CN114718014A

CN114718014A - Embankment plugging device and method for hydraulic engineering construction

Info

Publication number: CN114718014A
Application number: CN202210566267.1A
Authority: CN
Inventors: 王瑶
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-24
Filing date: 2022-05-24
Publication date: 2022-07-08

Abstract

The invention discloses a dike plugging device and a dike plugging method for hydraulic engineering construction, which relate to the technical field of hydraulic engineering construction and comprise a mobile vehicle, two connecting plates are arranged at the top of the moving vehicle, limiting plates are arranged on both sides of the moving vehicle, the bottom of each limiting plate is provided with a fixed block, one end of each fixed block is provided with a limiting plate, one side of the limiting plate is provided with two fourth electric telescopic rods, the telescopic ends of the two fourth electric telescopic rods are provided with working boxes, the dike plugging device and the dike plugging method for hydraulic engineering construction can repair cracks on the dike in water by arranging the drill bit, the pump and the second electric telescopic rod, therefore, the embankment crack repairing device is convenient for operators to use, so that the crack repairing on the embankment is simpler, the repairing is not required to be assisted by other equipment, and the repairing efficiency of repairing work is greatly improved.

Description

Embankment plugging device and method for hydraulic engineering construction

Technical Field

The invention relates to the technical field of hydraulic engineering construction, in particular to a dam plugging device and a plugging method for hydraulic engineering construction.

Background

The embankment project refers to water retaining buildings built along the edges of rivers, channels, lakes, seacoasts or flood areas, flood diversion areas and reclamation areas. Embankments are an important flood protection project that has been adopted most widely in the world. The embankment is a main measure for preventing flood and protecting the residential and industrial and agricultural production. The dikes can be divided into river dikes, lake dikes, sea dikes, reservoir dikes in low-lying areas of stagnant and flooded areas and the like according to different building positions; according to the functions, the device can be divided into a dry dike, a branch dike, a sub dike, a remote dike, a bulkhead dike, a flood bank, a breakwater, a polder dike, a breakwater and the like; according to building materials, the building material can be divided into: earth dikes, stone dikes, earth and stone mixed dikes, concrete flood control walls and the like. The conventional dike plugging device for hydraulic engineering construction is inconvenient for repairing cracks partially appearing in dike water to prevent blockage, so that the blockage prevention efficiency of the dike is influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an embankment blocking device and a blocking method for hydraulic engineering construction, and solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a dike plugging device for hydraulic engineering construction comprises a moving vehicle, wherein two connecting plates are installed at the top of the moving vehicle, limiting plates are arranged on two sides of the moving vehicle, fixed blocks are arranged at the bottoms of the limiting plates, a limiting plate is arranged at one end of each fixed block, two fourth electric telescopic rods are arranged on one side of each limiting plate, a working box is arranged at the telescopic ends of the two fourth electric telescopic rods, a working groove is formed in the working box, a moving assembly is arranged in the inner cavity of the working groove, a fixed plate is installed on the moving assembly, a mounting plate is installed on one side of the fixed plate, a first electric telescopic rod is installed on one side of the mounting plate, the telescopic end of the first electric telescopic rod extends to the outer side of the mounting plate and is provided with a drill bit, a liquid tank is installed on one side of the mounting plate and above the first electric telescopic rod, a protection section of thick bamboo is installed to one side of mounting panel, the inside storage chamber of having seted up of a protection section of thick bamboo, second electric telescopic handle is installed to one side of mounting panel, second electric telescopic handle's flexible end extends to the storage intracavity portion and is provided with the pump machine, be connected through the elasticity pipe between liquid case and the pump machine, the inside below that just is located the work groove of work case is provided with the liquid pump, the one end of liquid pump extends to the work inslot portion, the work incasement portion just is located one side of liquid pump and has seted up the air discharge duct, the work incasement portion is provided with the holding tank, the one end of holding tank extends to the detection inslot portion, the bottom of holding tank extends to the below of work case, one side of work case is provided with the sealing washer.

Optionally, a collecting box is installed at the bottom of the mounting plate, an air pump is installed at one side of the collecting box, one end of the air pump extends into the collecting box, a filter plate is installed inside the collecting box, an exhaust head is installed at one side of the collecting box, a trigger pipe is installed at the top of the exhaust head, an exhaust pipe is installed at one side of the trigger pipe, a first stopper is slidably connected to an inner cavity of the trigger pipe, a first connecting rod is installed at the top of the first stopper, a fixed cylinder is arranged at the top of the trigger pipe, a first connecting spring is sleeved at the outer side of the inner cavity of the trigger pipe and located at the first connecting rod, the top of the first connecting rod extends into the fixed cylinder and is provided with a first rack, a first rotating rod is rotatably connected to the inner cavity of the fixed cylinder, a first transmission gear is sleeved at the outer side of the first rotating rod and is meshed with the first rack, one side of the inner cavity of the fixed cylinder is rotatably connected with a first linkage rod, the first linkage rod and the first rotation rod are both sleeved with first bevel gears, the two first bevel gears are mutually meshed, one end of the first linkage rod extends into the fixed plate and is rotatably connected with the inner cavity of the fixed plate, the inner cavity of the fixed plate is rotatably connected with a second linkage rod, the second linkage rod and the outer side of the first linkage rod are both sleeved with belt pulleys, the two belt pulleys are connected through belt transmission, one side of the inner cavity of the protective cylinder, which is positioned in the storage cavity, is provided with a containing groove, the inner cavity of the containing groove is rotatably connected with a first threaded rod, the outer side of the first threaded rod is all in threaded connection with a first baffle, one side of the protective cylinder is provided with a through groove, the bottom end of the first baffle extends into the through groove, and the protective cylinder is internally provided with a transmission groove, one end of the second linkage rod extends to the inside of the transmission groove, the top end of the first threaded rod extends to the inside of the transmission groove, and second bevel gears are sleeved on the outer sides of the second linkage rod and the first threaded rod respectively and are connected in a meshing mode.

Optionally, the coiling case is all installed at the top of limiting plate, fourth servo motor is all installed to one side of coiling case, the coiling incasement chamber all rotates and is connected with the winding roller, fourth servo motor's output is connected with the one end of winding roller, the outside of winding roller all twines there is the hose, the inside fixed pipe that all is provided with of winding roller, the one end of hose all is connected with the one end of fixed pipe, the other end of fixed pipe all is connected with the one end of installing the rotary joint in coiling case one side, the bottom of hose extends to the work box inside and is provided with the connector.

Optionally, a liquid pump is installed inside the working box and located in the working tank, an exhaust groove is formed in one side of the working box and located in the liquid pump, one end of the liquid pump extends into the exhaust groove, a detection groove is formed in the working box and located above the exhaust groove, a second stopper is connected to an inner cavity of the detection groove in a sliding manner, a second connecting rod is installed at the top of the second stopper, a moving groove is formed in the working box, the top end of the second connecting rod extends into the moving groove and is provided with a second rack, a second rotating rod is connected to one side of the inner cavity of the moving groove in a rotating manner, a second transmission gear is sleeved on the outer side of the second rotating rod and is matched with the second rack, a third linkage rod is connected to the top of the inner cavity of the moving groove in a rotating manner, and a third bevel gear is sleeved on the bottom end of the third linkage rod and the outer side of the second rotating rod, two the outside of third bevel gear all is equipped with third bevel gear, two intermeshing is connected between the third bevel gear, the holding tank has been seted up to the work box inside, the top of third trace extends to inside the holding tank, the holding tank inner chamber rotates and is connected with the screw spindle, the outside of third trace and screw spindle all is equipped with fourth bevel gear, two intermeshing is connected between the fourth bevel gear, the equal threaded connection in the outside of screw spindle has the second baffle, the outside threaded connection of screw spindle has the second baffle, the one end of second baffle extends to inside the connector, its outside sliding connection who is located the second connecting rod of detection inslot has second connecting spring.

Optionally, the top of work inslot cavity is provided with second servo motor, second servo motor's output is provided with the second threaded rod, the outside threaded connection of second threaded rod has first slider, the one end of first slider is provided with the second guide rail, the inner chamber of second guide rail rotates and is connected with the third threaded rod, the equal threaded connection in the outside of third threaded rod has the second slider, the one end of second slider is connected with one side of fixed plate, third servo motor is installed to one side of second guide rail, third servo motor's output is connected with the one end of third threaded rod.

Optionally, the vertical rail is installed on one side of the connecting plate, the top of the vertical rail is provided with a driving motor, the output end of the driving motor extends to the inside of the vertical rail and is provided with a lead screw, the outer side of the lead screw is connected with a push plate in a threaded manner, and the bottom end of the push plate is connected with the top of the fixed block through a connecting rod.

Optionally, the rotating table is installed to one side of fixed block all, the middle part of rotating the table all rotates and is connected with the turning block, first servo motor is all installed to one side of rotating the table, first servo motor's output all is connected with one side of turning block, the one end of turning block all is connected with one side of limiting plate.

A method for plugging a dike for hydraulic engineering construction comprises the following steps:

s1: pushing the moving vehicle to an embankment, attaching the working box to a position needing anti-blocking, and discharging water in the working box; then the output end of the driving motor drives the screw rod to rotate, so that the push plate pushes the fixed block and the working box to move downwards to the place where cracks appear, meanwhile, the output end of the fourth servo motor drives the winding roller to rotate, so that the hose is discharged, then the output end of the first servo motor drives the rotating block to rotate, the water drop rotating block drives the limiting plate and the working box to rotate, the angle of the working box is adjusted, then the telescopic end of the fourth electric telescopic rod pushes the working box to move, the working box is covered at the position needing anti-blocking, then the liquid pump is started to pump out the water in the working groove, at the moment, the other end of the liquid pump discharges the water into the exhaust groove, so that the water in the exhaust groove pushes the second stopper to move upwards, the second stopper pushes the second connecting rod and the second rack to move upwards, so that the second transmission gear drives the second rotating rod to rotate, so that the third interlocking rod rotates, and the threaded shaft is driven to rotate, one end of the second baffle plate is moved out of the connector, so that outside air enters the working groove through the hose, the air pressure in the working groove is normal, after water is discharged, the liquid pump is turned off, the second connecting spring pushes the second stopper to move downwards, the second rack moves downwards, the threaded shaft is reset to rotate, one end of the second baffle plate is inserted into the connector, and the connector is closed;

s2: adjusting the position of a drill bit, punching by the drill bit, and collecting dust generated by punching; the output end of the second servo motor drives the second threaded rod to rotate, so as to adjust the vertical position of the drill bit, the output end of the third servo motor drives the third threaded rod to rotate, the transverse position of the drill bit is adjusted, then the air pump is started, so that air enters the collecting box and then enters the exhaust head, the air pressure pushes the first stop plug to move upwards, the first connecting rod drives the first rack to move upwards, so as to drive the first transmission gear to drive the first rotating rod to rotate, the first bevel gear drives the first connecting rod to rotate, the first connecting rod drives the second connecting rod to rotate through the belt pulley, so as to drive the first threaded rod to rotate through the second bevel gear, so that the first baffle moves downwards to the inside of the through groove to seal the through groove, then the telescopic end of the first electric telescopic rod pushes the drill bit to punch, and generated dust is pumped into the collecting box, collecting through a filter plate;

s3: after drilling is finished, grouting anti-blocking operation is carried out through the detection groove; when the air pump is closed, the first connecting spring pushes the first stop plug to move downwards, then the first rack moves downwards, the first threaded rod rotates reversely, the first baffle moves towards the inside of the accommodating groove, the through groove is opened, then the telescopic end of the first electric telescopic rod drives the drill bit to reset and move, then the telescopic end of the second electric telescopic rod pushes the pump machine to move, the pump machine is inserted into a drilled hole for grouting, then the pump machine is started, liquid in the liquid tank is pumped out through the elastic pipe for grouting, and then the output end of the second electric telescopic rod drives the pump machine to reset and move;

s4: the working box is pulled up to move the device; the flexible end of fourth electric telescopic handle drives the work box and resets and removes, then driving motor's output drives the lead screw and resets and rotate for the push pedal drives the fixed block and shifts up, and fourth servo motor's output drives the winding roller simultaneously and rotates, makes the hose winding in the outside of winding roller.

The invention provides an embankment plugging device and a plugging method for hydraulic engineering construction, which have the following beneficial effects:

1. this a dyke plugging device and shutoff method for hydraulic engineering construction through being provided with drill bit, pump machine and second electric telescopic handle, can repair the crack that is located on the aquatic dyke to make things convenient for operating personnel to use, make on the dyke crack repair comparatively simple, need not other equipment and assist, thereby improved the repair efficiency of repair work greatly.

2. According to the embankment blocking device and the embankment blocking method for hydraulic engineering construction, the air pump, the collecting box and the first baffle are arranged, the air pump is started, air enters the collecting box and then enters the exhaust head, the air pressure pushes the first stopper to move upwards, the first connecting rod drives the first rack to move upwards, the first transmission gear is driven to drive the first rotating rod to rotate, the first bevel gear drives the first connecting rod to rotate, the first connecting rod drives the second connecting rod to rotate through the belt pulley, the first threaded rod is driven to rotate through the second bevel gear, the first baffle moves downwards to the inside of the through groove to seal the through groove, then the telescopic end of the first electric telescopic rod pushes the drill bit to punch, and generated dust is pumped into the collecting box and collected through the filter plate; prevent dust from entering into the interior of the injection head arranged at one end of the pump machine and causing blockage.

Drawings

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

FIG. 2 is a schematic view of a portion of the present invention;

FIG. 3 is a schematic view of the working structure of the present invention;

FIG. 4 is a schematic view of a part of the construction of the work box of the present invention;

FIG. 5 is a schematic view of the internal structure of the rolling box of the present invention;

FIG. 6 is a schematic view of the internal structure of a second rail according to the present invention;

FIG. 7 is a side view of the turntable of the present invention;

FIG. 8 is an enlarged view taken at A of FIG. 3 according to the present invention;

FIG. 9 is an enlarged view of FIG. 3 taken at B in accordance with the present invention;

FIG. 10 is an enlarged view of the invention at C of FIG. 3;

FIG. 11 is an enlarged view taken at D of FIG. 3 in accordance with the present invention;

FIG. 12 is an enlarged view of FIG. 3 at E in accordance with the present invention;

FIG. 13 is an enlarged view at F of FIG. 4 in accordance with the present invention;

FIG. 14 is an enlarged view at G of FIG. 2 according to the present invention.

In the figure: 1. a mobile vehicle; 2. a connecting plate; 3. erecting a rail; 4. a screw rod; 5. a drive motor; 6. pushing the plate; 7. a limiting plate; 8. a fixed block; 9. a rotating table; 10. a first servo motor; 11. rotating the block; 12. a fixing plate; 13. a first electric telescopic rod; 14. mounting a plate; 15. a second electric telescopic rod; 16. a drill bit; 17. an air pump; 18. a collection box; 19. filtering the plate; 20. an exhaust head; 21. a trigger tube; 22. a first stopper; 23. a first connecting rod; 24. a first connecting spring; 25. an exhaust pipe; 26. a fixed cylinder; 27. a first rack; 30. a first rotating lever; 31. a first bevel gear; 32. a first drive gear; 33. a first linkage rod; 34. a belt pulley; 35. a protective cylinder; 36. a storage chamber; 37. a receiving groove; 38. a first threaded rod; 39. a through groove; 40. a first baffle plate; 41. a transmission groove; 42. a second linkage rod; 43. a second bevel gear; 44. a liquid pump; 45. an exhaust groove; 46. a detection tank; 47. a second connecting rod; 48. a second stopper; 49. a second connecting spring; 50. a moving groove; 51. a second rotating lever; 52. a third bevel gear; 53. a second transmission gear; 54. a third linkage rod; 55. a storage tank; 56. a threaded shaft; 57. a fourth bevel gear; 58. a connector; 59. a second baffle; 60. a hose; 61. a second threaded rod; 62. a first slider; 63. a second servo motor; 64. a fourth electric telescopic rod; 65. a limiting plate; 66. a second guide rail; 67. a third servo motor; 68. a third threaded rod; 69. a second slider; 70. a work box; 71. a working groove; 72. a rolling box; 73. a fourth servo motor; 74. a wind-up roller; 76. a fixed tube; 77. a rotary joint; 78. a second rack; 79. a liquid tank; 80. and (4) a pump machine.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, the present invention provides a technical solution: a dike plugging device for hydraulic engineering construction comprises a moving vehicle 1, two connecting plates 2 are mounted at the top of the moving vehicle 1, limiting plates 7 are arranged on two sides of the moving vehicle 1, a fixing block 8 is arranged at the bottom of each limiting plate 7, a limiting plate 65 is arranged at one end of each fixing block 8, two fourth electric telescopic rods 64 are arranged on one side of each limiting plate 65, working boxes 70 are arranged at telescopic ends of the two fourth electric telescopic rods 64, a working groove 71 is formed in each working box 70, a moving assembly is arranged in an inner cavity of each working groove 71, a fixing plate 12 is mounted on each moving assembly, a mounting plate 14 is mounted on one side of each fixing plate 12, a first electric telescopic rod 13 is mounted on one side of each mounting plate 14, the telescopic end of each first electric telescopic rod 13 extends to the outer side of the mounting plate 14 and is provided with a drill bit 16, a liquid tank 79 is mounted on one side of each mounting plate 14 and above the first electric telescopic rod 13, protection barrel 35 is installed to one side of mounting panel 14, the inside storage chamber 36 of having seted up of protection barrel 35, second electric telescopic handle 15 is installed to one side of mounting panel 14, the flexible end of second electric telescopic handle 15 extends to the storage chamber 36 inside and is provided with pump 80, be connected through the elastic tube between liquid tank 79 and the pump 80, the inside below that just is located work groove 71 of work box 70 is provided with liquid pump 44, the one end of liquid pump 44 extends to the work groove 71 inside, the inside exhaust duct 45 that just is located one side of liquid pump 44 of work box 70 has been seted up, the inside holding tank 55 that is provided with of work box 70, the one end of holding tank 55 extends to the detection tank 46 inside, the bottom of holding tank 55 extends to the below of work box 70, one side of work box 70 is provided with the sealing washer.

Wherein, the bottom of the mounting plate 14 is provided with a collecting box 18, one side of the collecting box 18 is provided with an air pump 17, and the dust punched out can be collected; one end of an air pump 17 extends into a collection box 18, a filter plate 19 is installed inside the collection box 18, an exhaust head 20 is installed on one side of the collection box 18, a trigger pipe 21 is installed on the top of the exhaust head 20, an exhaust pipe 25 is installed on one side of the trigger pipe 21, a first blocking plug 22 is connected to the inner cavity of the trigger pipe 21 in a sliding mode, a first connecting rod 23 is installed on the top of the first blocking plug 22, a fixed cylinder 26 is arranged on the top of the trigger pipe 21, a first connecting spring 24 is sleeved on the inner cavity of the trigger pipe 21 and located on the outer side of the first connecting rod 23, the top of the first connecting rod 23 extends into the fixed cylinder 26 and is provided with a first rack 27, a first rotating rod 30 is connected to the inner cavity of the fixed cylinder 26 in a rotating mode, a first transmission gear 32 is sleeved on the outer side of the first rotating rod 30, the first transmission gear 32 is connected with the first rack 27 in a meshing mode, and a first connecting rod 33 is connected to one side of the inner cavity of the fixed cylinder 26 in a rotating mode, the first linkage rod 33 and the first rotation rod 30 are both sleeved with first bevel gears 31, the two first bevel gears 31 are meshed with each other, one end of the first linkage rod 33 extends into the fixed plate 12 and is rotatably connected with the inner cavity of the fixed plate 12, the inner cavity of the fixed plate 12 is rotatably connected with a second linkage rod 42, the outer sides of the second linkage rod 42 and the first linkage rod 33 are both sleeved with belt pulleys 34, the two belt pulleys 34 are connected through belt transmission, a containing groove 37 is formed in the protective cylinder 35 and positioned at one side of the storage cavity 36, the inner cavity of the containing groove 37 is rotatably connected with a first threaded rod 38, the outer side of the first threaded rod 38 is both in threaded connection with a first baffle 40, a through groove 39 is formed in one side of the protective cylinder 35, the bottom end of the first baffle 40 extends into the through groove 39, a transmission groove 41 is formed in the protective cylinder 35, one end of the second linkage rod 42 extends into the transmission groove 41, inside the top of first threaded rod 38 extended to transmission groove 41, the outside of second trace 42 and first threaded rod 38 all was equipped with second bevel gear 43, meshing connection between two second bevel gear 43, when punching, can seal logical groove 39.

The top of the inner cavity of the working groove 71 is provided with a second servo motor 63, the output end of the second servo motor 63 is provided with a second threaded rod 61, the outer side of the second threaded rod 61 is in threaded connection with a first sliding block 62, one end of the first sliding block 62 is provided with a second guide rail 66, the inner cavity of the second guide rail 66 is rotatably connected with a third threaded rod 68, the outer side of the third threaded rod 68 is in threaded connection with a second sliding block 69, one end of the second sliding block 69 is connected with one side of the fixed plate 12, a third servo motor 67 is installed on one side of the second guide rail 66, the output end of the third servo motor 67 is connected with one end of the third threaded rod 68, and the position of the drill bit 16 is conveniently adjusted.

Upright rail 3 is all installed to one side of connecting plate 2, and the top of upright rail 3 is provided with driving motor 5, and driving motor 5's output all extends to 3 insides of upright rail and is provided with lead screw 4, and the equal threaded connection in outside of lead screw 4 has push pedal 6, and the bottom of push pedal 6 all is connected with the top of fixed block 8 through the connecting rod, conveniently adjusts the position of work box 70.

The revolving stage 9 is all installed to one side of fixed block 8, and the middle part of revolving stage 9 all rotates and is connected with turning block 11, and first servo motor 10 is all installed to one side of revolving stage 9, and first servo motor 10's output all is connected with one side of turning block 11, and the one end of turning block 11 all is connected with one side of limiting plate 65, can adjust the angle of work box 70.

Example two

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 13 and fig. 14, the present embodiment is different from the present embodiment in that: the top of the limiting plate 7 is provided with a winding box 72, one side of the winding box 72 is provided with a fourth servo motor 73, the inner cavity of the winding box 72 is rotatably connected with a winding roller 74, the output end of the fourth servo motor 73 is connected with one end of the winding roller 74, the outer side of the winding roller 74 is wound with a hose 60, the hose 60 can be discharged along with the descending of the working box 70, a fixed pipe 76 is arranged inside the winding roller 74, one end of the hose 60 is connected with one end of the fixed pipe 76, the other end of the fixed pipe 76 is connected with one end of a rotary joint 77 arranged on one side of the winding box 72, the bottom end of the hose 60 extends into the working box 70 and is provided with a connecting joint 58, so that outside air can enter the inside of the working groove 71 through the hose 60 and the connecting joint 58, and the air pressure inside the working groove 71 is normal.

A liquid pump 44 is arranged in the working box 70 and positioned in the working groove 71, an exhaust groove 45 is formed in one side of the liquid pump 44 in the working box 70, one end of the liquid pump 44 extends into the exhaust groove 45, a detection groove 46 is formed in the working box 70 and positioned above the exhaust groove 45, a second stopper 48 is connected in a sliding manner in an inner cavity of the detection groove 46, a second connecting rod 47 is arranged at the top of the second stopper 48, a moving groove 50 is formed in the working box 70, the top end of the second connecting rod 47 extends into the moving groove 50 and is provided with a second rack 78, a second rotating rod 51 is rotatably connected to one side of the inner cavity of the moving groove 50, a second transmission gear 53 is sleeved on the outer side of the second rotating rod 51, the second transmission gear 53 is matched with the second rack 78, a third linkage 54 is rotatably connected to the top of the inner cavity of the moving groove 50, and a third bevel gear 52 is sleeved on the bottom end of the third linkage 54 and the outer side of the second rotating rod 51, the outer sides of the two third bevel gears 52 are respectively sleeved with the third bevel gear 52, the two third bevel gears 52 are mutually meshed and connected, the inside of the working box 70 is provided with a storage groove 55, the top end of the third linkage rod 54 extends into the storage groove 55, the inner cavity of the storage groove 55 is rotatably connected with a threaded shaft 56, the outer sides of the third linkage rod 54 and the threaded shaft 56 are respectively sleeved with a fourth bevel gear 57, the two fourth bevel gears 57 are mutually meshed and connected, the outer side of the threaded shaft 56 is respectively in threaded connection with a second baffle 59, the outer side of the threaded shaft 56 is in threaded connection with a second baffle 59, one end of the second baffle 59 extends into the connector 58, and the connector 58 can be opened when the liquid pump 44 works, so that the external air can enter into the inside of the working groove 71 during the drainage, and the second link spring 49 is slidably connected to the inside of the detection groove 46 at the outer side of the second link rod 47.

EXAMPLE III

Referring to fig. 1 to 14, a method for plugging a dike for hydraulic engineering construction includes the following steps:

s1: pushing the moving vehicle 1 to the dike, attaching the working box 70 to a position needing to be prevented from blocking, and discharging water in the working box 70; then the output end of the driving motor 5 drives the screw rod 4 to rotate, so that the push plate 6 pushes the fixed block 8 and the working box 70 to move downwards to the place where cracks appear, meanwhile, the output end of the fourth servo motor 73 drives the winding roller 74 to rotate, so that the hose 60 is discharged, then the output end of the first servo motor 10 drives the rotating block 11 to rotate, the water drop rotating block 11 drives the limiting plate 65 and the working box 70 to rotate, the angle of the working box 70 is adjusted, then the telescopic end of the fourth electric telescopic rod 64 pushes the working box 70 to move, the working box 70 is covered at the position where blocking prevention is needed, then the liquid pump 44 is started to pump out water in the working groove 71, at the moment, the other end of the liquid pump 44 discharges the water into the exhaust groove 45, so that the water in the exhaust groove 45 pushes the second stopper 48 open, so that the second stopper 48 pushes the second connecting rod 47 and the second rack 78 to move upwards, so that the second transmission gear 53 drives the second rotating rod 51 to rotate, the third linkage rod 54 is rotated to drive the threaded shaft 56 to rotate, so that one end of the second baffle 59 is moved out of the connector 58, outside air enters the working groove 71 through the hose 60, air pressure in the working groove 71 is normal, after water is discharged, the liquid pump 44 is closed, the second connecting spring 49 pushes the second stopper 48 to move downwards, the second rack 78 moves downwards, the threaded shaft 56 is reset to rotate, one end of the second baffle 59 is inserted into the connector 58, and the connector 58 is closed;

s2: adjusting the position of the drill 16, punching by the drill 16, and collecting dust generated by punching; the output end of the second servo motor 63 drives the second threaded rod 61 to rotate, thereby adjusting the vertical position of the drill bit 16, the output end of the third servo motor 67 drives the third threaded rod 68 to rotate, thereby adjusting the horizontal position of the drill bit 16, then the air pump 17 is started, so that air enters into the collecting box 18 and then enters into the exhaust head 20, so that the air pressure pushes the first stopper 22 to move upwards, so that the first connecting rod 23 drives the first rack 27 to move upwards, thereby driving the first transmission gear 32 to drive the first rotating rod 30 to rotate, so that the first bevel gear 31 drives the first connecting rod 33 to rotate, so that the first connecting rod 33 drives the second connecting rod 42 to rotate through the belt pulley 34, thereby driving the first threaded rod 38 to rotate through the second bevel gear 43, so that the first baffle 40 moves downwards into the through groove 39 to seal the through groove 39, and then the telescopic end of the first electric telescopic rod 13 pushes the drill bit 16 to punch, the generated dust is drawn into the inside of the collection box 18 and collected by the filter plate 19;

s3: after drilling is completed, grouting and anti-blocking operation is carried out through the detection groove 46; the air pump 17 is turned off, at the moment, the first connecting spring 24 pushes the first blocking plug 22 to move downwards, then the first rack 27 moves downwards, the first threaded rod 38 rotates reversely, the first blocking plate 40 moves towards the inside of the accommodating groove 37, the through groove 39 is opened, then the telescopic end of the first electric telescopic rod 13 drives the drill bit 16 to move in a resetting mode, then the telescopic end of the second electric telescopic rod 15 pushes the pump 80 to move, the pump 80 is inserted into a drilled hole for grouting, then the pump 80 is started, liquid in the liquid tank 79 is pumped out through the elastic pipe for grouting, and then the output end of the second electric telescopic rod 15 drives the pump 80 to move in a resetting mode;

s4: the working box 70 is pulled up to move the device; the telescopic end of the fourth electric telescopic rod 64 drives the working box 70 to reset and move, then the output end of the driving motor 5 drives the screw rod 4 to reset and rotate, so that the push plate 6 drives the fixed block 8 to move upwards, and meanwhile, the output end of the fourth servo motor 73 drives the winding roller 74 to rotate, so that the hose 60 is wound outside the winding roller 74.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A dyke plugging device for hydraulic engineering construction, includes locomotive (1), its characterized in that: two connecting plates (2) are installed at the top of the moving vehicle (1), limiting plates (7) are arranged on two sides of the moving vehicle (1), fixed blocks (8) are arranged at the bottoms of the limiting plates (7), a limiting plate (65) is arranged at one end of each fixed block (8), two fourth electric telescopic rods (64) are arranged on one side of each limiting plate (65), a working box (70) is arranged at the telescopic end of each fourth electric telescopic rod (64), a working groove (71) is formed in the working box (70), a moving assembly is arranged in the inner cavity of each working groove (71), a fixed plate (12) is installed on the moving assembly, a mounting plate (14) is installed on one side of the fixed plate (12), a first electric telescopic rod (13) is installed on one side of the mounting plate (14), the telescopic end of the first electric telescopic rod (13) extends to the outer side of the mounting plate (14) and is provided with a drill bit (16), liquid box (79) is installed on one side of mounting plate (14) and above first electric telescopic handle (13), protective barrel (35) is installed on one side of mounting plate (14), storage chamber (36) has been seted up to protective barrel (35) inside, second electric telescopic handle (15) is installed to one side of mounting plate (14), the flexible end of second electric telescopic handle (15) extends to storage chamber (36) inside and is provided with pump machine (80), be connected through the elastic tube between liquid box (79) and pump machine (80), the inside below that just is located work groove (71) of work box (70) is provided with liquid pump (44), the one end of liquid pump (44) extends to inside work groove (71), inside and the one side that is located liquid pump (44) of work box (70) has seted up air discharge duct (45), the inside holding tank (55) that is provided with of work box (70), the one end of holding tank (55) extends to inside detecting groove (46), the bottom of holding tank (55) extends to the below of work box (70), one side of work box (70) is provided with the sealing washer.

2. An embankment block device for hydraulic engineering construction according to claim 1, wherein: the air pump type dust collector is characterized in that a collecting box (18) is installed at the bottom of the mounting plate (14), an air pump (17) is installed on one side of the collecting box (18), one end of the air pump (17) extends into the collecting box (18), a filter plate (19) is installed inside the collecting box (18), an exhaust head (20) is installed on one side of the collecting box (18), a trigger pipe (21) is installed at the top of the exhaust head (20), an exhaust pipe (25) is installed on one side of the trigger pipe (21), a first blocking plug (22) is connected to the inner cavity of the trigger pipe (21) in a sliding mode, a first connecting rod (23) is installed at the top of the first blocking plug (22), a fixed barrel (26) is arranged at the top of the trigger pipe (21), a first connecting spring (24) is sleeved on the outer side, located on the first connecting rod (23), the top of the first connecting rod (23) extends into the fixed barrel (26) and is provided with a first rack (27), the inner cavity of the fixed cylinder (26) is rotatably connected with a first rotating rod (30), a first transmission gear (32) is sleeved on the outer side of the first rotating rod (30), the first transmission gear (32) is meshed with a first rack (27) to be connected, a first linkage rod (33) is rotatably connected to one side of the inner cavity of the fixed cylinder (26), the first linkage rod (33) and the first rotating rod (30) are both sleeved with a first bevel gear (31), the first bevel gear (31) is meshed with each other, one end of the first linkage rod (33) extends to the inside of the fixed plate (12) and is rotatably connected with the inner cavity of the fixed plate (12), the inner cavity of the fixed plate (12) is rotatably connected with a second linkage rod (42), a belt pulley (34) is sleeved on the outer sides of the second linkage rod (42) and the first linkage rod (33), and the belt pulleys (34) are connected through belt transmission, the inside one side that just is located storage chamber (36) of a protection section of thick bamboo (35) has been seted up and has been accomodate groove (37), it is connected with first threaded rod (38) to accomodate groove (37) inner chamber rotation, the equal threaded connection in the outside of first threaded rod (38) has first baffle (40), logical groove (39) have been seted up to one side of a protection section of thick bamboo (35), the bottom of first baffle (40) all extends to inside logical groove (39), transmission groove (41) have been seted up to a protection section of thick bamboo (35) inside, the one end of second trace (42) extends to inside transmission groove (41), the top of first threaded rod (38) extends to inside transmission groove (41), the outside of second trace (42) and first threaded rod (38) all is equipped with and is equipped with gear (43), two the meshing is connected between second bevel gear (43).

3. An embankment block device for hydraulic engineering construction according to claim 1, wherein: the winding device is characterized in that a winding box (72) is installed at the top of the limiting plate (7), a fourth servo motor (73) is installed on one side of the winding box (72), an inner cavity of the winding box (72) is connected with a winding roller (74) in a rotating mode, the output end of the fourth servo motor (73) is connected with one end of the winding roller (74), a hose (60) is wound on the outer side of the winding roller (74), a fixed pipe (76) is arranged inside the winding roller (74), one end of the hose (60) is connected with one end of the fixed pipe (76), the other end of the fixed pipe (76) is connected with one end of a rotary joint (77) installed on one side of the winding box (72), and the bottom end of the hose (60) extends to the inside of the working box (70) and is provided with a connecting head (58).

4. An embankment block device for hydraulic engineering construction according to claim 1, wherein: the device is characterized in that a liquid pump (44) is arranged in a working tank (70) and located in a working groove (71), an exhaust groove (45) is formed in one side of the liquid pump (44) in the working tank (70), one end of the liquid pump (44) extends into the exhaust groove (45), a detection groove (46) is formed in the upper portion of the exhaust groove (45) in the working tank (70), a second baffle plug (48) is connected to the inner cavity of the detection groove (46) in a sliding mode, a second connecting rod (47) is installed at the top of the second baffle plug (48), a moving groove (50) is formed in the working tank (70), the top end of the second connecting rod (47) extends into the moving groove (50) and is provided with a second rack (78), a second rotating rod (51) is connected to one side of the inner cavity of the moving groove (50) in a rotating mode, a second transmission gear (53) is sleeved on the outer side of the second rotating rod (51), the second transmission gear (53) is matched with the second rack (78), the top of the inner cavity of the moving groove (50) is rotatably connected with a third linkage rod (54), the bottom end of the third linkage rod (54) and the outer side of the second rotating rod (51) are respectively sleeved with a third bevel gear (52), the outer sides of the two third bevel gears (52) are respectively sleeved with a third bevel gear (52), the two third bevel gears (52) are mutually meshed and connected, a storage groove (55) is formed in the work box (70), the top end of the third linkage rod (54) extends into the storage groove (55), the inner cavity of the storage groove (55) is rotatably connected with a threaded shaft (56), the outer sides of the third linkage rod (54) and the threaded shaft (56) are respectively sleeved with a fourth bevel gear (57), and the two fourth bevel gears (57) are mutually meshed and connected, the outside of threaded shaft (56) all threaded connection have second baffle (59), the outside threaded connection of threaded shaft (56) has second baffle (59), the one end of second baffle (59) extends to inside connector (58), it has second connecting spring (49) to detect inside its outside sliding connection who is located second connecting rod (47) of groove (46).

5. An embankment block device for hydraulic engineering construction according to claim 1, wherein: the top of work groove (71) inner chamber is provided with second servo motor (63), the output of second servo motor (63) is provided with second threaded rod (61), the outside threaded connection of second threaded rod (61) has first slider (62), the one end of first slider (62) is provided with second guide rail (66), the inner chamber of second guide rail (66) rotates and is connected with third threaded rod (68), the equal threaded connection in outside of third threaded rod (68) has second slider (69), the one end of second slider (69) is connected with one side of fixed plate (12), third servo motor (67) is installed to one side of second guide rail (66), the output of third servo motor (67) is connected with the one end of third threaded rod (68).

6. An embankment block device for hydraulic engineering construction according to claim 1, wherein: upright rail (3) are all installed to one side of connecting plate (2), the top of upright rail (3) is provided with driving motor (5), the output of driving motor (5) all extends to upright rail (3) inside and is provided with lead screw (4), the equal threaded connection in the outside of lead screw (4) has push pedal (6), the bottom of push pedal (6) all is connected with the top of fixed block (8) through the connecting rod.

7. An embankment block device for hydraulic engineering construction according to claim 1, wherein: rotation platform (9) is all installed to one side of fixed block (8), the middle part of rotating platform (9) all rotates and is connected with turning block (11), first servo motor (10) are all installed to one side of rotating platform (9), the output of first servo motor (10) all is connected with one side of turning block (11), the one end of turning block (11) all is connected with one side of limiting plate (65).

8. A method for plugging an embankment for hydraulic engineering construction is characterized by comprising the following steps:

s1: pushing the moving vehicle (1) up to the dike, attaching the working box (70) to a position needing anti-blocking, and discharging water in the working box (70);

s2: adjusting the position of the drill bit (16), punching by the drill bit (16), and collecting dust generated by punching;

s3: after drilling is finished, grouting and anti-blocking operation is carried out through the detection groove (46);

s4: the work box (70) is pulled up to move the device.