The rail row fine tuning vehicle of claim 7, wherein: and the car body is also provided with a rail-direction fine adjustment module, and the rail-direction fine adjustment module is arranged at the other corner of the car body.

9. The utility model provides a section of track fine tuning equipment, includes that the track examines dolly and the fine tuning of section of track, its characterized in that: the track panel fine tuning vehicle adopts the track panel fine tuning vehicle as claimed in any one of claims 1 to 8, and the track inspection trolley is connected with the vehicle body.

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