CN118007507B

CN118007507B - Pavement crack detection and repair device

Info

Publication number: CN118007507B
Application number: CN202410414047.6A
Authority: CN
Inventors: 徐波; 吕春春; 杨俊琴; 田广予; 李国�; 耿春红; 李瑞斌; 李留兆; 郝安荣; 于建峰; 连仲凯; 李置; 安飞; 马飞康; 贺建强; 席丽珍; 白洋冰; 杨晨宇
Original assignee: Shanxi Zhongyuan Technology Co ltd
Current assignee: Shanxi Zhongyuan Technology Co ltd
Priority date: 2024-04-08
Filing date: 2024-04-08
Publication date: 2024-06-07
Anticipated expiration: 2044-04-08
Also published as: CN118007507A

Abstract

The invention discloses a pavement crack detection and repair device, which relates to the technical field of pavement maintenance and comprises a frame, wherein a travelling wheel is arranged on the frame, one end of the frame is provided with a vertical frame, a stirring cylinder is arranged on the frame, a conveying pipe is connected with the stirring cylinder, the end part of the conveying pipe is connected with a telescopic pipe, the telescopic pipe is connected with a guide pipe, the guide pipe points to a crack, a lifting mechanism is arranged on the vertical frame, the lifting mechanism is connected with a lifting frame I, the bottom end of the lifting frame I is connected with a bending crack adaptation component, the bending crack adaptation component is connected with a crack detection mechanism, and the bottom of the frame is provided with a repair mechanism; the bending seam adaptation component is used for ensuring that the bending seam is measured under the condition that the moving direction of the frame is not changed, the crack detection mechanism is used for measuring the width and the depth of the crack, and the contact direction detection component in the crack detection mechanism is used for accurately measuring the width of the bending part of the crack, so that the accuracy of the dosage of asphalt concrete along the crack is ensured.

Description

Pavement crack detection and repair device

Technical Field

The invention relates to the technical field of pavement maintenance, in particular to a pavement crack detection and repair device.

Background

The asphalt pavement can generate cracks in the long-term use process, rainwater can enter the base layer through the cracks, so that the base layer roadbed is affected by water, the roadbed is soft and collapses, the bearing capacity of the asphalt pavement is finally reduced, the pavement is damaged locally or in a large area, and the service life of the pavement is shortened. Therefore, repair of cracks on asphalt pavement is required.

Most of the existing pavement repairing is to directly fill the asphalt concrete filled with the gaps along the gaps and repair the gaps by combining compaction equipment, but the amount of the asphalt concrete filled with the gaps is mainly estimated by constructors, and the repeated spreading and compaction operation is caused because the width and depth of the gaps cannot be known, so that the filling efficiency and filling quality are difficult to guarantee.

Disclosure of Invention

The invention aims to provide a pavement crack detection and repair device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a pavement crack detects prosthetic devices, includes the frame, install the walking wheel on the frame, the one end of frame is provided with vertical frame, install the churn on the frame, fixed mounting between churn and the vertical frame is passed through to the churn, the churn is connected with the feed cylinder, the bottom of churn is connected with the conveyer pipe, be provided with extrusion screw in the conveyer pipe, extrusion screw is connected with the extrusion motor, the end connection of conveyer pipe has flexible pipe, flexible pipe connection has the stand pipe, the directional crack of stand pipe, install elevating system on the vertical frame, elevating system is connected with crane one, crane one's bottom is connected with the curved seam adaptation subassembly, curved seam adaptation subassembly is connected with crack detection mechanism, the bottom of frame is provided with repairing mechanism.

The crack detection mechanism comprises a depth measurement assembly and a width measurement assembly, the depth measurement assembly comprises a hollow pipe connected with a bending seam adaptation assembly, a detection rope is arranged in the hollow pipe, the tail end of the detection rope is connected with a detection cone, a tension sensor is connected between the detection cone and the detection rope, the width measurement assembly comprises a rotating disk arranged at the end part of the hollow pipe, the rotating disk is rotatably mounted between the rotating disk and the hollow pipe, two groups of rotating disks are provided with fixed gear rings, one side, far away from the fixed gear rings, of the rotating disk is rotatably mounted with a rotating frame, a driving motor is fixedly mounted on the rotating frame, the driving motor is connected with a driving gear, the driving gear is meshed with the fixed gear rings, a telescopic bracket is mounted in the rotating frame in a sliding mode, the telescopic bracket is connected with a sliding rod, a second supporting spring is sleeved on the outer side of the sliding rod, a roller is rotatably mounted at the tail end of the sliding rod, the edge of the roller and the rotating disk are in contact with two sides of a crack, and the detection cone is used for crack bottoming detection.

As a further scheme of the invention: the hollow tube is two-section type setting, and one section hollow tube is connected with crooked seam adaptation subassembly, and the one end that crooked seam adaptation subassembly was kept away from to this section hollow tube is connected with the directional detection subassembly of contact, the directional detection subassembly of contact is including setting up the fixed circular slot at this section hollow tube tip, be provided with the collar in the fixed circular slot, another section hollow tube is kept away from the one end circumference that detects the awl and evenly is provided with the spherical hinge frame, the cooperation ball is installed to the spherical hinge frame rotation, be connected with the spliced pole on the cooperation ball, peg graft between spliced pole and the collar, peg graft the third of support spring has been connected to the spliced pole cover between hollow tube and the collar, the inboard of collar is provided with the resistance strip.

As still further aspects of the invention: the bending seam adaptation assembly comprises a first horizontal frame arranged at one tail end of a lifting frame, a sliding column is arranged in the first horizontal frame, two groups of sliding columns are arranged, horizontal sliding blocks are arranged on the sliding columns in a sliding mode, first supporting springs are sleeved on the sliding columns on two sides of the horizontal sliding blocks, the tail end of the first lifting frame is U-shaped, a winding drum is rotatably arranged at the tail end of the first lifting frame, a detection rope is wound around the winding drum, a winding drum motor is connected with the winding drum, and the winding drum motor is fixedly arranged between the winding drum motor and the first lifting frame.

As still further aspects of the invention: the hollow tube is fixedly connected with the bottom center of the horizontal sliding block, transverse holes are formed in the side edges of the horizontal sliding block, and the detection ropes penetrate through the transverse holes and enter the hollow tube.

As still further aspects of the invention: the lifting mechanism comprises racks arranged on the side edges of the vertical frames, matching sliding rails are arranged on two sides of the racks, a clamping frame is arranged on the lifting frame I, the clamping frame and the matching sliding rails are in sliding clamping connection, matching gears are rotatably arranged in the clamping frame, the matching gears are meshed with the racks, and the matching gears are connected with a lifting motor.

As still further aspects of the invention: the repairing mechanism comprises a compaction hydraulic rod arranged at the bottom of the frame, the compaction hydraulic rod is connected with a mounting frame, a press roller is rotatably mounted on the mounting frame, the press roller is arranged at one end of the advancing direction of the frame, and a recovery component is arranged at one end far away from the advancing direction of the press roller.

As still further aspects of the invention: the recovery assembly comprises a mounting plate arranged at the bottom of the frame, a mounting rod is arranged at the bottom of the mounting plate, connecting belts are arranged at the two ends of the mounting rod, a bracket is arranged at the end of each connecting belt, a plug-in bracket is arranged on each bracket, a guide bracket is rotatably arranged at one end of each plug-in bracket, a return spring is connected between the other end of each guide bracket and each plug-in bracket, a second horizontal bracket is arranged between the brackets, a cleaning shovel is arranged on the second horizontal bracket, a receiving bucket is arranged at the rear side of the cleaning shovel, and a telescopic rod is arranged at the top of each receiving bucket and fixedly arranged at the bottom of the frame.

Compared with the prior art, the invention has the beneficial effects that:

(1) The depth of the crack is measured through the detection rope and the detection cone, when the detection cone touches the ground, the value of the tension sensor is reduced, and the release distance of the detection rope is controlled according to the change of the value of the sensor, so that the depth of the crack is obtained; the width of the crack is obtained by the moving distance of the slide bar and the roller wheel in the rotating frame.

(2) The direction of the acting force between the upper hollow tube and the lower hollow tube is changed, so that the contact position of the plugging rod and the resistor strip is changed, different electric signals are collected, the driving motor on the bottom rotating frame is controlled according to the different electric signals, the rotating frame is controlled to rotate relative to the hollow tube, and the accuracy of crack width measurement is guaranteed.

(3) Because the idle pipe takes place the position change for the horizontal stand a while when the crack appears crookedly, in order to provide the level adjustment allowance of splitting detection mechanism, set up horizontal stand one and horizontal sliding block, install crack detection mechanism, guarantee that the frame is accurate under the circumstances of not changing the direction of movement and measure crack width and degree of depth.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of a bending seam adaptation assembly according to the present invention.

Fig. 3 is a schematic view illustrating installation of a test rope according to the present invention.

Fig. 4 is a schematic structural diagram of a crack detecting mechanism according to the present invention.

Fig. 5 is a schematic structural view of a contact orientation detecting assembly according to the present invention.

Fig. 6 is a schematic structural view of a lifting mechanism in the present invention.

FIG. 7 is a schematic diagram of a repairing mechanism according to the present invention.

FIG. 8 is a schematic view of the recycling assembly according to the present invention.

FIG. 9 is a schematic diagram illustrating the orientation adjustment of the crack detection mechanism according to the present invention.

In the figure: 1. a frame; 10. a walking wheel; 2. a vertical frame; 20. a stirring cylinder; 22. a fixing ring; 23. a delivery tube; 24. an extrusion motor; 25. a raw material cylinder; 26.a telescopic tube; 27. a guide tube; 3. a lifting frame I; 4. a lifting mechanism; 40. a clamping frame; 41. a mating gear; 42. a lifting motor; 43. matching with a sliding rail; 44. a rack; 5. a curved slot adaptation assembly; 50. winding a reel; 51. a winding motor; 52. a horizontal frame I; 53. a spool; 54. a first supporting spring; 55. a horizontal sliding block; 6.a crack detection mechanism; 60. a detection rope; 61. a hollow tube; 62. a detection cone; 63. a contact orientation detection assembly; 630. fixing the round groove; 631. a mounting ring; 632. inserting a connecting rod; 633. a third supporting spring; 634. a spherical hinge frame; 635. matching with balls; 636. a resistor strip; 64. a rotating disc; 65. a rotating frame; 66. fixing the gear ring; 67. a drive gear; 68. a driving motor; 69. a telescopic frame; 610. a slide bar; 611. a roller; 612. a second supporting spring; 7. a repair mechanism; 70. compacting the hydraulic rod; 71. a mounting frame; 72. a press roller; 73. a recovery assembly; 730. a mounting plate; 731. a mounting rod; 732. a connecting belt; 733. a bracket; 734. a plug-in frame; 735. a guide frame; 736. a return spring; 737. a horizontal frame II; 738. cleaning the shovel; 739. a receiving hopper; 7310. a telescopic rod.

Detailed Description

The technical scheme of the invention is further described in detail below with reference to the specific embodiments.

As shown in fig. 1, a pavement crack detection and repair device comprises a frame 1, a walking wheel 10 is installed on the frame 1, one end of the frame 1 is provided with a vertical frame 2, a stirring cylinder 20 is installed on the frame 1, the stirring cylinder 20 is fixedly installed between the fixing ring 22 and the vertical frame 2, the stirring cylinder 20 is connected with a raw material cylinder 25, the bottom of the stirring cylinder 20 is connected with a conveying pipe 23, an extrusion screw is arranged in the conveying pipe 23, the extrusion screw is connected with an extrusion motor 24, the end part of the conveying pipe 23 is connected with a telescopic pipe 26, the telescopic pipe 26 is connected with a guide pipe 27, the guide pipe 27 points to a crack, a lifting mechanism 4 is installed on the vertical frame 2, the lifting mechanism 4 is connected with a lifting frame one 3, the bottom end of the lifting frame one 3 is connected with a bending crack adaptation component 5, the bending crack adaptation component 5 is connected with a crack detection mechanism 6, and the bottom of the frame 1 is provided with a repair mechanism 7.

Specifically, asphalt concrete is obtained by stirring raw materials asphalt and gravels for filling cracks through a stirring cylinder 20 and a raw material cylinder 25, and the asphalt concrete is fed into the cracks by combining an extrusion motor 24, an extrusion screw and a conveying pipe 23, a telescopic pipe 26 and a guide pipe 27, and is compacted and repaired by a repairing mechanism 7.

As shown in fig. 4, the crack detection mechanism 6 includes a depth measurement assembly and a width measurement assembly, the depth measurement assembly includes a hollow tube 61 connected with the bending seam adaptation assembly 5, a detection rope 60 is disposed in the hollow tube 61, a detection cone 62 is connected to the end of the detection rope 60, a tension sensor is connected between the detection cone 62 and the detection rope 60, the width measurement assembly includes a rotating disc 64 disposed at the end of the hollow tube 61, the rotating disc 64 is rotatably mounted with the hollow tube 61, the rotating disc 64 is provided with two groups, a fixed gear ring 66 is disposed between the two groups of rotating discs 64, a rotating frame 65 is rotatably mounted on one side of the rotating disc 64 far from the fixed gear ring 66, a driving motor 68 is fixedly mounted on the rotating frame 65, the driving motor 68 is connected with a driving gear 67, the driving gear 67 is meshed with the fixed gear ring 66, a telescopic frame 69 is slidably mounted on the rotating frame 65, the telescopic frame 69 is connected with a sliding rod 610, a second supporting spring 612 is sleeved on the outer side of the telescopic frame 610, a sliding rod 611 is rotatably mounted on the end of the sliding rod 610, and the sliding rod 611 is rotatably mounted on the sliding rod 611, and the sliding rod 64 is far from the side of the sliding rod 64, and the sliding rod 64 is used for contacting the two sides of the crack detection cone 64.

Specifically, the section of the crack generally presents an isosceles triangle structure, the speed of sending asphalt concrete into the crack can be calculated through a fixed integral principle, the width and depth of the crack in the advancing process can be calculated through a width measuring component and a depth measuring component respectively, the section area of the point location can be obtained through a triangle area calculation formula, the length of the pavement crack is regarded as an integral area of the fixed integral, a coordinate system is constructed, the length of the crack is regarded as an X axis, the section area of the crack at the position corresponding to the crack is regarded as a Y axis value of the position, the frame 1 marks the detected section area of the crack in the coordinate system in the moving process, the marked point locations are connected to obtain a plurality of sections of broken lines, and the integral area of each section of broken line relative to the X axis is the filling amount of the asphalt concrete required by the point location crack, so that the conveying speed and the conveying amount of the conveying pipe 23 are controlled.

More specifically, the depth of the crack is measured by the detecting rope 60 and the detecting cone 62, when the detecting cone 62 touches the ground, the value of the tension sensor is reduced, and the releasing distance of the detecting rope 60 is controlled according to the change of the value of the sensor, so as to obtain the depth of the crack; the width of the slit is obtained by the distance the slide bar 610 and the roller 611 move within the rotating frame 65.

Further, as shown in fig. 5 and fig. 9, the hollow tube 61 is provided with two sections, wherein one section of hollow tube 61 is connected with the bending seam adaptation component 5, one end of the section of hollow tube 61 away from the bending seam adaptation component 5 is connected with the contact direction detection component 63, the contact direction detection component 63 comprises a fixed circular groove 630 arranged at the end of the section of hollow tube 61, a mounting ring 631 is arranged in the fixed circular groove 630, one end of the other section of hollow tube 61 away from the detection cone 62 is circumferentially and uniformly provided with a spherical hinge frame 634, a matching ball 635 is rotatably mounted in the spherical hinge frame 634, a plugging rod 632 is connected on the matching ball 635, the plugging rod 632 is plugged with the mounting ring 631, a supporting spring three 633 is sleeved on the plugging rod 632 between the hollow tube 61 and the mounting ring 631, and a resistor strip 636 is arranged on the inner side of the mounting ring 631.

Specifically, during the movement of the frame 1, if the crack is curved as shown in fig. 9, the angle of the rotating frame 65 relative to the hollow tube 61 needs to be adjusted in time, otherwise, the phenomenon of the left side of fig. 9 occurs, resulting in that the measured crack width is larger than the actual width, because the rotating disc 64 contacts one side of the crack, when the crack turns, the contact position between the rotating disc 64 and the crack changes, and at the moment, the contact position between the upper hollow tube 61 and the lower hollow tube 61 due to the change of the direction of the force changes, so that the electric signal intensity is changed, the driving motor 68 on the bottom rotating frame 65 is controlled according to different electric signal intensities, so that the rotating frame 65 is controlled to rotate relative to the hollow tube 61, the width measuring assembly is adjusted from the left side state of fig. 9 to the right side state, and the accuracy of measuring the crack width is ensured.

Further, as shown in fig. 2 and 3, the bending seam adapting assembly 5 includes a horizontal frame one 52 disposed at the end of a lifting frame one 3, two groups of sliding columns 53 are disposed in the horizontal frame one 52, two groups of sliding columns 53 are provided with horizontal sliding blocks 55, supporting springs one 54 are sleeved on the sliding columns 53 on two sides of the horizontal sliding blocks 55, the end of the lifting frame one 3 is in a U-shaped configuration, a winding drum 50 is rotatably mounted at the end of the lifting frame one 3, a detection rope 60 is wound on the winding drum 50, a winding drum 50 is connected with a winding motor 51, and a fixing device is arranged between the winding motor 51 and the lifting frame one 3.

Specifically, since the position of the free pipe changes relative to the first horizontal frame 52 when the crack is bent, in order to provide the horizontal adjustment allowance of the crack detecting mechanism, the first horizontal frame 52 and the horizontal sliding block 55 are arranged to mount the crack detecting mechanism 6, so that the frame 1 can accurately measure the width and depth of the crack without changing the moving direction.

Further, as shown in fig. 3, the hollow tube 61 is fixedly connected with the bottom center of the horizontal sliding block 55, lateral holes are provided on the sides of the horizontal sliding block 55, and the detecting rope 60 passes through the lateral holes to enter the hollow tube 61.

Further, as shown in fig. 6, the lifting mechanism 4 includes a rack 44 disposed at a side edge of the vertical frame 2, mating sliding rails 43 are disposed at two sides of the rack 44, a clamping frame 40 is disposed on the lifting frame one 3, the clamping frame 40 and the mating sliding rails 43 are slidably clamped, a mating gear 41 is rotatably mounted on the clamping frame 40, the mating gear 41 and the rack 44 are meshed with each other, and the mating gear 41 is connected with a lifting motor 42.

Further, as shown in fig. 7, the repairing mechanism 7 includes a compacting hydraulic rod 70 disposed at the bottom of the frame 1, the compacting hydraulic rod 70 is connected with a mounting frame 71, a press roller 72 is rotatably mounted on the mounting frame 71, the press roller 72 is disposed at one end of the frame 1 in the advancing direction, and a recovery assembly 73 is disposed at one end far from the advancing direction of the press roller 72.

Further, as shown in fig. 8, the recovery assembly 73 includes a mounting plate 730 disposed at the bottom of the frame 1, a mounting rod 731 is disposed at the bottom of the mounting plate 730, connection belts 732 are disposed at two ends of the mounting rod 731, a bracket 733 is disposed at an end of the connection belts 732, a plugging frame 734 is disposed on the bracket 733, a guide frame 735 is rotatably mounted at one end of the plugging frame 734, a return spring 736 is connected between the other end of the guide frame 735 and the plugging frame 734, a second horizontal frame 737 is disposed between the brackets 733, a cleaning shovel 738 is disposed on the second horizontal frame 737, a receiving bucket 739 is disposed at a rear side of the cleaning shovel 738, a telescopic rod 7310 is disposed at a top of the receiving bucket 739, and the telescopic rod 7310 is fixedly mounted with the bottom of the frame 1.

Specifically, the conveying amount of the asphalt concrete needs to be slightly larger than the required amount of the crack point, so that the compression roller 72 is convenient to compress the asphalt concrete, the redundant asphalt concrete is recovered through the cleaning shovel 738 and the receiving hopper 739, and the flatness of the repaired part is ensured.

The working principle of the embodiment of the invention is as follows:

As shown in fig. 1-9, asphalt concrete is obtained by stirring raw materials asphalt and crushed stone for filling cracks through a stirring cylinder 20 and a raw material cylinder 25, and is sent into the cracks through a telescopic pipe 26 and a guide pipe 27 by combining an extrusion motor 24, an extrusion screw and a conveying pipe 23, and is compacted and repaired by a repairing mechanism 7. The section of the crack generally presents an isosceles triangle structure, the speed of sending asphalt concrete into the crack can be calculated through a fixed integral principle, the width and depth of the crack in the advancing process can be calculated through a width measuring component and a depth measuring component respectively, the section area of the point can be obtained through a triangle area calculation formula, the length of the pavement crack is regarded as an integral interval of the fixed integral, a coordinate system is constructed, the length of the crack is regarded as an X axis, the section area of the crack at the position corresponding to the crack is regarded as a Y axis numerical value of the position, the frame 1 marks the detected section area of the crack in the coordinate system in the moving process, the marked points are connected to obtain a plurality of sections of broken lines, and the integral area of each section of broken line relative to the X axis is the filling quantity of the asphalt concrete required by the point crack, so that the conveying speed and the conveying quantity of the conveying pipe 23 are controlled. The depth of the crack is measured through the detection rope 60 and the detection cone 62, when the detection cone 62 touches the ground, the value of the tension sensor is reduced, and the release distance of the detection rope 60 is controlled according to the change of the value of the sensor, so that the depth of the crack is obtained; the width of the slit is obtained by the distance the slide bar 610 and the roller 611 move within the rotating frame 65. In the moving process of the frame 1, if the crack is curved as shown in fig. 9, the angle of the rotating frame 65 relative to the hollow tube 61 needs to be adjusted in time, otherwise, the phenomenon of the left side of fig. 9 occurs, the calculated crack width is larger than the actual width, because the rotating disk 64 contacts one side of the crack, when the crack turns, the contact position between the rotating disk 64 and the crack changes, at the moment, the contact position between the upper hollow tube 61 and the lower hollow tube 61 due to the change of the direction of the acting force changes, so that the electric signal intensity is changed, the driving motor 68 on the bottom rotating frame 65 is controlled according to different electric signal intensities, so that the rotating frame 65 is controlled to rotate relative to the hollow tube 61, the width measuring assembly is adjusted from the left side state of fig. 9 to the right side state, and the accuracy of crack width calculation is ensured. Because the idle pipe can change in position relative to the first horizontal frame 52 when the crack is bent, in order to provide the horizontal adjustment allowance of the crack detection mechanism, the first horizontal frame 52 and the horizontal sliding block 55 are arranged, the crack detection mechanism 6 is installed, and the frame 1 is ensured to accurately measure the width and the depth of the crack under the condition of not changing the moving direction. The conveying quantity of the asphalt concrete needs to be slightly larger than the required quantity of the crack point positions, so that the compression roller 72 is convenient to compress the asphalt concrete, the redundant asphalt concrete is recovered through the cleaning shovel 738 and the receiving hopper 739, and the flatness of the repaired part is ensured.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The utility model provides a pavement crack detects prosthetic devices, includes frame (1), install walking wheel (10) on frame (1), the one end of frame (1) is provided with vertical frame (2), install churn (20) on frame (1), fixed mounting between churn (20) and vertical frame (2) through retainer plate (22), churn (20) are connected with feed cylinder (25), the bottom of churn (20) is connected with conveyer pipe (23), be provided with extrusion screw in conveyer pipe (23), extrusion screw is connected with extrusion motor (24), a serial communication port, the end connection of conveyer pipe (23) has flexible pipe (26), flexible pipe (26) are connected with stand pipe (27), stand pipe (27) point to the crack, install elevating system (4) on vertical frame (2), elevating system (4) are connected with crane one (3), the bottom of crane one (3) is connected with bending joint adaptation subassembly (5), bending joint adaptation subassembly (5) are connected with crack detection mechanism (6), frame (7) are provided with bottom repair mechanism (7).

The crack detection mechanism (6) comprises a depth measurement assembly and a width measurement assembly, the depth measurement assembly comprises a hollow tube (61) connected with a bending crack adaptation assembly (5), a detection rope (60) is arranged in the hollow tube (61), the tail end of the detection rope (60) is connected with a detection cone (62), a tension sensor is connected between the detection cone (62) and the detection rope (60), the width measurement assembly comprises a rotary disc (64) arranged at the end part of the hollow tube (61), the rotary disc (64) is rotatably arranged between the rotary disc (64) and the hollow tube (61), two groups of rotary discs (64) are provided with two groups of rotary discs, a fixed gear ring (66) is arranged between the rotary disc (64) and one side far away from the fixed gear ring (66), a rotary frame (65) is rotatably arranged, a driving motor (68) is fixedly arranged on the rotary frame (65), the driving motor (68) is connected with a driving gear (67), the driving gear (67) is mutually meshed with the fixed gear ring (66), the rotary frame (65) is rotatably arranged between the rotary frame (69) and the rotary frame (69), the rotary frame (69) is rotatably connected with a telescopic support rod (610) in a telescopic manner, the telescopic support rod (610) is sleeved on the tail end of the rotary rod, the edges of the roller (611) and the rotary disc (64) are in contact with two sides of the crack, and the detection cone (62) is used for crack bottoming detection;

The hollow tube (61) is arranged in two sections, one section of the hollow tube (61) is connected with the bending joint adaptation component (5), one end of the section of the hollow tube (61) away from the bending joint adaptation component (5) is connected with the contact direction detection component (63), the contact direction detection component (63) comprises a fixed circular groove (630) arranged at the end part of the section of the hollow tube (61), a mounting ring (631) is arranged in the fixed circular groove (630), one end of the other section of the hollow tube (61) away from the detection cone (62) is circumferentially and uniformly provided with a spherical hinge frame (634), the spherical hinge frame (634) is rotationally provided with a matched ball (635), the matched ball (635) is connected with a plugging rod (632), the plugging rod (632) is plugged with the mounting ring (631), a supporting spring III (631) is sleeved on the plugging rod (632) between the hollow tube (61) and the mounting ring (631), and a resistor strip (636) is arranged on the inner side of the mounting ring (631);

The bending seam adaptation component (5) comprises a horizontal frame I (52) arranged at the tail end of a lifting frame I (3), sliding columns (53) are arranged in the horizontal frame I (52), two groups of sliding columns (53) are provided with horizontal sliding blocks (55) which are arranged on the sliding columns (53) in a sliding mode, supporting springs I (54) are sleeved on the sliding columns (53) on two sides of the horizontal sliding blocks (55), the tail end of the lifting frame I (3) is arranged in a U-shaped mode, a winding drum (50) is rotatably arranged at the tail end of the lifting frame I (3), a detection rope (60) is wound around the winding drum (50), a winding drum motor (51) is connected, and the winding drum motor (51) and the lifting frame I (3) are fixedly arranged.

2. The pavement crack detection and repair device according to claim 1, wherein the hollow tube (61) is fixedly connected with the bottom center of the horizontal sliding block (55), lateral holes are formed in the sides of the horizontal sliding block (55), and the detection ropes (60) penetrate through the lateral holes and enter the hollow tube (61).

3. The pavement crack detection and repair device according to claim 1, wherein the lifting mechanism (4) comprises racks (44) arranged on the side edges of the vertical frame (2), two sides of each rack (44) are provided with matched sliding rails (43), a clamping frame (40) is arranged on the lifting frame I (3), the clamping frame (40) and the matched sliding rails (43) are in sliding clamping connection, a matched gear (41) is rotatably arranged in the clamping frame (40), the matched gear (41) and the racks (44) are meshed with each other, and the matched gear (41) is connected with a lifting motor (42).

4. The pavement crack detection and repair device according to claim 1, wherein the repair mechanism (7) comprises a compaction hydraulic rod (70) arranged at the bottom of the frame (1), the compaction hydraulic rod (70) is connected with a mounting frame (71), a press roller (72) is rotatably mounted on the mounting frame (71), the press roller (72) is arranged at one end of the frame (1) in the advancing direction, and a recovery assembly (73) is arranged at one end far away from the press roller (72) in the advancing direction.

5. The pavement crack detection and repair device according to claim 4, wherein the recovery assembly (73) comprises a mounting plate (730) arranged at the bottom of the frame (1), a mounting rod (731) is arranged at the bottom of the mounting plate (730), connecting belts (732) are arranged at two ends of the mounting rod (731), a bracket (733) is arranged at the end of each connecting belt (732), a plug-in bracket (734) is arranged on each bracket (733), a guide frame (735) is rotatably arranged at one end of each plug-in bracket (734), a return spring (736) is connected between the other end of each guide frame (735) and each plug-in bracket (734), a second horizontal bracket (737) is arranged between each bracket (737), a cleaning shovel (738) is arranged on the second horizontal bracket (737), a receiving bucket (739) is arranged at the rear side of each cleaning shovel, a telescopic rod (7310) is arranged at the top of each receiving bucket (739), and the telescopic rod (7310) is fixedly arranged at the bottom of the frame (1).