CN110805087A - 5G communication tower circuit laying equipment - Google Patents

Abstract

The invention discloses a 5G communication tower line laying device which structurally comprises a transmission case, wherein a side case is fixedly arranged on the rear end face of the transmission case, a bottom plate is fixedly arranged on the lower end face of the transmission case, an inner cavity is formed in the transmission case, a plurality of side rotary drum devices used for pushing soil to two sides are arranged on the upper end face of the transmission case, a front side rotary drum device which is positioned in the transmission case and used for excavating the soil on the front side is arranged on the front side of each side rotary drum device, and the design of the side rotary drum devices and the front side rotary drum device is adopted, so that the device can efficiently excavate a groove in the 5G communication pipeline erecting process under the condition that the device can move in a matched manner with mobile equipment, and the subsequent landfill process is facilitated.

Description

5G communication tower circuit laying equipment

Technical Field

The invention belongs to the technical field of 5G line laying equipment, and particularly relates to 5G communication tower line laying equipment.

Background

The defects of the prior art are that 5G communication lines are often erected by means of engineering equipment, the labor burden of the engineering equipment is increased to a great extent, the line laying cost is increased, the repeated landfill process is complicated after soil excavation, and efficient and rapid trench excavation cannot be performed. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document discloses a communication cable line laying support device [ application No.: 201621231191.3] comprises a device for preventing the insulating layer from being damaged by mopping, and is characterized in that the middle part of the bottom plate is arranged on the hydraulic column of the jack, one end of the vertical plate is vertically arranged on one side of the bottom plate, one end of the inclined plate is arranged on the other side of the bottom plate and is on a horizontal line with the vertical plate, an obtuse angle is formed between the inclined plate and the bottom plate, a through hole is formed in the middle part of the inclined plate, one end of the fixed rod is vertically arranged on the vertical plate and is positioned above the bottom plate, the auxiliary arc-shaped fixing frame is arranged on the other end of the fixed rod, two supporting blocks are respectively arranged on the upper side and the lower side of the inner side of the auxiliary arc-shaped fixing frame, two rollers are respectively arranged on the two supporting blocks on the inner side of the auxiliary arc-shaped fixing frame through rotating shafts, one end of the.

Above-mentioned scheme only carries out the supporting role to communication line, but does not realize slotting in earth and processing out the slot and come landfill 5G communication line pipeline, and single structure, the function is single, has reduced work efficiency.

Disclosure of Invention

The invention aims to solve the problems and provide equipment which has the advantages of efficiently digging a trench to facilitate the efficient installation of a 5G communication line and efficiently discharging soil to two sides to facilitate the subsequent landfill work.

The invention is realized by the following technical scheme: the invention relates to a 5G communication tower line laying device which comprises a transmission case, wherein a side case is fixedly arranged on the rear end face of the transmission case, a bottom plate is fixedly arranged on the lower end face of the transmission case, an inner cavity is arranged in the transmission case, a plurality of side rotary drum devices used for pushing soil to two sides are arranged on the upper end face of the transmission case, and a front rotary drum device which is positioned in the transmission case and used for excavating the soil on the front side is arranged on the front side of each side rotary drum device, so that grooves in the G line laying process can be efficiently excavated by the device, and the soil can be conveniently discharged to two sides.

According to the technical scheme, the side box structure further comprises symmetrical blocks which are fixedly arranged on the rear end face of the side box and symmetrically arranged, and open-ended round holes are formed in the symmetrical blocks, so that the round holes and the symmetrical blocks are convenient to install.

Further technical scheme, the side rotary drum device including set up with a plurality of mounting grooves that inner chamber intercommunication and symmetry set up, be provided with the conveyor components who pushes away earth and carry in the mounting groove to utilize conveyor components to deduce earth to both sides.

According to the technical scheme, the conveying assembly comprises an installation box fixed with the installation groove, an open-ended open cavity is formed in the installation box, a rotating cylinder is arranged between the open cavities in a rotating mode, a plurality of open circular grooves are formed in the outer surface of the rotating cylinder, and a driving structure for driving the rotating cylinder to rotate is arranged in the installation box, so that the rotating cylinder is driven to rotate by the driving structure.

Further technical scheme, drive structure drive including set up in the internal drive chamber in the install bin, the terminal surface has set firmly motor power under the install bin, motor power one side is provided with motor power, motor power one side power connection is provided with and is located the driving pulley in the internal drive chamber, the driving pulley upside be provided with the driven pulleys that internal drive chamber end wall normal running fit connects, driven pulleys with the rotary drum power is connected, driven pulleys and driving pulley surface winding are provided with driving belt, driving belt will driven pulleys and driving pulley power are connected, thereby utilize motor power drives make after the driving pulley rotates the indirect rotation of rotary drum.

Further technical scheme, the front side rotary drum device include with the baffle that the transmission case is fixed, the baffle front side is provided with digs the subassembly of moving of digging and getting out with the front side earth, digs to move the subassembly rear side and is provided with and is located baffle one side and drive are dug and are moved the power component that the subassembly carries out work to utilize above-mentioned subassembly to realize that the slot efficient is excavated.

According to a further technical scheme, the planing component comprises a side box fixed with the guide plate, an inner transmission cavity is arranged in the side box, bilaterally symmetrical fixed box bodies are fixedly arranged on the left end face and the right end face of the side box, a containing cavity is arranged in the fixed box bodies, a rotating connecting shaft is rotatably arranged between the left end wall and the right end wall of the inner transmission cavity, the rotating connecting shaft rotatably penetrates through the inner transmission cavity and extends into the containing cavity, a main rotating gear positioned in the containing cavity is fixedly arranged on the outer surface of the rotating connecting shaft, a plurality of externally meshed gears are arranged on the outer surface of the main rotating gear in a meshed mode, a power shaft is fixedly arranged in the externally meshed gears, the power shaft is rotatably matched and connected with the left end wall and the right end wall of the containing cavity, the power shaft rotatably penetrates through the fixed box bodies, a rotating wheel is fixedly arranged on the outer surface of the power shaft, and a front, the outer surface of the rotating wheel is provided with a plurality of convex teeth, so that efficient excavation of soil is realized by utilizing the structure.

According to a further technical scheme, the front excavating structure comprises a main rotary drum which is fixedly arranged on the outer surface of the power shaft and located between the fixed box bodies, and a plurality of helical teeth are arranged on the outer surface of the main rotary drum, so that the power shaft is utilized to drive the main rotary drum and the helical teeth to excavate soil.

According to the technical scheme, the power assembly comprises a fixed cylinder fixedly arranged in the end wall of the inner cavity, an inner through cavity which penetrates through the inner cavity is formed in the fixed cylinder, the fixed cylinder extends into the inner transmission cavity, a fixed side plate is fixedly arranged on the rear end face of the fixed cylinder, a plurality of circular shafts are fixedly arranged on the rear end face of the fixed side plate, a motor is fixedly arranged on the rear end face of each circular shaft, a transmission shaft is arranged in the motor in a power connection mode, penetrates through the inner through cavity and extends into the inner transmission cavity, a driving bevel gear is fixedly arranged on the outer surface of the transmission shaft, a side meshing bevel gear is arranged on the front side of the driving bevel gear in a meshing mode, and the side meshing bevel gear is fixed with a rotating connecting shaft, so that the rotating wheel and.

The invention has the beneficial effects that: the design of the side rotary drum device and the front side rotary drum device is adopted, so that the equipment can efficiently excavate the groove in the process of erecting the 5G communication pipeline and is convenient for the subsequent landfill process under the condition of matching motion of the equipment and the mobile equipment.

The above advantages are embodied in that the structural design of the symmetrical blocks and the round holes is utilized to facilitate the equipment to be matched with external space mobile equipment for use, the design of the power motor, the motor mounting plate, the driving belt wheel, the driven belt wheel and the rotating cylinder is utilized to efficiently discharge earth to two sides after excavation, so that the subsequent G communication pipeline landfill work is more convenient, the design advantages of the round grooves and the rotating cylinder are that the equipment can more efficiently discharge the earth to two sides according to the gradual change length of the mounting grooves with different sizes, the closed design of the transmission box, the side box and the bottom plate is utilized to greatly prolong the service life of the equipment, and the design modes of the main rotating gear, the power shaft, the external meshing gear, the rotating connecting shaft, the main rotating cylinder, the inclined teeth, the rotating wheel and the convex teeth are utilized to efficiently excavate and turn the earth on the front side and to the rear side by the rotating wheel and the main rotating cylinder with high efficiency Derivation, the design advantage in fixed section of thick bamboo and interior logical chamber makes transmission shaft and motor can stabilize the efficient transmission, and prevent beating that equipment high-speed during operation produced, the design advantage of baffle lies in, the baffle is slope polyhedron formula structure, will derive and go out the better toward both sides of earth.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is a schematic rear side view of the apparatus of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic bottom view of the apparatus of FIG. 1 according to the present invention;

FIG. 4 is a schematic sectional view of the apparatus of FIG. 1 according to the present invention;

FIG. 5 is a cross-sectional schematic view of the drive bevel gear shown in FIG. 1 in the present invention;

FIG. 6 is a cross-sectional schematic view of the external gear shown in FIG. 1 in the present invention;

FIG. 7 is a schematic view in elevation and section of the apparatus of FIG. 1 of the present invention;

in the figure, a transmission box 101, a symmetrical block 201, a circular hole 202, a side box 204, a bottom plate 205, a rotating cylinder 301, an open cavity 302, a mounting box 303, a circular groove 305, a power shaft 307, a rotating wheel 308, a convex tooth 309, a side box 310, a fixed box 313, a containing cavity 315, a guide plate 316, a rotating connecting shaft 401, a driving bevel gear 402, an inner transmission cavity 403, a side meshing bevel gear 404, a fixed cylinder 405, a helical tooth 601, a main rotating cylinder 602, an outer meshing gear 603, a main rotating gear 605, a driven pulley 606, a transmission belt 608, an inner transmission cavity 609, a driving pulley 701, a motor mounting plate 702, a power motor 703, an inner through cavity 704, a fixed side plate 705, a circular shaft 706, an inner cavity 707, a mounting groove 708, a motor 710, a transmission shaft 711, a side rotating cylinder device 950 and a front side rotating device 951.

Detailed Description

As shown in fig. 1 to 7, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down, left-right, front-back direction is consistent with the up-down, left-right, front-back direction of the projection relation of the transmission box 101, the 5G communication tower line laying equipment comprises a transmission box 101, a side box 204 is fixedly arranged on the rear end face of the transmission box 101, a bottom plate 205 is fixedly arranged on the lower end face of the transmission box 101, an inner cavity 707 is arranged in the transmission box 101, a plurality of side rotary drum devices 950 used for pushing soil to two sides are arranged on the upper end face of the transmission box 101, a front rotary drum device 951 which is positioned in the transmission box 101 and used for excavating soil on the front side is arranged on the front side of the side rotary drum devices 950, two sides of the transmission box 101 are inclined planes, and the inclined angle of the transmission box 101 is at least 60 degrees, so that the equipment can be used for efficiently excavating grooves in the 5G line laying process.

Advantageously, the symmetrical blocks 201 are arranged symmetrically and fixedly on the rear end face of the side box 204, open circular holes 202 are formed in the symmetrical blocks 201, and the diameter of each circular hole 202 is at least 2cm, so that the circular holes 202 and the symmetrical blocks 201 are utilized to facilitate installation of equipment.

Advantageously, the side rotating cylinder device 950 includes a plurality of symmetrically disposed mounting grooves 708 communicating with the inner cavity 707, and a conveying assembly for pushing and conveying soil is disposed in the mounting grooves 708, so that the soil is pushed to both sides by the conveying assembly.

Advantageously, the conveying assembly comprises a mounting box 303 fixed to the mounting groove 708, an open cavity 302 is formed in the mounting box 303, a rotating cylinder 301 is rotatably arranged between the open cavities 302, a plurality of open circular grooves 305 are formed in the outer surface of the rotating cylinder 301, a driving structure for driving the rotating cylinder 301 to rotate is arranged in the mounting box 303, the diameter of the rotating cylinder 301 is at least 10cm, the length of the rotating cylinder 301 is smaller than that of the mounting groove 708, and the diameter of the circular grooves 305 is at least 2cm, so that the rotating cylinder 301 is driven to rotate by the driving structure.

Beneficially, the driving structure driver comprises an inner transmission cavity 609 arranged in the installation box 303, the lower end face of the installation box 303 is fixedly provided with a power motor 703, one side of the power motor 703 is provided with the power motor 703, one side of the power motor 703 is dynamically connected with a driving pulley 701 arranged in the inner transmission cavity 609, the upper side of the driving pulley 701 is provided with a driven pulley 606 connected with the end wall of the inner transmission cavity 609 in a rotating fit manner, the driven pulley 606 is in power connection with the rotating cylinder 301, the outer surfaces of the driven pulley 606 and the driving pulley 701 are wound with a transmission belt 608, the transmission belt 608 is used for dynamically connecting the driven pulley 606 and the driving pulley 701, the diameters of the driven pulley 606 and the driving pulley 701 are the same, and therefore the driving pulley 701 is driven by the power motor 703 to rotate, and.

Advantageously, the front revolving drum device 951 includes a guide plate 316 fixed to the transmission case 101, a planing component for planing out soil on the front side of the guide plate 316 is disposed on the front side of the guide plate 316, a power component disposed on one side of the guide plate 316 and driving the planing component to work is disposed on the rear side of the planing component, and the guide plate 316 is a tilted polyhedron structure, so that efficient trench excavation is achieved by using the above components.

Beneficially, the planing assembly comprises a side box 310 fixed with a guide plate 316, an inner transmission cavity 403 is arranged in the side box 310, fixed box bodies 313 which are bilaterally symmetrical are fixedly arranged on left and right end faces of the side box 310, a containing cavity 315 is arranged in the fixed box bodies 313, a rotating connecting shaft 401 is rotatably arranged between left and right end walls of the inner transmission cavity 403, the rotating connecting shaft 401 rotatably penetrates through the inner transmission cavity 403 and extends into the containing cavity 315, a main rotating gear 605 positioned in the containing cavity 315 is fixedly arranged on the outer surface of the rotating connecting shaft 401, a plurality of outer meshing gears 603 are arranged on the outer surface of the main rotating gear 605 in a meshing manner, a power shaft 307 is fixedly arranged in the outer meshing gears 603, the power shaft 307 is rotatably matched and connected with the left and right end walls of the containing cavity 315 in a rotating manner, the power shaft 307 rotatably penetrates through the fixed box bodies 313, a rotating wheel 308 is fixedly arranged on the outer, the outer surface of the runner 308 is provided with a plurality of teeth 309, the teeth 309 are oriented to the right, and the diameter of the outer gear 603 is smaller than that of the main runner 605, thereby achieving efficient excavation of soil using the above-described structure.

Advantageously, the front excavating structure comprises a main drum 602 fixed on the outer surface of the power shaft 307 and located between the fixed boxes 313, the outer surface of the main drum 602 is provided with a plurality of inclined teeth 601, and the diameter of the main drum 602 is at least 20cm, so that the main drum 602 and the inclined teeth 601 are driven by the power shaft 307 to excavate earth.

Beneficially, the power assembly comprises a fixed cylinder 405 fixedly arranged in an end wall of an inner cavity 707, an inner through cavity 704 penetrating front and back is arranged in the fixed cylinder 405, the fixed cylinder 405 extends into the inner transmission cavity 403, a fixed side plate 705 is fixedly arranged on a rear end face of the fixed cylinder 405, a plurality of circular shafts 706 are fixedly arranged on a rear end face of the fixed side plate 705, a motor 710 is fixedly arranged on a rear end face of each circular shaft 706, a transmission shaft 711 is arranged in the motor 710 in a power connection mode, the transmission shaft 711 penetrates through the inner through cavity 704 and extends into the inner transmission cavity 403, a drive bevel gear 402 is fixedly arranged on the outer surface of the transmission shaft 711, a side-meshing bevel gear 404 is arranged on the front side of the drive bevel gear 402 in a meshing mode, the side-meshing bevel gear 404 is fixed with the rotating connection shaft 401, and the transmission ratio of the side-meshing bevel.

In the initial state, the above devices, assemblies and structures are in the stop working state, and before the device works, the symmetric block 201 and the circular hole 202 need to be used to be connected with the mobile device in the external space in a matching manner, for example: cars and the like, so that the equipment can move along with the mobile equipment at the moment, and grooves with certain depth are dug for installing 5G communication lines.

When the equipment works, the bottom plate 205, the side box 204 and the transmission box 101 form a closed structure to prevent the transmission structure in the equipment from being interfered, when the equipment works, the motor 710 works to obtain the rotation of the transmission shaft 711, the transmission shaft 711 rotates to drive the rotation of the drive bevel gear 402, the side bevel gear 404 drives the rotation connecting shaft 401 to rotate due to the meshing of the side bevel gear 404 and the drive bevel gear 402, the external gear 603 and the main gear 605 mesh to drive the power shaft 307 to rotate, the power shaft 307 rotates to drive the main drum 602 and the rotating wheel 308 fixed with the power shaft 307 to rotate, the convex teeth 309 and the inclined teeth 601 efficiently excavate soil at the moment, the equipment can efficiently excavate the soil at the front side, the guide plate 316 pushes the excavated soil to one side of the rotating drum 301, the power motor 703 works to drive the driving belt wheel 701 to rotate, under the effect that driving belt 608 power is connected, driven pulley 606 also rotates, then driven pulley 606 rotates and drives and rotate a section of thick bamboo 301 and carry out high-speed the rotation, and the effect of circle groove 305 again after rotating a section of thick bamboo 301 this moment rotates makes earth spread to both sides by rotating a section of thick bamboo 301 and transmission case 101 fast again, makes equipment still be convenient for subsequent land filling process when excavating high-efficiently.

The invention has the beneficial effects that: the design of the side rotary drum device 950 and the front side rotary drum device 951 is adopted in the equipment, so that the equipment can efficiently excavate a groove in the process of erecting a 5G communication pipeline and is convenient for the subsequent landfill process under the condition of matching motion of the equipment and mobile equipment.

The advantages are expressed in that the structural design of the symmetrical block 201 and the round hole 202 is utilized to facilitate the matching and the use of the equipment and the external space mobile equipment, the design of the power motor 703, the motor mounting plate 702, the driving pulley 701, the transmission belt 608, the driven pulley 606 and the rotary drum 301 is utilized to discharge soil to two sides efficiently after digging, the subsequent 5G communication pipeline burying work is more convenient, the design advantages of the round groove 305 and the rotary drum 301 are that the length of the mounting groove 708 is gradually changed according to different sizes, the equipment can discharge soil to two sides more efficiently, the service life of the equipment is prolonged to a great extent by utilizing the closed design of the transmission case 101, the side case 204 and the bottom plate 205, the design mode of the main rotary gear 605, the power shaft 307, the external meshing gear 603, the rotary connecting shaft 401, the main rotary drum 602, the helical teeth 601, the rotary wheel 308 and the convex teeth 309 is utilized, the runner 308 and the main drum 602 on the front side can efficiently excavate and turn out the soil on the front side and deduce the soil to the rear side, the design advantages of the fixed cylinder 405 and the inner through cavity 704 are that the transmission shaft 711 and the motor 710 can stably and efficiently transmit the soil and prevent the equipment from jumping when working at high speed, and the guide plate 316 is of an inclined polyhedral structure, so that the soil can be better deduced to both sides.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms of the transmission case 101, the symmetrical block 201, the circular hole 202, the side case 204, the bottom plate 205, the rotary cylinder 301, the open cavity 302, the mounting case 303, the circular groove 305, the power shaft 307, the rotary wheel 308, the protruding tooth 309, the side case 310, the fixed case 313, the receiving cavity 315, the guide plate 316, the rotary connecting shaft 401, the drive bevel gear 402, the inner transmission cavity 403, the side bevel gear 404, the fixed cylinder 405, the helical tooth 601, the main drum 602, the outer gear 603, the main rotary gear 605, the driven pulley 606, the transmission belt 608, the inner transmission cavity 609, the drive pulley 701, the motor mounting plate 702, the power motor 703, the inner through cavity 704, the fixed side plate 705, the circular shaft 706, the inner cavity 707, the mounting groove 708, the motor 710, the transmission shaft 711, the side drum device 950, the front side drum device 951, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims (9)

1. The utility model provides a 5G communication tower circuit laying equipment, a serial communication port, includes transmission case (101), transmission case (101) rear end face has set firmly side case (204), the terminal surface has set firmly bottom plate (205) under transmission case (101), be provided with inner chamber (707) in transmission case (101), transmission case (101) up end is provided with a plurality of side rotary drum device (950) that are used for earth to both sides derivation, side rotary drum device (950) front side is provided with and is located in transmission case (101) and be used for preceding side rotary drum device (951) excavated with the earth of front side.

2. The 5G communication tower line laying equipment according to claim 1, wherein: the side box structure is characterized by further comprising symmetrical blocks (201) which are fixedly arranged on the rear end face of the side box (204) and symmetrically arranged, and round holes (202) with openings are formed in the symmetrical blocks (201).

3. The 5G communication tower line laying equipment according to claim 1, wherein: the side rotary drum device (950) comprises a plurality of mounting grooves (708) which are communicated with the inner cavity (707) and are symmetrically arranged, and conveying components for pushing and conveying soil are arranged in the mounting grooves (708).

4. The 5G communication tower line laying equipment according to claim 3, wherein: the conveying assembly comprises an installation box (303) fixed with the installation groove (708), an open-ended open cavity (302) is formed in the installation box (303), a rotating cylinder (301) is arranged between the open cavities (302) in a rotating mode, a plurality of open-ended circular grooves (305) are formed in the outer surface of the rotating cylinder (301), and a driving structure for driving the rotating cylinder (301) to rotate is arranged in the installation box (303).

5. The 5G communication tower line laying equipment according to claim 4, wherein: the driving structure comprises an inner transmission cavity (609) arranged in the installation box (303), a power motor (703) is fixedly arranged on the lower end face of the installation box (303), the power motor (703) is arranged on one side of the power motor (703), a driving pulley (701) located in the inner transmission cavity (609) is arranged on one side of the power motor (703) in a power connection mode, a driven pulley (606) connected with the end wall of the inner transmission cavity (609) in a rotating fit mode is arranged on the upper side of the driving pulley (701), the driven pulley (606) is in power connection with the rotating barrel (301), a transmission belt (608) is wound on the outer surfaces of the driven pulley (606) and the driving pulley (701), and the transmission belt (608) is used for connecting the driven pulley (606) with the driving pulley (701) in a power connection mode.

6. The 5G communication tower line laying equipment according to claim 1, wherein: front side rotary drum device (951) include with baffle (316) that transmission case (101) are fixed, baffle (316) front side is provided with digs the subassembly of moving that gets out of digging front side earth, digs and moves the subassembly rear side and be provided with and be located baffle (316) one side and drive dig the power component who moves the subassembly and carry out work.

7. The 5G communication tower line laying equipment according to claim 6, wherein: the planing component comprises a side box (310) fixed with the guide plate (316), an inner transmission cavity (403) is arranged in the side box (310), bilaterally symmetrical fixed box bodies (313) are fixedly arranged on the left end face and the right end face of the side box (310), a containing cavity (315) is arranged in the fixed box body (313), a rotating connecting shaft (401) is rotatably arranged between the left end wall and the right end wall of the inner transmission cavity (403), the rotating connecting shaft (401) rotatably penetrates through the inner transmission cavity (403) and extends into the containing cavity (315), a main rotating gear (605) positioned in the containing cavity (315) is fixedly arranged on the outer surface of the rotating connecting shaft (401), a plurality of outer meshing gears (603) are arranged on the outer surface of the main rotating gear (605), a power shaft (307) is fixedly arranged in the outer meshing gears (603), and the power shaft (307) is rotatably matched and connected with the left end wall and the right end wall of, the power shaft (307) pivoted runs through fixed box (313), power shaft (307) surface sets firmly runner (308), between fixed box (313) power shaft (307) surface is provided with the place ahead excavation structure that is used for excavating the earth in the positive place ahead, runner (308) surface is provided with a plurality of dogteeth (309).

8. The 5G communication tower line laying equipment according to claim 7, wherein: the front excavating structure comprises a main rotating drum (602) fixedly arranged on the outer surface of the power shaft (307) and positioned between the fixed box bodies (313), and a plurality of helical teeth (601) are arranged on the outer surface of the main rotating drum (602).

9. The 5G communication tower line laying equipment according to claim 6, wherein: the power assembly comprises a fixed cylinder (405) fixedly arranged in the end wall of the inner cavity (707), an inner through cavity (704) which penetrates through the front and the back is arranged in the fixed cylinder (405), the fixed cylinder (405) extends into the inner transmission cavity (403), a fixed side plate (705) is fixedly arranged on the rear end surface of the fixed cylinder (405), a plurality of circular shafts (706) are fixedly arranged on the rear end surface of the fixed side plate (705), a motor (710) is fixedly arranged on the rear end face of the round shaft (706), a transmission shaft (711) is arranged in the motor (710) in a power connection way, the transmission shaft (711) passes through the inner through cavity (704) and extends into the inner transmission cavity (403), a driving bevel gear (402) is fixedly arranged on the outer surface of the transmission shaft (711), a side-meshing bevel gear (404) is meshed with the front side of the driving bevel gear (402), the side-meshing bevel gear (404) is fixed with the rotating connecting shaft (401).

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