CN115898267A

CN115898267A - Anchoring and drilling device and system for slope reinforcement construction

Info

Publication number: CN115898267A
Application number: CN202211466323.0A
Authority: CN
Inventors: 郝珖存; 董志良; 张子鸣
Original assignee: CCCC Fourth Harbor Engineering Institute Co Ltd
Current assignee: CCCC Fourth Harbor Engineering Institute Co Ltd
Priority date: 2022-11-22
Filing date: 2022-11-22
Publication date: 2023-04-04

Abstract

The invention discloses an anchoring drilling device and system for slope reinforcement construction, wherein the anchoring drilling device comprises a winding and unwinding assembly, a transmission assembly and an operation assembly, the winding and unwinding assembly is in transmission connection with the operation assembly through the transmission assembly so as to drive the operation assembly to reach and stay in a slope region of a target slope operation region, the winding and unwinding assembly and the transmission assembly are fixedly arranged at the top end of the target slope operation region, the operation assembly is arranged in the slope region of the target slope operation region, and the operation assembly is used for drilling rock and soil mass in the slope region. The invention can carry out the retracting operation system, realizes the drilling operation at different positions, improves the convenience of the operation and effectively improves the working efficiency. And each independent operation system can be freely and movably controlled, so that drilling operation can be carried out by one or more operation systems according to the operation requirement scale, independent control of each operation part is realized, the operation flexibility is greatly increased, and the method has wide application value.

Description

Anchoring and drilling device and system for slope reinforcement construction

Technical Field

The invention relates to the technical field of side slope drilling devices, in particular to an anchoring drilling device and system for side slope reinforcement construction.

Background

The research object of geotechnical engineering is a complex geologic body, and in a long geological age, a large number of geological defects such as faults, bedding, joints, weak interlayers, ditches, dissolving tanks and the like are formed due to the actions of geologic structure movement, natural weathering, human activities and the like. Under certain time and conditions, the rock-soil body may be in a relatively stable equilibrium state; if the conditions change, the original balance state can be damaged, for example, in the excavation and construction process of geotechnical engineering, the original stress field is redistributed, so that the deformation of the rock-soil body is caused, and further, geological disasters such as collapse, rock burst, landslide, ground subsidence and the like are generated. In order to prevent and treat such disasters, the engineering often embeds the tension member into the rock-soil mass to mobilize and improve the self-strength and self-stability of the rock-soil mass, namely, the anchoring engineering.

In order to embed the tension rods into the rock-soil mass, the rock-soil mass needs to be drilled so that the tension rods can be bought into the holes. For slope-shaped side slopes, in the side slope anchoring construction under the drill holes of the slope-shaped side slopes, the operation environment foundation is poor, the drill hole stability is poor, the existing processing scheme often needs large-scale equipment to assist in providing an operation platform, the construction process is complex, the efficiency is low, and therefore the drilling device which is convenient, efficient and low in construction cost is needed.

Disclosure of Invention

In view of the deficiencies of the prior art, it is an object of the present invention to provide an anchoring and drilling device for slope reinforcement construction, which can solve the problems described in the background art;

it is another object of the present invention to provide an anchoring drilling system for slope reinforcement construction, which can solve the problems described in the background art.

The technical scheme for realizing one purpose of the invention is as follows: the utility model provides a slope reinforcement is anchor drilling equipment for construction, is including receiving and releasing roll subassembly, drive assembly and operation subassembly, receives and releases roll subassembly and is connected with the operation subassembly transmission through drive assembly to drive operation subassembly and arrive and stop in the slope region of target slope operation region, receive and release roll subassembly and the equal fixed mounting of drive assembly at the top of target slope operation region, the operation subassembly is installed in the slope region of target slope operation region, the operation subassembly is used for boring drilling operation to the regional ground body of slope.

Furthermore, receive and release the roll subassembly and include first motor and external gear axle, first motor and external gear axle transmission are connected, and first motor is used for driving the external gear axle and rotates, and the external gear axle is unsettled through the erection support and is installed on the regional top of target side slope operation to the external gear axle can rotate on the regional top of target side slope operation, and the external gear axle meshes with drive assembly.

Further, a first motor is installed at one end of the outer gear shaft and connected with one end of the outer gear shaft, the first motor is installed on the installation supports, an output shaft of the first motor is fixedly connected with one end of the outer gear shaft, the other end of the outer gear shaft is rotatably installed on the other installation support, and the two installation supports are fixedly installed at the top end of the target slope operation area at intervals.

Further, transmission assembly includes first driven gear, second driven gear, spool and support, first driven gear and second driven gear interval ground movable mounting parallel on the support, and first driven gear and the equal relatively movable mounting of second driven gear rotate, the one end fixed connection of first driven gear and spool, the other end and the second driven gear fixed connection of spool, whole spool cover is established on the support, first driven gear and second driven gear all with external gear shaft meshing, the spool is connected with the operation subassembly.

Furthermore, the first driven gear and the second driven gear are respectively sleeved and fixed at two ends of the reel, the reel is connected with the operation assembly through the connecting piece, one end of the connecting piece is wound on the reel, and the other end of the connecting piece is fixedly connected with the operation assembly.

Furthermore, the operation assembly comprises a plurality of guide rails, a moving assembly and a drilling assembly, the guide rails are arranged in parallel and fixedly installed in the side slope area at intervals and extend along the slope of the side slope area, the moving assembly is installed on the guide rails and can move along the guide rails, so that the moving assembly can move along the guide rails to any position of the bottom side slope area, the drilling assembly is fixedly installed on the moving assembly, the drilling assembly is used for drilling and drilling rock and soil mass in the side slope area,

the other end of the connecting piece is fixedly connected with the moving assembly, so that the first motor drives the outer gear shaft, the first driven gear and the second driven gear to rotate, the connecting piece is retracted and retracted, the moving assembly is driven to be close to or far away from the transmission assembly, and the moving assembly is driven to reach any position of a slope region.

Further, the moving assembly comprises a base, a mounting seat, a mounting plate, a second motor, a screw rod, pulleys, a pull rod and a hydraulic rod, wherein a plurality of pulleys are arranged, each pulley is fixedly distributed at one end of the base, the fixed end of the hydraulic rod is arranged at the other end of the base, the movable end of the hydraulic rod is connected with one end of the mounting seat, the other end of the mounting seat is movably arranged on the base to drive the mounting seat to obliquely approach or separate from the base, one end of the mounting seat is fixedly connected with the mounting plate, one end of the mounting plate, which is opposite to the mounting seat, is fixedly connected with the second motor, the output shaft of the second motor is connected with the screw rod to drive the screw rod to rotate, one end of the screw rod is rotatably arranged on the mounting plate, the other end of the screw rod is rotatably arranged on the mounting seat, the screw rod is arranged along the axial direction of the mounting seat, the drilling assembly is sleeved on the screw rod, so that the drilling assembly slides along the screw rod when the second motor drives the screw rod to rotate,

the pull rod is fixedly arranged at one end of the base, and the other end of the connecting piece is fixedly arranged on the pull rod.

Further, the moving assembly further comprises a guide rod, a connecting block and an auxiliary guide rail, one end of the guide rod is fixedly installed at one end of the base where the pulley is located, the other end of the guide rod is connected with the connecting block, the auxiliary guide rail is paved in a side slope area and is arranged at intervals with the guide rail, and the connecting block is used for limiting the guide rail in a sliding mode, so that the stability of the operating system in the process of moving the side slope area is further enhanced.

Further, the drilling assembly comprises a sliding sleeve plate, a telescopic cylinder, a third motor, a drill rod and a hydraulic chuck, wherein the telescopic cylinder, the third motor, the drill rod and the hydraulic chuck are installed on the sliding sleeve plate, the sliding sleeve plate is sleeved on the lead screw, so that the drilling assembly can move along the lead screw in the rotating process of the lead screw, the telescopic cylinder is fixed on the sliding sleeve plate, an output shaft of the telescopic cylinder is connected with the third motor, an output shaft of the third motor is connected with the drill rod through the hydraulic chuck, and the third motor is used for driving the drill rod to rotate.

The second technical scheme for realizing the aim of the invention is as follows: the utility model provides an anchor drilling system is used in slope reinforcement construction, includes a plurality of slide rail seat and a plurality of anchor drilling equipment is used in slope reinforcement construction, and each anchor drilling equipment is used in slope reinforcement construction corresponds a slide rail seat, slide rail seat fixed mounting on the top in target slope operation region, each the anchor drilling equipment sharing one is used in slope reinforcement construction receive and releases the book subassembly, and the last support mounting of drive assembly is on the slide rail seat to can slide along the slide rail seat, so that external force can drive the drive assembly and keep away from or be close to the pinion shaft, thereby control drive assembly separation or mesh pinion shaft, thereby each anchor drilling equipment is used in slope reinforcement construction of independent control.

Further, still be provided with fixed mouthful on the slide rail seat, the support includes connecting rod and support column, the spool cover is established on the connecting rod and the cover is established on the support, the width of fixed mouthful is greater than the width of the support column of support, the support column of support can slide in the fixed mouthful under the exogenic action, the fixed mouthful is used for restricting the support and removes, after the support removes and makes two driven gear and outer gear shaft meshing on the slide rail seat, external force removes the support column to the fixed mouthful and receives the restriction, avoided the support free slip in the slide rail and influenced the meshing of two driven gear and outer gear shaft.

The invention has the beneficial effects that: the invention adopts the linkage structure of the motor, the outer gear shaft and the two driven gears, can conveniently and quickly receive and release the operating system, can realize the drilling operation at different positions of a side slope area, improves the convenience of the operation and effectively improves the working efficiency. And each independent operation system can be freely and movably controlled, so that drilling operation can be carried out by one or more operation systems according to the operation requirement scale, independent control of each operation part is realized, the operation flexibility is greatly increased, and the method has wide application value.

Drawings

FIG. 1 is a schematic view of a winding and unwinding assembly mounted on a side slope;

FIG. 2 is a schematic view of a structure of a transmission member mounted on a slide rail;

FIG. 3 is a schematic view of the working assembly with the drilling assembly concealed;

FIG. 4 is a schematic structural view of the drilling assembly;

in the figure, 4-auxiliary guide rail, 11-first motor, 12-external gear shaft, 13-first driven gear, 14-scroll, 15-second driven gear, 16-bracket, 161-connecting rod, 162-supporting column, 17-connecting piece, 18-guide rail, 19-slide rail seat, 191-fixed port, 21-base, 211-guide rod, 212-connecting block, 22-mounting seat, 23-mounting plate, 24-second motor, 25-lead screw, 26-pulley, 27-pull rod, 28-hydraulic rod, 29-telescopic cylinder, 31-sliding sleeve plate, 32-third motor, 33-drill rod and 34-hydraulic chuck.

Detailed Description

The invention is further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1 to 4, an anchoring and drilling device for slope reinforcement construction includes a reel assembly, a transmission assembly and an operation assembly, wherein the reel assembly is in transmission connection with the operation assembly through the transmission assembly so as to drive the operation assembly to reach and stay in a slope (also a slope) region of a target slope operation region. The coiling and uncoiling assembly and the transmission assembly are fixedly installed at the top end of the target slope operation area, and the operation assembly is installed in the slope area of the target slope operation area. The winding and unwinding assembly comprises a first motor 11 and an outer gear shaft 12, the first motor 11 is in transmission connection with the outer gear shaft 12, and the first motor 11 is used for driving the outer gear shaft 12 to rotate. In practical applications, the external gear shaft 12 is disposed along the length direction of the top end of the target slope working area and suspended at the top end of the target slope working area through a mounting bracket (not shown), so that the external gear shaft 12 can rotate at the top end of the target slope working area. The outer gear shaft 12 is meshed with the transmission assembly, so that the transmission assembly can be driven to rotate, and the operation assembly can be driven to move through the transmission assembly and stay at a corresponding position in the target slope operation area.

In an alternative embodiment, the first motor 11 is mounted at one end of the outer gear shaft 12 and connected with one end of the outer gear shaft 12, the first motor 11 is mounted on a mounting support, the output shaft of the first motor 11 is fixedly connected with one end of the outer gear shaft 12, the other end of the outer gear shaft 12 is rotatably mounted on another mounting support, and the two mounting supports are fixedly mounted at the top end of the target slope working area at intervals.

The transmission assembly comprises a first driven gear 13, a second driven gear 15, a reel 14 and a bracket 16, wherein the first driven gear 13 and the second driven gear 15 are movably mounted on the bracket 16 at intervals in parallel, and both the first driven gear 13 and the second driven gear 15 can rotate relative to the bracket 16. The first driven gear 13 is fixedly connected with one end of the reel 14, the other end of the reel 14 is fixedly connected with the second driven gear 15, and the whole reel 14 is sleeved on the support 16, so that in the process that the first driven gear 13 and the second driven gear 15 synchronously drive the reel 14 to rotate, the first driven gear 13, the second driven gear 15 and the reel 14 synchronously rotate relative to the support 16. The first driven gear 13 and the second driven gear 15 are engaged with the external gear shaft 12, so that the first motor 11 can drive the first driven gear 13 and the second driven gear 15 to rotate through the external gear shaft 12, and further drive the working component connected with the reel 14 to move and stay at a corresponding position through the reel 14.

In an alternative embodiment, the first driven gear 13 and the second driven gear 15 are respectively sleeved and fixed at both ends of the winding shaft 14. That is, both ends of the reel 14 are inserted into through holes at the centers of the first driven gear 13 and the second driven gear 15, respectively. The reel 14 is connected with the operation assembly through a connecting piece 17, one end of the connecting piece 17 is wound on the reel 14, and the other end of the connecting piece 17 is fixedly connected with the operation assembly, so that the connecting piece 17 is wound on the reel 14 continuously by rotating the reel 14 and retracting the connecting piece 17, and the operation assembly is driven to move and stay in a slope area.

The connecting member 17 may be a rope or other flexible connecting member that can be wound around the reel 14.

The operation assembly comprises a plurality of guide rails 18, a moving assembly and a drilling assembly, wherein the guide rails 18 are arranged, each guide rail 18 is fixedly arranged in the side slope area at intervals in parallel and extends along the slope of the side slope area, and the moving assembly is arranged on the guide rails 18 and can move along the guide rails 18, so that the moving assembly can move along the guide rails 18 to any position of the bottom side slope area. The drilling component is fixedly installed on the moving component and used for drilling rock and soil bodies in the side slope region, and the drilling component moves synchronously along with the moving component and can perform drilling operation on any position of the side slope region.

The other end of the connecting piece 17 is fixedly connected with the moving assembly, so that the first motor 11 drives the outer gear shaft 12, the first driven gear 13 and the second driven gear 15 to rotate, and then the connecting piece 17 is retracted and released, so that the moving assembly is driven to be close to or far away from the transmission assembly (namely close to or far away from the top end of the target slope operation area), and the moving assembly can be driven to reach any position of the slope area.

Wherein the moving assembly is removably mounted to the guide rail 18 so that the moving assembly can be removed from the guide rail 18 when drilling operations are not required and reinstalled on the guide rail 18 when drilling operations are required. The moving assembly comprises a base 21, a mounting seat 22, a mounting plate 23, a second motor 24, a screw rod 25, a pulley 26, a pull rod 27 and a hydraulic rod 28. The pulleys 26 are provided in plurality, each pulley 26 is distributed and fixed at one end of the base 21, the fixed end of the hydraulic rod 28 is installed at the other end of the base 21, the movable end (i.e. the output end) of the hydraulic rod 28 is connected with one end of the installation seat 22, and the other end of the installation seat 22 is movably installed on the base 21 to drive the installation seat 22 to obliquely approach or depart from the base 21. That is, under the action of the hydraulic rod 28, one end of the mounting seat 22 rotates relative to the base 21 to adjust the inclination of the mounting seat 22, that is, the included angle between the mounting seat 22 and the base 21 is adjusted. One end of the mounting seat 22 is fixedly connected with the mounting plate 23, one end of the mounting plate 23, which is opposite to the mounting seat 22, is fixedly connected with the second motor 24, and an output shaft of the second motor 24 is connected with the screw rod 25 so as to drive the screw rod 25 to rotate. One end of the screw 25 is rotatably mounted on the mounting plate 23, and the other end is rotatably mounted on the mounting seat 22, and the screw 25 is disposed along the axial direction (i.e., the longitudinal direction) of the mounting seat 22. The drilling component is sleeved on the screw rod 25, so that the second motor 24 drives the screw rod 25 to rotate, the drilling component slides along the screw rod 25, the position of the drilling component can be finely adjusted, the position of the drilling component on the moving component can be further adjusted after the operation component stops at the current position of the slope region, and the drilling operation is further finely adjusted on the corresponding position of the slope region by the drilling component.

The pull rod 27 is fixedly arranged at one end of the base 21, and the other end of the connecting piece 17 is fixedly arranged on the pull rod 27, so that the connecting piece 17 can drive the moving component to move in the retracting process.

In an alternative embodiment, the moving assembly further includes a guide rod 211, a connecting block 212 and an auxiliary guide rail 4, one end of the guide rod 211 is fixedly installed at one end of the base 21 where the pulley 26 is located, the other end of the guide rod 211 is connected with the connecting block 212, the auxiliary guide rail 4 is laid in the slope region and is spaced apart from the guide rail 18, and the connecting block 212 is used for being slidably limited on the auxiliary guide rail 4, so as to further enhance the stability of the operating system during the movement of the slope region.

The drilling assembly comprises a sliding sleeve plate 31, a telescopic cylinder 29 installed on the sliding sleeve plate 31, a third motor 32, a drill rod 33 and a hydraulic chuck 34, the sliding sleeve plate 31 is sleeved on the screw rod 25, so that the drilling assembly can move along the screw rod 25 in the rotating process of the screw rod 25, the telescopic cylinder 29 is fixed on the sliding sleeve plate 31, an output shaft of the telescopic cylinder 29 is connected with the third motor 32, an output shaft of the third motor 32 is connected with the drill rod 33 through the hydraulic chuck 34, the third motor 32 is used for driving the drill rod 33 to rotate, and the drill rod 33 can rotate in the rock and soil body to form a drill hole. By means of the hydraulic chucks 34, the drill rods 33 can be detached and mounted from the motor conveniently and quickly, i.e. it is convenient to replace different drill rods 33. The telescopic cylinder 29 can drive the motor to move on the sliding sleeve plate 31, so that the drill rod 33 can perform drilling operation at different depths of the rock-soil body, and the requirements of different drilling depths can be met.

The invention also provides another embodiment, that is, provides an anchoring and drilling system for slope reinforcement construction, which includes a plurality of slide rail seats 19 and a plurality of anchoring and drilling devices for slope reinforcement construction, each anchoring and drilling device for slope reinforcement construction corresponds to one slide rail seat 19, the slide rail seats 19 are fixedly installed at the top end of a target slope operation area, each anchoring and drilling device for slope reinforcement construction shares one unwinding and winding assembly, that is, shares one first motor 11 and one external gear shaft 12, a bracket 16 on a transmission assembly is installed on the slide rail seat 19 and can slide along the slide rail seat 19, so that the transmission assembly is driven to be far away from or close to the external gear shaft 12 under the action of external force (for example, pushed by a hand), and thus the transmission assembly can be controlled to be separated from or meshed with the external gear shaft 12, each anchoring and drilling device for slope reinforcement construction can be controlled independently, so that operation of a single or a plurality of anchoring and drilling devices for slope reinforcement construction can be performed, and the scale formed by the anchoring and drilling devices for slope reinforcement construction can be performed according to the operation requirements.

Wherein, be provided with fixed mouth 191 on the slide rail seat 19, the width of fixed mouth 191 is greater than the width of the support column 162 of support 16, and support 16 includes connecting rod 161 and support column 162, and the spool cover is established on connecting rod 161 and is established on support 16, and support column 162 of support 16 can slide into in the fixed mouth 191 under the exogenic action, and fixed mouth 191 is used for restricting support 16 to remove. When the support 16 moves on the slide rail seat 19 to engage the two driven gears with the external gear shaft 12, the support column 162 is moved into the fixing opening 191 by external force to be limited, so that the support 16 is prevented from freely sliding in the slide rail to affect the engagement of the two driven gears with the external gear shaft 12, including the degree of engagement and separation caused by disengagement.

The invention adopts the linkage structure of the motor, the external gear shaft 12 and the two driven gears, can conveniently and quickly carry out the retraction operation system, can realize the drilling operation at different positions of the side slope area, improves the convenience of the operation and effectively improves the working efficiency. And each independent operation system can be freely and movably controlled, so that drilling operation can be carried out by one or more operation systems according to the operation requirement scale, independent control of each operation part is realized, the operation flexibility is greatly increased, and the method has wide application value.

The embodiments disclosed in this description are only an exemplification of the single-sided characteristics of the invention, and the scope of protection of the invention is not limited to these embodiments, and any other functionally equivalent embodiments fall within the scope of protection of the invention. Various other changes and modifications to the above-described embodiments and concepts will become apparent to those skilled in the art from the above description, and all such changes and modifications are intended to be included within the scope of the present invention as defined in the appended claims.

Claims

1. The anchoring drilling device is characterized by comprising a winding and unwinding assembly, a transmission assembly and an operation assembly, wherein the winding and unwinding assembly is in transmission connection with the operation assembly through the transmission assembly to drive the operation assembly to reach and stop in a slope region of a target slope operation region, the winding and unwinding assembly and the transmission assembly are fixedly installed at the top end of the target slope operation region, the operation assembly is installed in the slope region of the target slope operation region, and the operation assembly is used for drilling a rock-soil body in the slope region.

2. The anchoring and drilling device for slope reinforcement construction according to claim 1, wherein the winding and unwinding assembly comprises a first motor and an outer gear shaft, the first motor is in transmission connection with the outer gear shaft, the first motor is used for driving the outer gear shaft to rotate, the outer gear shaft is suspended at the top end of the target slope operation area through a mounting support, so that the outer gear shaft can rotate at the top end of the target slope operation area, the outer gear shaft is meshed with the transmission assembly,

the first motor is installed at one end of the outer gear shaft and connected with one end of the outer gear shaft, the first motor is installed on the installation support, an output shaft of the first motor is fixedly connected with one end of the outer gear shaft, the other end of the outer gear shaft is rotatably installed on the other installation support, and the two installation supports are fixedly installed at the top end of the target slope operation area at intervals.

3. The anchoring and drilling device for slope reinforcement construction according to claim 2, wherein the transmission assembly comprises a first driven gear, a second driven gear, a reel and a bracket, the first driven gear and the second driven gear are movably mounted on the bracket at intervals in parallel, the first driven gear and the second driven gear can rotate relative to the bracket, the first driven gear is fixedly connected with one end of the reel, the other end of the reel is fixedly connected with the second driven gear, the whole reel is sleeved on the bracket, the first driven gear and the second driven gear are both meshed with the external gear shaft, and the reel is connected with the operation assembly.

4. The anchoring and drilling device for slope reinforcement construction according to claim 3, wherein the first driven gear and the second driven gear are respectively sleeved and fixed at both ends of the reel, the reel is connected with the working assembly through a connecting member, one end of the connecting member is wound around the reel, and the other end is fixedly connected with the working assembly.

5. The anchoring drilling device for slope reinforcement construction according to claim 4, wherein the working unit includes a plurality of guide rails, each of which is fixedly installed in the slope region at a parallel interval and extends along a slope of the slope region, a moving unit installed on the guide rails and movable along the guide rails so that the moving unit can move along the guide rails to an arbitrary position in the bottom slope region, and a drilling unit fixedly installed on the moving unit for drilling a rock-soil mass in the slope region,

the other end of the connecting piece is fixedly connected with the moving assembly, so that the first motor drives the outer gear shaft, the first driven gear and the second driven gear to rotate, the connecting piece is retracted and extended, the moving assembly is driven to be close to or far away from the transmission assembly, and the moving assembly is driven to reach any position of a slope region.

6. The anchoring and drilling device for slope reinforcement construction according to claim 5, wherein the moving assembly comprises a base, a mounting seat, a mounting plate, a second motor, a screw rod, a plurality of pulleys, a pull rod and a hydraulic rod, the pulleys are distributed and fixed at one end of the base, a fixed end of the hydraulic rod is mounted at the other end of the base, a movable end of the hydraulic rod is connected with one end of the mounting seat, the other end of the mounting seat is movably mounted on the base to drive the mounting seat to obliquely approach or depart from the base, one end of the mounting seat is fixedly connected with the mounting plate, one end of the mounting plate opposite to the mounting seat is fixedly connected with the second motor, an output shaft of the second motor is connected with the screw rod to drive the screw rod to rotate, one end of the screw rod is rotatably mounted on the mounting plate, the other end of the screw rod is rotatably mounted on the mounting seat, the screw rod is arranged along the axial direction of the mounting seat, the drilling assembly is sleeved on the screw rod, so that the drilling assembly slides along the screw rod when the screw rod is driven by the second motor to rotate,

7. The anchoring and drilling device for slope reinforcement construction according to claim 6, wherein the moving assembly further comprises a guide rod, a connecting block and an auxiliary guide rail, one end of the guide rod is fixedly installed at one end of the base where the pulley is located, the other end of the guide rod is connected with the connecting block, the auxiliary guide rail is laid in the slope region and is arranged at an interval with the guide rail, and the connecting block is used for being limited on the auxiliary guide rail in a sliding manner, so that the stability of the operation system in the process of moving the slope region is further enhanced.

8. The anchoring and drilling device for slope reinforcement construction according to claim 7, wherein the drilling assembly comprises a sliding sleeve plate, and a telescopic cylinder, a third motor, a drill rod and a hydraulic chuck which are arranged on the sliding sleeve plate, the sliding sleeve plate is sleeved on the screw rod, so that the drilling assembly can move along the screw rod during rotation of the screw rod, the telescopic cylinder is fixed on the sliding sleeve plate, an output shaft of the telescopic cylinder is connected with the third motor, an output shaft of the third motor is connected with the drill rod through the hydraulic chuck, and the third motor is used for driving the drill rod to rotate.

9. An anchoring drilling system for slope reinforcement construction, comprising a plurality of slide rail seats and a plurality of anchoring drilling devices for slope reinforcement construction according to any one of claims 1 to 8, wherein each anchoring drilling device for slope reinforcement construction corresponds to one slide rail seat, the slide rail seats are fixedly arranged at the top end of a target slope operation area, each anchoring drilling device for slope reinforcement construction shares a reel assembly, a support on a transmission assembly is arranged on the slide rail seat and can slide along the slide rail seat, so that the transmission assembly can be driven by external force to be far away from or close to an external gear shaft, and the transmission assembly is controlled to be separated from or meshed with the external gear shaft, and each anchoring drilling device for slope reinforcement construction is controlled independently.

10. The anchoring drilling system for slope reinforcement construction according to claim 9, wherein the slide rail seat is further provided with a fixing port, the support includes a connecting rod and a supporting column, the reel is sleeved on the connecting rod and sleeved on the support, the width of the fixing port is greater than that of the supporting column of the support, the supporting column of the support can slide into the fixing port under the action of external force, the fixing port is used for limiting the movement of the support, after the support moves on the slide rail seat to enable the two driven gears to be meshed with the outer gear shaft, the external force moves the supporting column into the fixing port to be limited, and the support is prevented from freely sliding in the slide rail to affect the meshing of the two driven gears and the outer gear shaft.