CN117513997B - Highway construction concrete detection equipment and detection method - Google Patents

Abstract

The invention relates to the technical field of concrete detection, and provides a highway construction concrete detection device and a detection method, wherein the highway construction concrete detection device comprises: frame, crane, drill bit, vibrating tube, conveyer pipe, vibrating plate, drilling mechanism, repair mechanism and vibration mechanism, a plurality of slide holes first have been seted up in the frame, the crane slides and sets up in a plurality of slide holes first, the drill bit sets up in the crane, slide hole second has been seted up in the frame, vibrating tube slides and sets up in smooth Kong Erna, the conveyer pipe sets up in the frame, the conveyer pipe binds with vibrating tube, the vibrating plate sets up in the frame, drilling mechanism sets up on the crane for drive the drill bit carries out drilling sample to concrete highway, repair mechanism sets up in the frame, vibration mechanism sets up in the frame, through above-mentioned technical scheme, the problem of easily influencing highway life to the damage of hole further when drilling and repairing in the correlation technique has been solved.

Description

Highway construction concrete detection equipment and detection method

Technical Field

The invention relates to the technical field of concrete detection, in particular to highway construction concrete detection equipment and a detection method.

Background

In the road construction process, cement concrete is the most important foundation material in road construction, and the strength of the cement concrete has a great influence on engineering quality, wherein the compressive strength of the concrete is an important index for evaluating the road quality, so that the strength detection of the cement concrete is an important work in road construction.

The strength of the concrete is one of important indexes of mechanical property standards, the higher the strength of the concrete is, the stronger the rigidity of the concrete is, and the erosion resistance capability is also higher, but if the strength of the cement concrete is too high, the cement concrete is fragile and easy to crack, the quality of road engineering is also affected, in road construction of highway engineering, the strength parameter of the cement concrete can effectively reflect the condition of state change of construction materials, the construction process and the construction standard adopted in the construction process, and the road flatness after construction are all matters needing attention in road quality detection and evaluation.

The method is a method for detecting the strength of cement concrete in common use in the road construction process, and is a detection method for detecting the strength and defects of concrete by drilling core samples on a formed concrete structure by utilizing a special drilling machine and an artificial diamond hollow thin-wall drill bit, and is mainly used for detecting the strength of the concrete, the quality conditions of concrete joints and layering positions, the defects of depth, segregation, holes and the like of concrete cracks, and is an effective method which cannot be replaced by other nondestructive detection methods, but the cost of the drilling core method in detecting the concrete road is high, the drilling core method is time-consuming, the concrete is damaged locally, the existing solution is to detect the concrete of the road by matching with the drilling core sampling method by other nondestructive detection methods, but after the drilling core is sampled, more holes are left on the concrete road, if the holes are not repaired in time, vehicles in the future frequently roll the holes on the road, and the holes are damaged around the holes in the drilling sampling process, the holes are easily damaged in time, the concrete is easily and the holes are easily damaged in the drilling process, even if the holes are easily compacted, the holes are easily damaged in real time, and the concrete is easily damaged when the holes are repaired in real time, and the holes are easily repaired, and the concrete is easily damaged when the holes are compacted and the holes are repaired in real time.

Therefore, in order to solve the problems in the prior art, a highway construction concrete detection device and a highway construction concrete detection method for reducing local damage of a concrete highway during sampling and repairing are designed.

Disclosure of Invention

The invention provides a highway construction concrete detection device and a detection method, which solve the problems that the damage to holes is easy to be further enlarged and the service life of a highway is easy to be influenced during drilling and repairing in the related technology.

The technical scheme of the invention is as follows: highway construction concrete check out test set includes: the device comprises a frame, a lifting frame, a drill bit, a vibrating tube, a conveying tube, a vibrating plate, a drilling mechanism, a repairing mechanism and a vibrating mechanism;

the lifting frame is arranged in the plurality of slide holes in a sliding manner;

the drill bit is arranged in the lifting frame;

the rack is provided with a sliding hole II, and the vibrating tube is arranged on the slide Kong Erna in a sliding way;

the conveying pipe is arranged in the frame and is bound with the vibrating pipe;

the vibration plate is arranged in the frame;

the drilling mechanism is arranged on the lifting frame and used for driving the drill bit to drill and sample the concrete highway;

the repairing mechanism is arranged on the frame and used for repairing the hole after drilling;

the vibration mechanism is arranged on the frame and used for tamping the repaired holes.

Preferably, the drilling mechanism comprises: the device comprises a sliding plate, a rotating gear, a driving gear, a first motor, a limiting ring, a pressure ring, a first toothed belt, a first gear, a second motor and a lifting assembly;

the sliding plate is arranged on the lifting mechanism in a sliding way, and the drill bit is rotationally connected to the sliding plate;

the rotary gear is fixedly connected to the drill bit;

the driving gear is rotationally connected to the sliding plate and meshed with the rotating gear;

the first motor is arranged on the sliding plate through the motor frame, and the output end of the first motor penetrates through the motor frame and is fixedly connected with the driving gear;

the drill bit is slidingly and rotationally connected in the limiting ring;

the pressure ring is fixedly connected to the lifting frame;

two first toothed belts are arranged and are fixedly connected to the lifting frame;

the two first gears are arranged on the sliding plate and are respectively meshed with the two first toothed belts;

the two second motors are arranged, and the output ends of the two second motors are fixedly connected with the two first gears respectively;

the lifting assembly is arranged on the frame and used for driving the lifting frame to lift.

Further, the repair mechanism includes: the device comprises a rotating rod, a vibrating wheel, a third motor, a driving wheel, a rotating gear, a transmission gear, a fourth motor and a blanking assembly;

the rotating rod is rotatably connected in the vibrating tube;

the vibration wheels are provided with a plurality of vibration wheels, and the vibration wheels are fixedly connected to the rotating rod;

the output end of the third motor penetrates through the vibrating tube and is fixedly connected with the rotating rod;

the two driving wheels are rotatably connected in the frame and are contacted with the vibrating tube;

the two rotating gears are respectively and fixedly connected to the two driving wheels;

the two transmission gears are respectively meshed with the two rotating gears;

the output end of the fourth motor penetrates through the frame and is fixedly connected with one of the driving wheels;

the blanking assembly is arranged on the frame and used for filling the holes.

Still further, the vibration mechanism includes: the device comprises a sliding rod, a top plate, a spring, a moving frame, a driving rod, a tamping wheel, a fifth motor and a driving assembly;

the sliding rod is arranged in the frame in a sliding way, and the vibrating plate is fixedly connected to the sliding rod;

the top plate is fixedly connected to the sliding rod;

the spring is sleeved on the slide bar and fixedly connected between the top plate and the frame;

the movable frame is arranged on the frame in a sliding manner;

the driving rod is rotatably connected to the movable frame;

the tamping wheel is fixedly connected to the driving rod and is contacted with the top plate;

the output end of the fifth motor penetrates through the movable frame and is fixedly connected with the driving rod;

the driving assembly is arranged on the movable frame and used for driving the movable frame to lift and move.

In the foregoing aspect, preferably, the lifting assembly includes: a second toothed belt, a second gear, and a sixth motor;

two second toothed belts are arranged and are fixedly connected to the lifting frame;

the two second gears are arranged on the rack and are respectively meshed with the two second toothed belts;

the six motors are arranged in two, the two sixth motors are arranged on the frame, and the output ends of the two sixth motors are fixedly connected with the two second gears respectively.

In the foregoing solution, the blanking assembly includes: the device comprises a discharging box, a conveying pump, a stirring paddle and a seventh motor;

the discharging box is fixedly connected to the frame;

the material conveying pump is arranged on the material discharging box, the input end of the material conveying pump is communicated with the material discharging box, and the output end of the material conveying pump is communicated with the conveying pipe;

the two stirring paddles are rotatably connected in the discharge box;

the seventh motors are arranged in two, the two seventh motors are arranged on the discharging box, and the output ends of the two seventh motors penetrate through the discharging box and are fixedly connected with the two stirring paddles respectively.

In a further aspect of the foregoing, the driving assembly includes: the device comprises a third toothed belt, a fixing frame, a supporting rod, a third gear and an eighth motor;

two third toothed belts are arranged, and the two third toothed belts are fixedly connected to the movable frame;

the fixing frame is fixedly connected to the frame;

the supporting rod is rotatably connected in the fixing frame;

the two third gears are fixedly connected to the support rod and meshed with the two third toothed belts respectively;

the eighth motor is arranged on the fixing frame, and the output end of the eighth motor penetrates through the fixing frame and is fixedly connected with the supporting rod.

In the foregoing aspect, a spraying mechanism is disposed on the rack, and the spraying mechanism includes: the device comprises a water tank, a water pump, a pipe rack and a spray header;

the water tank is fixedly connected to the frame;

the water pump is arranged on the water tank, and the input end of the water pump is communicated with the water tank;

the pipe frame is fixedly connected to the frame, and the pipe frame is communicated with the output end of the water pump;

the shower head is equipped with a plurality of, and a plurality of the shower head all communicates with the pipe support.

In the foregoing aspect, a moving mechanism is disposed on the rack, and the moving mechanism includes: a moving rod, a moving wheel and a pushing frame;

the two moving rods are respectively connected to the frame in a rotating way;

the plurality of moving wheels are respectively fixedly connected to the two moving rods;

the pushing frame is fixedly connected to the frame.

The highway construction concrete detection method uses the highway construction concrete detection equipment, and comprises the following steps:

s1, drilling and sampling: when the concrete highway needs to be drilled and sampled, a sixth motor arranged on the frame drives a second gear to rotate, the second gear drives a lifting frame to descend when rotating on a second toothed belt, the lifting frame drives a pressure ring to prop against the highway at the position where drilling is needed when descending, then a first motor arranged on the motor frame drives a driving gear and a rotating gear to rotate, a drill bit is driven to rotate in a limiting ring when rotating, and simultaneously, the drill bit rotates, a second motor arranged on a sliding plate drives the first gear to rotate on the first toothed belt, the first gear drives the sliding plate to descend on the lifting frame when rotating on the first toothed belt, so that the drill bit is driven to contact the highway and carry out drilling operation, and the drill bit can be lifted up after drilling to take out a concrete sample;

s2, spraying and cooling: when drilling holes on a highway, water in the water tank is pumped out through a water pump arranged on the water tank and conveyed into the spray header through the pipe frame, and the water is sprayed to the drill bit and the holes through the spray header;

s3, hole repairing: when the hole is required to be repaired after sampling is finished, pouring repairing materials into and out of the material box in proportion, driving the stirring paddle to rotate through a seventh motor arranged on the material box, uniformly stirring the repairing materials, pumping the repairing materials into the conveying pipe through the conveying pump after stirring is finished, and conveying the repairing materials into the hole through the conveying pipe for repairing;

s4, exhaust operation: one of the driving wheels is driven to rotate by a fourth motor arranged on the frame, the rotating gear is driven to synchronously rotate when one of the driving wheels rotates, and when one of the rotating gears rotates, the two rotating gears are driven to synchronously rotate relatively by the transmission of the two transmission gears, so that the vibrating tube is driven to stretch into the hole, the conveying tube during conveying is driven into the hole together when the vibrating tube stretches into the hole, the rotating rod is driven to rotate by a third motor arranged on the vibrating tube, the vibrating wheel is driven to rotate when the rotating rod rotates, and vibration generated when the vibrating wheel rotates is transmitted to the vibrating tube, so that the repairing material is conveyed into the hole and exhausted by vibration;

s5, tamping operation: after the hole is filled with the repairing material, the eighth motor arranged on the fixing frame drives the supporting rod to rotate, and the supporting rod drives the two third gears to rotate on the two third toothed belts when rotating, so that the movable frame is driven to move downwards on the lifting frame, the fifth motor arranged on the movable frame drives the driving rod and the tamping wheel to rotate, the top plate is hammered when the tamping wheel rotates, the top plate is rebounded through the spring sleeved on the sliding rod, and the vibrating plate fixedly connected on the sliding rod can be driven to tamp and smooth the repairing material by circulating.

The working principle and the beneficial effects of the invention are as follows:

1. according to the invention, through the arrangement of the drilling mechanism and the pressure ring, the periphery of a position to be drilled can be pressed by the pressure ring during highway drilling, so that the damage phenomenon around the hole during drilling is reduced, and the efficiency and effect of drilling and sampling are improved.

2. According to the invention, through the arrangement of the repairing mechanism, the repairing material can be rapidly filled in the hole after the drilling and sampling are finished, and the repairing material is simultaneously exhausted when the repairing material is filled, so that the hole can be rapidly recovered to be original shape, and the damage to the hole caused by vehicles in the past is reduced.

3. According to the invention, the filled repairing material can be rapidly tamped through the arrangement of the vibration mechanism, so that the drilled hole can be rapidly restored to the original use strength, and the service life of the concrete highway is prolonged.

4. According to the invention, through the cooperation among the frame, the lifting frame, the drill bit, the vibrating tube, the conveying tube, the vibrating plate, the drilling mechanism, the repairing mechanism and the vibrating mechanism, the damage to the edge of the hole to a certain extent during sampling can be reduced, the original shape and the original strength of the hole can be quickly restored after the drilling is finished, the risk of tamping the repairing material to the edge of the hole in real time is reduced, the damage to the drilling position caused by the past vehicle is reduced, and the service life of the concrete highway is prolonged.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the whole invention at another angle;

FIG. 3 is a schematic structural view of the drilling mechanism of the present invention;

FIG. 4 is a schematic diagram of a repairing mechanism according to the present invention;

FIG. 5 is a schematic cross-sectional structural view of the repair mechanism and shock tube of the present invention;

FIG. 6 is a schematic view of a vibration mechanism according to the present invention;

FIG. 7 is a schematic view of the spray mechanism of the present invention;

FIG. 8 is a schematic view of a partial enlarged structure of the present invention at A in FIG. 1;

FIG. 9 is a schematic diagram of a repair mechanism according to the present invention;

FIG. 10 is a schematic view of a vibration mechanism according to the present invention;

FIG. 11 is a schematic structural view of a repairing mechanism according to the present invention;

FIG. 12 is a partially exploded view of the repair mechanism of the present invention.

In the figure: 1. a frame; 2. a lifting frame; 3. a drill bit; 4. a vibrating tube; 5. a delivery tube; 6. a vibration plate; 7. a slide plate; 8. rotating the gear; 9. a drive gear; 10. a first motor; 11. a limiting ring; 12. a pressure ring; 13. a first toothed belt; 14. a first gear; 15. a second motor; 16. a rotating lever; 17. a vibrating wheel; 18. a third motor; 19. a driving wheel; 20. a rotary gear; 21. a transmission gear; 22. a fourth motor; 23. a slide bar; 24. a top plate; 25. a spring; 26. a moving rack; 27. a driving rod; 28. a tamper wheel; 29. a fifth motor; 30. a second toothed belt; 31. a second gear; 32. a sixth motor; 33. a discharging box; 34. a material conveying pump; 35. stirring paddles; 36. a seventh motor; 37. a third toothed belt; 38. a fixing frame; 39. a support rod; 40. a third gear; 41. an eighth motor; 42. a water tank; 43. a water pump; 44. a pipe rack; 45. a spray header; 46. a moving rod; 47. a moving wheel; 48. a pushing frame; 49. a support shaft; 50. a return spring; 51. a support plate; 52. a first wheel; 53. a first belt; 54. a limit rod; 55. a second wheel; 56. a second belt; 57. a sliding sleeve; 58. a tamping stand; 59. a support spring; 60. a lever; 61. a protrusion; 62. a contact plate; 63. and (3) rolling balls.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 8, this embodiment proposes a highway construction concrete detection apparatus including: frame 1, crane 2, drill bit 3, vibrating tube 4, conveyer pipe 5, vibrations board 6, drilling mechanism, repair mechanism and vibration mechanism, a plurality of slide holes first have been seted up in the frame 1, crane 2 slides and sets up in a plurality of slide holes first, drill bit 3 sets up in crane 2, slide hole second has been seted up on the frame 1, vibrating tube 4 slides and sets up in smooth Kong Erna, conveyer pipe 5 sets up in frame 1, conveyer pipe 5 binds with vibrating tube 4, vibrations board 6 sets up in frame 1, through frame 1, crane 2, drill bit 3, vibrating tube 4, conveyer pipe 5, vibrations board 6, drilling mechanism, repair mechanism and cooperation between the vibration mechanism, can reduce the damage to the hole edge when taking a sample, and be convenient for after the drilling is accomplished quick with hole recovery former state and original intensity, the damage that the past vehicle led to the fact the drilling position has been reduced, concrete highway's life has been improved.

Wherein, drilling mechanism sets up on crane 2 for drive drill bit 3 is to concrete highway sample of holing, drilling mechanism includes: slide 7, rotation gear 8, drive gear 9, first motor 10, spacing ring 11, pressure ring 12, first toothed belt 13, first gear 14, second motor 15 and lifting unit, slide 7 slides and sets up on elevating system, drill bit 3 rotates to be connected on slide 7, rotation gear 8 fixed connection is on drill bit 3, drive gear 9 rotates to be connected on slide 7, drive gear 9 meshes with rotation gear 8, first motor 10 passes through motor frame 1 and is set up on slide 7, the output of first motor 10 runs through motor frame 1 and with drive gear 9 fixed connection, spacing ring 11 fixedly connected with lifting frame 2 is interior, drill bit 3 slides and rotates to be connected in spacing ring 11, pressure ring 12 fixed connection is on lifting frame 2, first toothed belt 13 is equipped with two, two first toothed belts 13 are all fixed connection on lifting frame 2, first gear 14 is equipped with two, two first gears 14 all set up on slide 7, two first gears 14 mesh with two first toothed belts 13 respectively, second motor 15 is equipped with two motors, two second output 15 are set up respectively with two first toothed belts 14 and are fixed connection on lifting unit is used for lifting unit to go up and down on lifting frame 2, lifting unit is including lifting unit is fixed to lifting frame 2: the second toothed belt 30, the second gear 31 and the sixth motor 32, the second toothed belt 30 is provided with two, two second toothed belts 30 are fixedly connected to the lifting frame 2, the second gear 31 is provided with two, two second gears 31 are arranged on the frame 1, two second gears 31 are meshed with the two second toothed belts 30 respectively, the sixth motor 32 is provided with two, two sixth motors 32 are arranged on the frame 1, and output ends of the two sixth motors 32 are fixedly connected with the two second gears 31 respectively.

Wherein, repair the mechanism setting on frame 1 for repair the cavity after the drilling, repair the mechanism and include: the automatic feeding and discharging device comprises a rotating rod 16, vibrating wheels 17, a third motor 18, driving wheels 19, rotating gears 20, transmission gears 21, a fourth motor 22 and a discharging component, wherein the rotating rod 16 is rotationally connected in the vibrating tube 4, the vibrating wheels 17 are provided with a plurality of vibrating wheels 17 which are fixedly connected on the rotating rod 16, the third motor 18 is arranged on the vibrating tube 4, the output end of the third motor 18 penetrates through the vibrating tube 4 and is fixedly connected with the rotating rod 16, the driving wheels 19 are provided with two driving wheels 19 which are rotationally connected in the frame 1, the two driving wheels 19 are in contact with the vibrating tube 4, the rotating gears 20 are provided with two rotating gears 20, the two rotating gears 20 are respectively and fixedly connected on the two driving wheels 19, the transmission gears 21 are provided with two, the two transmission gears 21 are respectively meshed with the two rotating gears 20, the fourth motor 22 is arranged in the frame 1, the output end of the fourth motor 22 penetrates through the frame 1 and is fixedly connected with one driving wheel 19, the discharging component is arranged in the frame 1 and is used for discharging the hole assembly, and the discharging device comprises: the discharging box 33, the delivery pump 34, stirring rake 35 and seventh motor 36, discharging box 33 fixed connection is in frame 1, delivery pump 34 sets up on discharging box 33, the input and the discharging box 33 intercommunication of delivery pump 34, the output and the conveyer pipe 5 intercommunication of delivery pump 34, stirring rake 35 is equipped with two, two stirring rake 35 all rotate to be connected in discharging box 33, seventh motor 36 is equipped with two, two seventh motors 36 all set up on discharging box 33, the output of two seventh motors 36 all runs through discharging box 33 and respectively with two stirring rake 35 fixed connection.

Further, vibration mechanism sets up on frame 1 for tamp the hole after repairing, vibration mechanism includes: slide bar 23, roof 24, spring 25, remove frame 26, actuating lever 27, tamper wheel 28, fifth motor 29 and actuating assembly, slide bar 23 slip sets up in frame 1, vibrations board 6 fixed connection is on slide bar 23, roof 24 fixed connection is on slide bar 23, the spring 25 cover is established on slide bar 23, spring 25 fixed connection is between roof 24 and frame 1, remove the frame 26 slip and set up in frame 1, actuating lever 27 swivelling joint is on removing the frame 26, tamper wheel 28 fixed connection is on actuating lever 27, tamper wheel 28 contacts with roof 24, fifth motor 29 sets up on removing the frame 26, the output of fifth motor 29 runs through remove frame 26 and with actuating lever 27 fixed connection, actuating assembly sets up on removing the frame 26, be used for driving to remove frame 26 and go up and down to remove, actuating assembly includes: third toothed belt 37, mount 38, bracing piece 39, third gear 40 and eighth motor 41, third toothed belt 37 is equipped with two, two third toothed belt 37 all fixed connection is on removing frame 26, mount 38 fixed connection is on frame 1, bracing piece 39 swivelling joint is in mount 38, third gear 40 is equipped with two, two third gear 40 all fixed connection is on bracing piece 39, two third gear 40 mesh with two third toothed belt 37 respectively, eighth motor 41 sets up on mount 38, the output of eighth motor 41 runs through mount 38 and with bracing piece 39 fixed connection.

Further, be provided with spraying mechanism on the frame 1, spraying mechanism includes: the water tank 42, the water pump 43, pipe support 44 and shower head 45, water tank 42 fixed connection is on frame 1, and water pump 43 sets up on water tank 42, and water pump 43's input and water tank 42 intercommunication, pipe support 44 fixed connection are on frame 1, and pipe support 44 and water pump 43's output intercommunication, shower head 45 are equipped with a plurality ofly, and a plurality of shower heads 45 all communicate with pipe support 44.

Further, a moving mechanism is provided on the frame 1, and the moving mechanism includes: the movable rods 46, the movable wheels 47 and the pushing frame 48 are arranged, the movable rods 46 are arranged in two, the two movable rods 46 are both rotatably connected to the frame 1, the movable wheels 47 are arranged in a plurality, the movable wheels 47 are respectively fixedly connected to the two movable rods 46, and the pushing frame 48 is fixedly connected to the frame 1.

The highway construction concrete detection method uses the highway construction concrete detection equipment, and comprises the following steps:

s1, drilling and sampling: when the concrete highway needs to be drilled and sampled, the second gear 31 is driven to rotate through the sixth motor 32 arranged on the frame 1, the second gear 31 drives the lifting frame 2 to descend when rotating on the second toothed belt 30, the pressure ring 12 is driven to prop against the position where the highway needs to be drilled when the lifting frame 2 descends, then the driving gear 9 and the rotating gear 8 are driven to rotate through the first motor 10 arranged on the motor frame 1, the drill bit 3 is driven to rotate in the limiting ring 11 when rotating, the drill bit 3 rotates, meanwhile, the first gear 14 is driven to rotate on the first toothed belt 13 through the second motor 15 arranged on the sliding plate 7, the sliding plate 7 is driven to descend on the lifting frame 2 when the first toothed belt 13, so that the drill bit 3 is driven to contact with the highway and carry out drilling operation, and the pressure ring 12 is fixed to the position of drilling position in an extrusion mode, so that the phenomenon that the edge of a hole is damaged when drilling is reduced, and a concrete sample can be taken out after the drill bit 3 is lifted.

S2, spraying and cooling: when drilling on a highway, water in the water tank 42 is pumped out through the water pump 43 arranged on the water tank 42 and conveyed into the spray header 45 through the pipe frame 44, and the water is sprayed to the drill bit 3 and the hole through the spray header 45, so that the drill bit 3 is cooled when drilling and sampling the drill bit 3.

S3, hole repairing: when the hole is required to be repaired after the sampling is finished, the repairing material is poured into and out of the material box 33 in proportion, and the stirring paddle 35 is driven to rotate by the seventh motor 36 arranged on the material box 33, so that the repairing material is uniformly stirred, after the stirring is finished, the repairing material is pumped into the conveying pipe 5 by the conveying pump 34, and the repairing material is conveyed into the hole by the conveying pipe 5 for repairing.

S4, exhaust operation: the fourth motor 22 arranged on the frame 1 drives one of the driving wheels 19 to rotate, the rotating gear 20 is driven to synchronously rotate when one of the driving wheels 19 rotates, and when one of the rotating gears 20 rotates, the two rotating gears 20 are driven to synchronously rotate relatively through the transmission of the two transmission gears 21, so that the vibrating tube 4 is driven to stretch into the hole, the conveying tube 5 during conveying can be driven into the hole together when the vibrating tube 4 stretches into the hole, the rotating rod 16 is driven to rotate through the third motor 18 arranged on the vibrating tube 4, the vibrating wheel 17 is driven to rotate when the rotating rod 16 rotates, and vibration generated when the vibrating wheel 17 rotates is transmitted to the vibrating tube 4, so that the repairing material is conveyed into the hole and is subjected to vibration exhaust.

S5, tamping operation: after the hole is filled with the repairing material, the eighth motor 41 arranged on the fixing frame 38 drives the supporting rod 39 to rotate, and the supporting rod 39 drives the two third gears 40 to rotate on the two third toothed belts 37 when rotating, so that the movable frame 26 is driven to move downwards on the lifting frame 2, the fifth motor 29 arranged on the movable frame 26 drives the driving rod 27 and the tamping wheel 28 to rotate, the top plate 24 is hammered when the tamping wheel 28 rotates, and the top plate 24 is rebounded through the spring 25 sleeved on the sliding rod 23, so that the vibrating plate 6 fixedly connected on the sliding rod 23 can be driven to tamp and smooth the repairing material in a circulating mode.

In addition, the diameter of the vibration plate 6 is smaller than that of the hole, so that the vibration plate 6 can be effectively prevented from tamping the repairing material to the edge of the hole in real time, damage to the edge of the hole is reduced, the width of the vibration pipe 4 added with the conveying pipe 5 is also smaller than that of the hole, vibration exhaust is conveniently carried out in the hole while filling materials, and as the two second motors 15 and the six motors 32 are both arranged, the two second motors 15 and the two sixth motors 15 are required to be connected to the same switch when being connected with the switch, the two sixth motors 32 are also required to be connected to the same switch, so that an operator can conveniently drive the two second motors 15 to synchronously rotate when pressing the switch, and the stability of the lifting frame 2 and the sliding plate 7 during lifting movement is ensured.

In the second embodiment, referring to fig. 9 and 10, in order to increase the filling and exhausting effects of the repairing material, each driving wheel 19 is divided into two halves, a plurality of support shafts 49 are provided on the frame 1, the plurality of support shafts 49 are rotatably connected in the frame 1, the plurality of support shafts 49 are sleeved with return springs 50, the plurality of return springs 50 are fixedly connected on the frame 1, and the plurality of driving wheels 19 are rebounded by the elasticity of the return springs 50 when the vibrating tube 4 vibrates, so that the driving shaft 19 is prevented from obstructing the vibrating tube 4 when the vibrating tube 4 vibrates.

Further, the support plate 51 is fixedly connected to the vibrating tube 4, two first rotating wheels 52 are arranged on the support plate 51, one first rotating wheel 52 is fixedly connected to the rotating rod 16, the other first rotating wheel 52 is rotatably connected to the support plate 51, a first driving belt 53 is connected between the two first rotating wheels 52 in a driving manner, a limit rod 54 is fixedly connected to the other first rotating wheel 52, second rotating wheels 55 are fixedly connected to the two stirring paddles 35, a second driving belt 56 is connected between the two second rotating wheels 55 in a driving manner, a sliding sleeve 57 is fixedly connected to one second rotating wheel 55, the limit rod 54 is fixedly connected to the sliding sleeve 57, the first rotating wheel 52 is rotated by driving the other first rotating wheel 52 and the limit rod 54 through driving of the first driving belt 53, the sliding sleeve 57 and the second rotating wheel 55 are rotated through driving of the second driving belt 56, the two second rotating wheels 55 and the two stirring paddles 35 are rotated, and accordingly the material in the repairing box 33 is uniformly vibrated when the material in the hole is repaired, and the material is effectively prevented from being mixed.

Further, in order to increase the tamping efficiency of the repairing material, when the movable frame 26 is rotatably connected with a lever 60, one end of the lever 60 is in contact with the tamping wheel 28, the other end of the lever 60 is lowered, the tamping frame 58 is slidably arranged on the frame 1, a supporting spring 59 is sleeved on the tamping frame 58, and the other end of the lever 60 is lowered to be pressed down with the tamping frame 58, so that the tamping frame 58 is driven to tamp the repairing material, and when the tamping wheel 28 rotates, the vibrating plate 6 and the tamping frame 58 are quickly moved up and down in a mutually staggered manner, so that the tamping efficiency of the repairing material is increased.

Referring to fig. 11 and 12, in order to drive the stirring paddle 35 to move up and down when the vibrating tube 4 moves up and down, a plate connected with the stirring paddle 35 is set to slide on the discharge box 33, and when the vibrating tube 4 moves up and down, the stirring paddle 35 can be driven to move up and down, so that the repairing material is uniformly stirred, in order to prevent the driving wheel 19 from slipping when the driving wheel 19 drives the vibrating tube 4 to move up and down, a plurality of protrusions 61 are arranged on the vibrating tube 4, a plurality of grooves are formed in the driving shaft 19, and the protrusions 61 are engaged with the grooves, so that the friction between the driving wheel 19 and the vibrating tube 4 is increased.

In order to prevent damage caused by friction between the return spring 50 and the driving wheel 19 when the driving wheel 19 rotates, a contact plate 62 is fixedly connected to the return spring 50, a plurality of rotating grooves are formed in the contact plate 62, a plurality of balls 63 are rotatably connected in the rotating grooves, and the balls 63 are in contact with the driving wheel 19, so that friction between the return spring 50 and the driving wheel 19 is reduced.

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.

Claims (7)

1. Highway construction concrete check out test set, its characterized in that includes:

a frame (1);

the lifting frame (2) is provided with a plurality of first sliding holes, and the lifting frame (2) is arranged in the plurality of first sliding holes in a sliding way;

the drill bit (3), the said drill bit (3) is set up in the lifting frame (2);

the vibrating tube (4) is provided with a sliding hole II on the frame (1), and the vibrating tube (4) is arranged on the slide Kong Erna in a sliding way;

the conveying pipe (5) is arranged in the frame (1), and the conveying pipe (5) is bound with the vibrating pipe (4);

the vibration plate (6) is arranged in the frame (1);

the drilling mechanism is arranged on the lifting frame (2) and used for driving the drill bit (3) to drill and sample the concrete highway;

the repairing mechanism is arranged on the frame (1) and is used for repairing the drilled cavity;

the vibration mechanism is arranged on the frame (1) and used for tamping the repaired holes;

the drilling mechanism includes:

the sliding plate (7) is arranged on the lifting mechanism in a sliding way, and the drill bit (3) is rotationally connected to the sliding plate (7);

the rotary gear (8), the said rotary gear (8) is fixedly connected to bit (3);

the driving gear (9) is rotationally connected to the sliding plate (7), and the driving gear (9) is meshed with the rotating gear (8);

the first motor (10) is arranged on the sliding plate (7) through the motor frame (1), and the output end of the first motor (10) penetrates through the motor frame (1) and is fixedly connected with the driving gear (9);

the drill bit (3) is slidingly and rotationally connected in the limiting ring (11);

a pressure ring (12), wherein the pressure ring (12) is fixedly connected to the lifting frame (2);

the two first toothed belts (13) are arranged, and the two first toothed belts (13) are fixedly connected to the lifting frame (2);

the two first gears (14) are arranged, the two first gears (14) are arranged on the sliding plate (7), and the two first gears (14) are respectively meshed with the two first toothed belts (13);

the two second motors (15) are arranged, and the output ends of the two second motors (15) are fixedly connected with the two first gears (14) respectively;

the lifting assembly is arranged on the frame (1) and used for driving the lifting frame (2) to lift;

the repair mechanism includes:

a rotating rod (16), wherein the rotating rod (16) is rotatably connected in the vibrating tube (4);

the vibration wheels (17) are arranged, and the vibration wheels (17) are fixedly connected to the rotating rod (16);

the third motor (18), the said third motor (18) is set up on vibrating tube (4), the output end of the said third motor (18) runs through vibrating tube (4) and fixedly connects with turning bar (16);

the two driving wheels (19) are arranged, the two driving wheels (19) are rotatably connected in the frame (1), and the two driving wheels (19) are contacted with the vibrating tube (4);

the two rotary gears (20) are arranged, and the two rotary gears (20) are fixedly connected to the two driving wheels (19) respectively;

the two transmission gears (21) are arranged, the two transmission gears (21) are both rotationally connected in the frame (1), the two transmission gears (21) are meshed with each other, and the two transmission gears (21) are respectively meshed with the two rotary gears (20);

the fourth motor (22), the said fourth motor (22) is set up in the stander (1), the output end of the said fourth motor (22) runs through the stander (1) and fixedly connects with one of the driving wheels (19);

the blanking assembly is arranged on the frame (1) and used for filling the holes;

the vibration mechanism includes:

the sliding rod (23) is arranged in the frame (1) in a sliding way, and the vibrating plate (6) is fixedly connected to the sliding rod (23);

the top plate (24), the said top plate (24) is fixedly connected to slide bar (23);

the spring (25) is sleeved on the sliding rod (23), and the spring (25) is fixedly connected between the top plate (24) and the frame (1);

a moving frame (26), wherein the moving frame (26) is arranged on the frame (1) in a sliding way;

a drive lever (27), the drive lever (27) being rotatably connected to the movable frame (26);

a tamper wheel (28), the tamper wheel (28) being fixedly connected to the drive rod (27), the tamper wheel (28) being in contact with the top plate (24);

the fifth motor (29), the said fifth motor (29) is set up on moving the frame (26), the output end of the said fifth motor (29) runs through moving the frame (26) and fixedly connected with driving rod (27);

and the driving assembly is arranged on the movable frame (26) and is used for driving the movable frame (26) to move up and down.

2. The highway construction concrete detection apparatus according to claim 1, wherein the lifting assembly comprises:

the two second toothed belts (30) are arranged, and the two second toothed belts (30) are fixedly connected to the lifting frame (2);

the two second gears (31) are arranged, the two second gears (31) are arranged on the frame (1), and the two second gears (31) are respectively meshed with the two second toothed belts (30);

the six motors (32), the six motors (32) are two, the two six motors (32) are all arranged on the frame (1), and the output ends of the two six motors (32) are respectively fixedly connected with the two second gears (31).

3. The highway construction concrete detection apparatus according to claim 2, wherein the blanking assembly comprises:

the discharging box (33) is fixedly connected to the frame (1);

the material conveying pump (34) is arranged on the material discharging box (33), the input end of the material conveying pump (34) is communicated with the material discharging box (33), and the output end of the material conveying pump (34) is communicated with the conveying pipe (5);

the stirring paddles (35) are arranged, and the two stirring paddles (35) are both rotatably connected in the discharge box (33);

the seventh motors (36), the seventh motors (36) are two, the two seventh motors (36) are all arranged on the discharging box (33), and the output ends of the two seventh motors (36) penetrate through the discharging box (33) and are fixedly connected with the two stirring paddles (35) respectively.

4. A highway construction concrete inspection apparatus according to claim 3 wherein said drive assembly comprises:

the two third toothed belts (37) are arranged, and the two third toothed belts (37) are fixedly connected to the movable frame (26);

the fixing frame (38), the said fixing frame (38) is fixedly connected to frame (1);

the support rod (39), the said support rod (39) rotates and connects in the fixed mount (38);

the two third gears (40) are arranged, the two third gears (40) are fixedly connected to the supporting rod (39), and the two third gears (40) are respectively meshed with the two third toothed belts (37);

the eighth motor (41), eighth motor (41) sets up on mount (38), the output of eighth motor (41) runs through mount (38) and with bracing piece (39) fixed connection.

5. The highway construction concrete detection apparatus according to claim 4, wherein a spraying mechanism is provided on the frame (1), the spraying mechanism comprising:

the water tank (42), the said water tank (42) is fixedly connected to frame (1);

the water pump (43) is arranged on the water tank (42), and the input end of the water pump (43) is communicated with the water tank (42);

the pipe rack (44), the pipe rack (44) is fixedly connected to the frame (1), and the pipe rack (44) is communicated with the output end of the water pump (43);

the shower head (45), shower head (45) are equipped with a plurality ofly, a plurality of shower head (45) all communicate with pipe support (44).

6. The highway construction concrete detection apparatus according to claim 5, wherein a moving mechanism is provided on the frame (1), the moving mechanism comprising:

the two moving rods (46) are arranged, and the two moving rods (46) are both rotatably connected to the frame (1);

the movable wheels (47) are provided with a plurality of movable wheels (47), and the movable wheels (47) are fixedly connected to two movable rods (46) respectively;

the pushing frame (48), the pushing frame (48) is fixedly connected on the frame (1).

7. A method for detecting highway construction concrete using the highway construction concrete detecting apparatus according to claim 6, comprising the steps of:

s1, drilling and sampling: when a concrete highway needs to be drilled and sampled, a sixth motor (32) arranged on the frame (1) drives a second gear (31) to rotate, the second gear (31) drives a lifting frame (2) to descend when rotating on a second toothed belt (30), and a pressure ring (12) is driven to prop against a position on the highway, which needs to be drilled, when the lifting frame (2) descends, a first motor (10) arranged on the motor frame (1) drives a driving gear (9) and a rotating gear (8) to rotate, when the driving gear (3) rotates in a limiting ring (11), and when the driving gear (3) rotates, a second motor (15) arranged on a sliding plate (7) drives a first gear (14) to rotate on a first toothed belt (13), and the first gear (14) drives the sliding plate (7) to descend on the lifting frame (2), so that the driving gear (3) contacts the highway and performs drilling operation, and a concrete sample can be lifted out after drilling;

s2, spraying and cooling: when drilling holes on roads, water in the water tank (42) is pumped out through a water pump (43) arranged on the water tank (42), is conveyed into a spray header (45) through a pipe frame (44), and is sprayed to the drill bit (3) and the holes through the spray header (45);

s3, hole repairing: when the hole is required to be repaired after sampling is finished, pouring repairing materials into and out of a material box (33) in proportion, driving a stirring paddle (35) to rotate through a seventh motor (36) arranged on the material box (33), uniformly stirring the repairing materials, pumping the repairing materials into a conveying pipe (5) through a material conveying pump (34) after stirring is finished, and conveying the repairing materials into the hole through the conveying pipe (5) for repairing;

s4, exhaust operation: one of the driving wheels (19) is driven to rotate by a fourth motor (22) arranged on the frame (1), the rotating gear (20) is driven to synchronously rotate when one of the driving wheels (19) rotates, and when one of the rotating gears (20) rotates, the two rotating gears (20) are driven to synchronously rotate relatively by the transmission of two transmission gears (21), so that the vibrating tube (4) is driven to extend into the hole, the conveying tube (5) during material conveying is carried into the hole when the vibrating tube (4) extends into the hole, the rotating rod (16) is driven to rotate by a third motor (18) arranged on the vibrating tube (4), the vibrating wheel (17) is driven to rotate when the rotating rod (16), and vibration generated when the vibrating wheel (17) rotates is transmitted to the vibrating tube (4), so that the repairing material is conveyed into the hole and vibration exhaust is carried out;

s5, tamping operation: after the hole is filled with the repairing material, an eighth motor (41) arranged on the fixing frame (38) drives the supporting rod (39) to rotate, and when the supporting rod (39) rotates, the two third gears (40) are driven to rotate on the two third toothed belts (37), so that the movable frame (26) is driven to move downwards on the lifting frame (2), the driving rod (27) and the tamping wheel (28) are driven to rotate through a fifth motor (29) arranged on the movable frame (26), the top plate (24) is hammered when the tamping wheel (28) rotates, and the top plate (24) is rebounded through a spring (25) sleeved on the sliding rod (23), and thus the vibrating plate (6) fixedly connected on the sliding rod (23) can be driven to tamp and smooth the repairing material in a circulating mode.