阅读说明：本技术 一种5g线路铺设泥土填埋设备 (5G line laying earth landfill equipment ) 是由 余作鹏 于 2019-10-31 设计创作，主要内容包括：本发明公开了一种5G线路铺设泥土填埋设备,其结构包括用于与外部空间移动设备固定配合连接的滑行筒,所述滑行筒左右侧设置有左右对称且对土壤进行推动填埋的泥土推动装置,所述泥土推动装置之间设置有位于所述滑行筒外表面且驱动所述泥土推动装置进行工作的摆动角度调整装置,此设备采用了所述泥土推动装置和摆动角度调整装置的设计,使设备能够在5G线路铺设中结合外部空间的移动设备对线路进行高效的填埋,且采用可调节的方式,极大的提高了设备的工作效率及工作范围,提高了设备的实用性及可靠性。(The invention discloses a 5G line laying soil landfill device which structurally comprises a sliding cylinder fixedly matched and connected with external space mobile equipment, wherein soil pushing devices which are bilaterally symmetrical and used for pushing and burying soil are arranged on the left side and the right side of the sliding cylinder, a swing angle adjusting device which is positioned on the outer surface of the sliding cylinder and used for driving the soil pushing devices to work is arranged between the soil pushing devices, the device adopts the design of the soil pushing devices and the swing angle adjusting device, the device can be used for efficiently burying lines by combining the external space mobile equipment in 5G line laying, an adjustable mode is adopted, the working efficiency and the working range of the device are greatly improved, and the practicability and the reliability of the device are improved.)

1. The utility model provides a 5G circuit is laid earth landfill equipment, a serial communication port, including be used for sliding a section of thick bamboo (114) of being connected with the fixed cooperation of exterior space mobile device, it is provided with bilateral symmetry and promotes the earth thrust unit (950) of landfill to slide a section of thick bamboo (114) left and right sides, be provided with between earth thrust unit (950) and be located slide a section of thick bamboo (114) surface and drive earth thrust unit (950) carry out the swing angle adjusting device (951) of work.

2. A 5G line laying earth landfill equipment as claimed in claim 1, wherein: soil thrust unit (950) is including rotating case (106), be provided with open-ended inner chamber (101) in rotating case (106), it has set firmly shielding plate (105) to rotate case (106) up end, be provided with in inner chamber (101) and be used for inclining the soil subassembly of empting of toppling over, it is provided with riser (107) to rotate case (106) one side, riser (107) with it connects to rotate case (106) normal running fit, riser (107) with it makes to rotate to be provided with between case (106) rotate the wobbling connecting rod adjusting part of case (106), make between case (106) and the slide section of thick bamboo (114) rotate the case (106) and can carry out the angle adjusting part of angle adjustment.

3. A 5G line laying earth landfill device according to claim 2, wherein: the soil dumping assembly comprises an inclined plate (102) fixed to the inner cavity (101), the inclined plate (102) is arranged in an inclined mode, a plurality of opening clamping grooves (405) are formed in the inclined plate (102), and a roller pushing structure which pushes soil in a rolling mode is arranged in the clamping grooves (405).

4. A 5G line laying earth landfill equipment as claimed in claim 3, wherein: the roller pushing structure comprises symmetrical installation boxes (403) fixedly arranged in the clamping grooves (405), a roller (103) is arranged between the installation boxes (403) in a rotating mode, a driving motor (404) is fixedly arranged on one side of each installation box (403), and the driving motor (404) is in power connection with the roller (103).

5. A 5G line laying earth landfill device according to claim 2, wherein: the connecting rod adjusting assembly comprises connecting blocks (501) which are fixed with the rotating box (106) and are symmetrical up and down, a connecting and fixing shaft (504) is fixedly arranged between the connecting blocks (501), supports (108) which are symmetrical up and down are fixedly arranged on one side end face of the vertical plate (107), a fixing cylinder (508) is fixedly arranged between the supports (108), the fixing cylinder (508) and the connecting and fixing shaft (504) are the same in size, and a fine adjustment structure for adjusting the angle between the rotating box (106) and the vertical plate (107) is arranged between the connecting and fixing shaft (504) and the fixing cylinder (508).

6. A5G line laying earth landfill device according to claim 5, wherein: the fine adjustment structure comprises a rotating plate (502) connected with a fixed connecting shaft (504) in a rotating matching manner, a through containing cavity (503) is arranged in the rotating plate (502), vertically symmetrical connecting grooves (505) are formed in the upper end wall and the lower end wall of the containing cavity (503) in a communicating manner, rollers (701) are arranged in the connecting grooves (505) in a sliding manner, a connecting vertical plate (702) is fixedly arranged between the rollers (701), the end wall of the containing cavity (503) far away from the fixed connecting shaft (504) is fixedly provided with a rotating motor (703), a rotating connecting shaft (704) is arranged in the rotating motor (703) in a power connection manner, the rotating connecting shaft (704) is connected with the end wall of the containing cavity (503) in a rotating matching manner, the rotating connecting shaft (704) is connected with the connecting vertical plate (702) in a threaded matching manner, a round rod (506) is, the round rod (506) is fixed with the side plate (507).

7. A 5G line laying earth landfill device according to claim 2, wherein: the angle adjusting assembly comprises a fixing frame (109) arranged on the end face of the vertical plate (107), an open-ended inner rotating cavity (115) is arranged in the fixing frame (109), a rotating plate (110) is arranged between the upper end wall and the lower end wall of the inner rotating cavity (115) in a rotating matching mode, a fixing column (112) is fixedly arranged on the end face of the rotating plate (110), an outer rotating plate (210) is fixedly arranged on the end face of the fixing column (112) far away from the rotating plate (110), a connecting shaft (111) is arranged on one side of the rotating plate (110) and connected with the upper end wall and the lower end wall of the inner rotating cavity (115) in a rotating matching mode, a side rod (113) is fixedly arranged on the outer surface of the connecting shaft (111), a symmetrical side rotating block (201) is fixedly arranged on the outer surface of the.

8. A 5G line laying earth landfill equipment as claimed in claim 1, wherein: swing angle adjusting device (951) include with slide a section of thick bamboo (114) sliding fit connection's slide board (209), slide board (209) with outer rotor plate (210) normal running fit connects, slide board (209) up end is provided with and is used for the drive outer rotor plate (210) wobbling drive assembly, slide board (209) one side with slide and be provided with between a section of thick bamboo (114) and be used for going on to fixed column (112) and side lever (113) carry out the adjusting part by a wide margin of adjusting.

9. A 5G line laying earth landfill device according to claim 8, wherein: the driving assembly comprises a power motor (206) fixedly arranged on the upper end face of the sliding plate (209), wherein symmetrical ejector blocks (204) fixed to the sliding plate (209) are arranged on two sides of the power motor (206), a power shaft (205) is arranged in the power motor (206) in a power connection mode, the power shaft (205) runs through the ejector blocks (204) in a rotating mode, a side-meshing bevel gear (203) is fixedly arranged on the end face of the power shaft (205) far away from the power motor (206), a lower-meshing bevel gear (202) is arranged on the lower side of the side-meshing bevel gear (203) in a meshing mode, and the lower-meshing bevel gear (202) and the outer rotating plate (210) are coaxially fixed.

10. A 5G line laying earth landfill device according to claim 8, wherein: the large-amplitude adjusting assembly comprises inner grooves (208) which are arranged in the sliding barrel (114) and are bilaterally symmetrical, the inner grooves (208) are arranged in an opening mode, racks (207) are fixedly arranged in the end walls of the inner grooves (208), a side transmission case (606) is fixedly arranged on the rear end face of the sliding plate (209), a side convex plate (601) fixed with the sliding plate (209) is arranged below the side transmission case (606), an open power cavity (605) is arranged in the side transmission case (606), a side driving motor (603) is fixedly arranged on the right end face of the side transmission case (606), a power rotating shaft (604) is arranged in the side driving motor (603) in a power connection mode, the power rotating shaft (604) is connected with the end walls of the power cavity (605) in a rotating fit mode, symmetrical side bevel gears (608) are fixedly arranged on the outer surface of the power rotating shaft (604), and transmission bevel gears (607) are arranged on the lower sides of, and an engaging gear (602) meshed with the rack (207) is rotatably arranged between the side convex plate (601) and the side transmission case (606), and the engaging gear (602) is coaxially and dynamically connected with the transmission bevel gear (607).

Technical Field

The invention belongs to the technical field of 5G communication related equipment, and particularly relates to a 5G line soil laying landfill device.

Background

Disclosure of Invention

The invention aims to solve the problems and provides equipment which can quickly and efficiently bury soil in the 5G line laying process and has the advantages of multifunctional adjustment of the working range and the like.

The invention is realized by the following technical scheme: the 5G line soil laying landfill equipment comprises sliding cylinders which are fixedly matched and connected with external space mobile equipment, soil pushing devices which are bilaterally symmetrical and used for pushing and burying soil are arranged on the left side and the right side of each sliding cylinder, and a swing angle adjusting device which is located on the outer surface of each sliding cylinder and used for driving each soil pushing device to work is arranged between the soil pushing devices, so that efficient soil landfill is achieved by using the device, and the internal structure is convenient to adjust.

According to the technical scheme, the soil pushing device comprises a rotating box, an open-ended inner cavity is formed in the rotating box, a shielding plate is fixedly arranged on the upper end face of the rotating box, a soil dumping assembly used for dumping soil in an inclined mode is arranged in the inner cavity, a vertical plate is arranged on one side of the rotating box and is connected with the rotating box in a rotating matching mode, a connecting rod adjusting assembly used for enabling the rotating box to swing is arranged between the vertical plate and the rotating box, an angle adjusting assembly used for enabling the rotating box to adjust the angle is arranged between the rotating box and a sliding cylinder, and therefore the angle of the equipment structure is adjusted by the aid of the angle adjusting assembly.

Further technical scheme, the subassembly is emptyd to soil include with the hang plate that the inner chamber is fixed, the hang plate slope sets up, be provided with a plurality of open-ended dress card grooves in the hang plate, the dress card inslot is provided with the cylinder that adopts rolling mode to promote soil and promotes the structure to utilize the roll to promote the structure and promote soil and promote and empty.

According to the technical scheme, the roller pushing structure comprises installation boxes which are fixedly arranged in the clamping grooves and are symmetrical, a roller is arranged between the installation boxes in a rotating mode, a driving motor is fixedly arranged on one side of each installation box and is in power connection with the roller, and therefore the driving motor is used for indirectly driving the roller to rotate so as to efficiently push soil.

According to the technical scheme, the connecting rod adjusting assembly comprises connecting blocks which are fixed by the rotating box and are symmetrical up and down, connecting fixed shafts are fixedly arranged between the connecting blocks, supports which are symmetrical up and down are fixedly arranged on one side end face of the vertical plate, fixed cylinders are fixedly arranged between the supports, the fixed cylinders are the same as the connecting fixed shafts in size, and fine adjustment structures are arranged between the connecting fixed shafts and the fixed cylinders and used for adjusting the angle between the rotating box and the vertical plate, so that the fine adjustment structures enable fine adjustment of the angle between the rotating box and the vertical plate.

Further technical scheme, fine setting structure include with connect the rotor plate that the fixed axle normal running fit is connected, be provided with the appearance chamber that runs through in the rotor plate, the intercommunication of end wall is provided with the spread groove of longitudinal symmetry about holding the chamber, gliding being provided with the roller in the spread groove, set firmly the connection riser between the roller, keeping away from connect the fixed axle hold the chamber end wall and set firmly the rotation motor, power connection is provided with the rotation connecting axle in the rotation motor, rotate the connecting axle with hold chamber end wall normal running fit and connect, rotate the connecting axle with connect riser screw-thread fit and connect, be close to the rotation motor connect the riser terminal surface and set firmly the round bar, the round bar with the curb plate is fixed to utilize above-mentioned structure to realize the fine setting function of rotation case.

According to a further technical scheme, the angle adjusting assembly comprises a fixing frame arranged on the end face of the vertical plate, an open-ended inner rotating cavity is arranged in the fixing frame, a rotating plate is arranged between the upper end wall and the lower end wall of the inner rotating cavity in a rotating fit connection mode, a fixing column is fixedly arranged on the end face of the rotating plate, an outer rotating plate is fixedly arranged on the end face of the fixing column far away from the rotating plate, a connecting shaft in rotating fit connection with the upper end wall and the lower end wall of the inner rotating cavity is arranged on one side of the rotating plate, a side lever is fixedly arranged on the outer surface of the connecting shaft, symmetrical side rotating blocks are fixedly arranged on the outer surface of the sliding barrel, and the side rotating.

According to a further technical scheme, the swing angle adjusting device comprises a sliding plate in sliding fit connection with the sliding cylinder, the sliding plate is in rotating fit connection with the outer rotating plate, a driving assembly used for driving the outer rotating plate to swing is arranged on the upper end face of the sliding plate, and a large-amplitude adjusting assembly used for performing large-amplitude adjustment on the fixed column and the side rod is arranged between one side of the sliding plate and the sliding cylinder, so that the assembly is utilized to achieve multi-directional adjustment of equipment.

According to the technical scheme, the driving assembly comprises a power motor fixedly arranged on the upper end face of the sliding plate, two sides of the power motor are symmetrically arranged and are provided with ejector blocks fixed to the sliding plate, a power shaft is arranged in the power motor in a power connection mode, the power shaft runs through the ejector blocks in a rotating mode and is far away from the power motor, a side-meshing bevel gear is fixedly arranged on the end face of the power shaft, the lower side of the side-meshing bevel gear is meshed with a lower-meshing bevel gear, the lower-meshing bevel gear is coaxially fixed with the outer rotating plate, and therefore the power motor is used for indirectly driving the side-meshing bevel gear and the lower-meshing bevel gear to rotate, and the outer rotating plate is made to swing.

The technical scheme is that the large-amplitude adjusting assembly comprises an inner groove which is arranged in the sliding cylinder and is bilaterally symmetrical, the opening of the inner groove is arranged, a rack is fixedly arranged in the end wall of the inner groove, a side transmission case is fixedly arranged on the rear end surface of the sliding plate, a side convex plate fixed with the sliding plate is arranged below the side transmission case, an open power cavity is arranged in the side transmission case, a side driving motor is fixedly arranged on the right end surface of the side transmission case, a power rotating shaft is arranged in the side driving motor in a power connection mode and is connected with the end wall of the power cavity in a rotating fit mode, symmetrical side bevel gears are fixedly arranged on the outer surface of the power rotating shaft, transmission bevel gears are arranged on the lower sides of the side bevel gears in a meshing mode, meshing gears meshed with the rack are rotatably arranged between the side convex plate and the side transmission case, and the meshing gears are coaxially and, therefore, the side driving motor is utilized to drive the power rotating shaft to rotate after working, so that the sliding plate can move back and forth and simultaneously realize the large-amplitude adjusting function of the related structure.

The invention has the beneficial effects that: this equipment has adopted earth thrust unit and swing angle adjusting device's design makes equipment combine the mobile device of exterior space to carry out the efficient landfill to the circuit in 5G circuit laying, and adopts adjustable mode, very big improvement the work efficiency and the working range of equipment, improved the practicality and the reliability of equipment.

The advantages are embodied in that the structural design of the shielding plate is that the earth is piled up in the inner cavity when the equipment is used for filling earth, at the moment, the shielding plate is used for preventing the earth from turning over the inner cavity and deviating, the roller is used for pushing and filling the earth in the groove under the indirect drive of the driving motor, the filling efficiency of the earth is further improved, the design of the through cavity and the roller is that the convenience is brought to the installation of the roller and the installation convenience of the equipment is improved, the inclined plate is inclined and arranged in a manner that the earth is convenient to push and roll into the groove, the filling efficiency of the earth is improved, and the structural design advantages of the connecting block, the rotating box, the rotating plate, the accommodating cavity, the connecting fixed shaft, the connecting groove, the round rod, the side plate, the fixed cylinder, the vertical plate, the roller, the connecting plate, the rotating motor and the rotating connecting shaft are that the rotating box can be slightly adjusted relative to the vertical plate The design of the power motor, the power shaft, the side-meshing bevel gear, the lower-meshing bevel gear and the outer rotating plate has the advantages that the outer rotating plate drives the fixed column to carry out micro-range adjustment, so that the fixed column can slightly swing to achieve the purpose of adjustment, and the side driving motor, the side bevel gear, the transmission bevel gear, the side transmission case, the rotating case and the side rotating block are used for fully contacting the soil on the two sides of the groove, so that the soil landfill effect is improved while the process adjustment range of the equipment is improved The power cavity, the power rotating shaft, the meshing gear, the side convex plate, the inner groove, the rack and the sliding barrel are designed, so that the sliding plate can move in a large range, the fixed column can swing in a large range, the related structure of the equipment can be adjusted in a large range, and the flexibility of the equipment is improved.

Drawings

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

FIG. 2 is an enlarged view of the slide cylinder of FIG. 1 in the direction A of the present invention;

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

FIG. 4 is an enlarged view in the direction B of the rotating box of FIG. 3 according to the present invention;

FIG. 5 is a schematic representation of the rear three-dimensional structure of FIG. 1 in accordance with the present invention;

FIG. 6 is an enlarged view of the slide cylinder of FIG. 5 in the direction of C in accordance with the present invention;

FIG. 7 is an enlarged view of the round bar of FIG. 5 in the direction D according to the present invention;

in the figure, an inner cavity 101, an inclined plate 102, a roller 103, a through cavity 104, a shielding plate 105, a rotating box 106, a vertical plate 107, a support 108, a fixed frame 109, a rotating plate 110, a connecting shaft 111, a fixed column 112, a side rod 113, a sliding cylinder 114, a side rotating block 201, a lower bevel gear 202, a side bevel gear 203, a top block 204, a power shaft 205, a power motor 206, a rack 207, an inner groove 208, a sliding plate 209, an outer rotating plate 210, an installation box 403, a driving motor 404, a clamping groove 405, a connecting block 501, a rotating plate 502, a cavity 503, a connecting fixed shaft 504, a round rod 506, a side plate 507, a fixed cylinder 508, a side convex plate 601, a meshing gear 602, a side driving motor 603, a power rotating shaft 604, a power cavity 605, a side transmission box 606, a transmission bevel gear 607, a side bevel gear 608, a roller 701, a connecting vertical plate 702, a rotating motor 703, a soil pushing device.

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 figure 1, the soil landfill equipment for paving the 5G line comprises sliding cylinders 114 which are fixedly matched and connected with external space mobile equipment, soil pushing devices 950 which are bilaterally symmetrical and push the soil for landfill are arranged on the left and right sides of the sliding cylinders 114, and swing angle adjusting devices 951 which are positioned on the outer surfaces of the sliding cylinders 114 and drive the soil pushing devices 950 to work are arranged between the soil pushing devices 950, so that the soil is efficiently buried by utilizing the equipment, and the internal structure is conveniently adjusted.

Beneficially, wherein, the soil pushing device 950 comprises a rotating box 106, an open inner cavity 101 is arranged in the rotating box 106, a shielding plate 105 is fixedly arranged on the upper end face of the rotating box 106, the shielding plate 105 is of an inclined plate-shaped structure, a soil dumping component for tilting and dumping soil is arranged in the inner cavity 101, a vertical plate 107 is arranged on one side of the rotating box 106, the vertical plate 107 is connected with the rotating box 106 in a rotating matching manner, a connecting rod adjusting component for enabling the rotating box 106 to swing is arranged between the vertical plate 107 and the rotating box 106, and an angle adjusting component for enabling the rotating box 106 to be capable of adjusting the angle is arranged between the rotating box 106 and the sliding barrel 114, so that the angle adjustment of the equipment structure is realized by.

Beneficially, the soil dumping assembly comprises an inclined plate 102 fixed to the inner cavity 101, the inclined plate 102 is arranged in an inclined mode, an included angle between the inclined plate 102 and the horizontal plane is at least 60 °, a plurality of opening clamping grooves 405 are formed in the inclined plate 102, and a roller pushing structure for pushing soil in a rolling mode is arranged in the clamping grooves 405, so that the soil is pushed and dumped by the rolling pushing structure.

Advantageously, the roller pushing structure comprises symmetrical mounting boxes 403 fixedly arranged in the clamping groove 405, the rollers 103 are rotatably arranged between the mounting boxes 403, the diameter of each roller 103 is larger than the height of the mounting box 403, a driving motor 404 is fixedly arranged on one side of each mounting box 403, and the driving motors 404 are in power connection with the rollers 103, so that the rollers 103 are indirectly driven to rotate by the driving motors 404 to efficiently push soil.

Advantageously, the connecting rod adjusting assembly includes connecting blocks 501 fixed to the rotating box 106 and vertically symmetrical, a connecting fixing shaft 504 is fixed between the connecting blocks 501, vertically symmetrical supports 108 are fixed on one side end surface of the vertical plate 107, a fixing cylinder 508 is fixed between the supports 108, the fixing cylinder 508 and the connecting fixing shaft 504 have the same size, and a fine adjusting structure for adjusting the angle between the rotating box 106 and the vertical plate 107 is arranged between the connecting fixing shaft 504 and the fixing cylinder 508, so that the fine adjusting structure finely adjusts the angle between the rotating box 106 and the vertical plate 107.

Beneficially, the fine adjustment structure comprises a rotating plate 502 connected with a connecting and fixing shaft 504 in a rotating matching mode, a through cavity 503 is arranged in the rotating plate 502, connecting grooves 505 which are symmetrical up and down are arranged in the upper end wall and the lower end wall of the cavity 503 in a communicating mode, the depth of the connecting grooves 505 is at least 2cm, rollers 701 are arranged in the connecting grooves 505 in a sliding mode, connecting vertical plates 702 are fixedly arranged between the rollers 701, a rotating motor 703 is fixedly arranged on the end wall of the cavity 503 far away from the connecting and fixing shaft 504, a rotating connecting shaft 704 is dynamically connected in the rotating motor 703 and is connected with the end wall of the cavity 503 in a rotating matching mode, the rotating connecting shaft 704 is connected with the connecting vertical plates 702 in a threaded matching mode, a round rod 506 is fixedly arranged on the end face, close to the rotating motor 703, the round rod 506 is fixed with a side.

Beneficially, the angle adjusting assembly includes a fixing frame 109 disposed on the end face of the vertical plate 107, an open internal rotation cavity 115 is disposed in the fixing frame 109, a rotation plate 110 is disposed between the upper end wall and the lower end wall of the internal rotation cavity 115 in a rotation fit connection manner, a fixing column 112 is fixedly disposed on the end face of the rotation plate 110, an external rotation plate 210 is fixedly disposed on the end face of the fixing column 112 far away from the rotation plate 110, the length of the fixing column 112 is at least 0.5m, a connecting shaft 111 rotatably connected with the upper end wall and the lower end wall of the internal rotation cavity 115 is disposed on one side of the rotation plate 110, a side lever 113 is fixedly disposed on the outer surface of the connecting shaft 111, symmetrical side rotation blocks 201 are fixedly disposed on the outer surface of the.

Advantageously, the swing angle adjusting device 951 comprises a sliding plate 209 connected with the sliding cylinder 114 in a sliding fit manner, the sliding plate 209 is connected with the outer rotating plate 210 in a rotating fit manner, a driving assembly for driving the outer rotating plate 210 to swing is arranged on the upper end face of the sliding plate 209, and a large-amplitude adjusting assembly for performing large-amplitude adjustment on the fixed column 112 and the side rod 113 is arranged between one side of the sliding plate 209 and the sliding cylinder 114, so that the assemblies are utilized to realize multi-direction adjustment of the equipment.

Advantageously, the driving assembly comprises a power motor 206 fixedly arranged on the upper end surface of the sliding plate 209, the two sides of the power motor 206 are provided with symmetrical top blocks 204 fixed with the sliding plate 209, a power shaft 205 is arranged in the power motor 206 in a power connection manner, the power shaft 205 penetrates through the top blocks 204 in a rotating manner, the end surface of the power shaft 205 far away from the power motor 206 is fixedly provided with a side-meshing bevel gear 203, the lower side of the side-meshing bevel gear 203 is meshed with a lower-meshing bevel gear 202, the lower-meshing bevel gear 202 is coaxially fixed with the outer rotating plate 210, the transmission ratio of the side-meshing bevel gear 203 to the lower-meshing bevel gear 202 is one, and therefore the power motor 206 is used for indirectly driving the side-meshing bevel gear 203 and the lower-meshing.

Beneficially, the large-amplitude adjusting assembly comprises an inner groove 208 which is arranged in the sliding cylinder 114 and is bilaterally symmetrical, an opening of the inner groove 208 is arranged, a rack 207 is fixedly arranged in an end wall of the inner groove 208, a side transmission case 606 is fixedly arranged on a rear end face of the sliding plate 209, a side convex plate 601 fixed with the sliding plate 209 is arranged below the side transmission case 606, an open power cavity 605 is arranged in the side transmission case 606, a side driving motor 603 is fixedly arranged on a right end face of the side transmission case 606, a power rotating shaft 604 is arranged in the side driving motor 603 in a power connection mode, the power rotating shaft 604 is connected with an end wall of the power cavity 605 in a rotating fit mode, symmetrical side bevel gears 608 are fixedly arranged on the outer surface of the power rotating shaft 604, a transmission bevel gear 607 is arranged on the lower side of the side bevel gear 608 in a meshing mode, a meshing gear 602 meshed with the rack 207 is arranged between, the rotation directions of the left and right transmission bevel gears 607 are opposite during the work, so that the power rotating shaft 604 is driven to rotate after the side driving motor 603 works, the sliding plate 209 can move back and forth, and meanwhile, the large-amplitude adjusting function of the related structure is realized.

In the initial state, the above-mentioned device, assembly and structure are in the stop working state, and in the initial state of the equipment, the equipment needs to be used with the mobile equipment in the external space.

The mobile device in the external space is the prior art, and the mobile device in the external space can be selected according to the requirement of actual production operation: tractors, engineering vehicles and the like, which can have certain moving function and can well fix equipment which realizes stable work, belong to mobile equipment in external space, and common engineering vehicles comprise engines, vehicle bodies, gearboxes, relevant electronic control devices in vehicles and the like and are mainly used for engineering technical operation.

When the equipment works, the equipment is connected with mobile equipment in an external space through the sliding barrel 114, when the equipment works, a groove needs to be dug on the ground when a 5G line is laid, the landfill equipment needs to be used for landfill after the 5G line is buried, when the equipment works, the external mobile equipment pushes the equipment along the groove, soil on two sides of the groove is gradually accumulated in the inner cavity 101 under the action of the inclined plate 102, the soil cannot be turned out of the outer side of the rotating box 106 due to the design of the shielding plate 105, the driving roller 103 rotates after the driving motor 404 starts to work, the soil is driven to move towards the direction of the groove after the roller 103 rotates, and the soil is completely filled into the groove due to the pushing action of the external space equipment and cannot be turned out of the working range of the equipment.

When the angles and the directions of the rotating boxes 106 need to be adjusted in the actual working and processing of the grooves with different widths, the related structures work to enable the equipment to be capable of performing multi-directional adjustment according to different working conditions, at the moment, the side driving motor 603 works to drive the power rotating shaft 604 to rotate, the power rotating shaft 604 drives the side bevel gear 608 to rotate, the side bevel gear 608 is symmetrically arranged and is meshed with the transmission bevel gear 607, the meshed gear 602 rolls on the outer side of the rack 207 after rotating, at the moment, the sliding plate 209 can move back and forth, the sliding plate 209 drives the outer rotating plate 210 and the fixed column 112 to swing, under the structural action of the fixed column 112, the rotating plate 110, the fixed frame 109, the connecting shaft 111, the side rods 113 and the side rotating blocks 201, the distances among the rotating boxes 106 can be increased or decreased, and the rotating boxes 106 are located in the optimal working state, after that, the rotating motor 703 drives the rotating connecting shaft 704 to rotate after operating, at this time, the rotating connecting shaft 704 drives the connecting vertical plate 702 to move after rotating, the roller 701 slides stably in the connecting groove 505 after the connecting vertical plate 702 moves, and the connecting vertical plate 702 drives the round bar 506 to move, the vertical plate 107 and the rotating box 106 rotate relatively under the action of the connecting block 501, the rotating plate 502, the connecting fixing shaft 504, the round bar 506, the side plate 507, the fixing cylinder 508 and the vertical plate 107, so that the rotating box 106 completely surrounds the soil on the two sides of the groove and is in the best working state.

And when the power motor 206 works, the adjusting function can be better realized under the action of the power shaft 205, the side meshing bevel gear 203, the lower meshing bevel gear 202, the outer rotating plate 210 and the fixed column 112, so that the working size range of the equipment is further enlarged, and the practicability of the equipment is improved.

The invention has the beneficial effects that: this equipment has adopted earth thrust unit 950 and swing angle adjusting device 951's design, makes equipment can combine the mobile device of exterior space to carry out the efficient landfill to the circuit in 5G circuit is laid, and adopts adjustable mode, very big improvement the work efficiency and the working range of equipment, improved the practicality and the reliability of equipment.

The above advantages are embodied in that the structural design of the shielding plate 105 is that the earth is piled up in the inner cavity 101 when the equipment is used for filling earth, at this time, the shielding plate 105 is used for preventing the earth from turning out of the inner cavity 101 and deviating, the roller 103 is used for pushing and filling the earth in the groove under the indirect drive of the driving motor 404, the filling efficiency of the earth is further improved, the design of the through cavity 104 and the roller 103 is that the installation of the roller 103 is facilitated, the installation convenience of the equipment is improved, the inclined plate 102 is inclined and arranged to facilitate the pushing and rolling of the earth into the groove, the filling efficiency of the earth is improved, the connecting block 501, the rotating box 106, the rotating plate 502, the accommodating cavity 503, the connecting fixing shaft 504, the connecting groove 505, the round rod 506, the side plate 507, the fixing cylinder 508, the vertical plate 107, the roller 701, the connecting vertical plate 702, the rotating motor 703 and the rotating connecting shaft 704 are arranged in a fine adjustment manner, and the rotating box 106 can be opposite to the vertical plate The design of the power motor 206, the power shaft 205, the side bevel gear 203, the lower bevel gear 202 and the outer rotating plate 210 has the advantages that the outer rotating plate 210 is used for driving the fixed column 112 to carry out micro-range adjustment, so that the fixed column 112 can slightly swing to realize the adjustment purpose, the side driving motor 603, the side bevel gear 608, the transmission bevel gear 607 are used for driving the fixed column 112 to carry out micro-range adjustment, and the side driving motor 603, the side bevel gear 608 and the transmission bevel gear 607 are used for slightly swinging to realize the adjustment purpose, The side transmission case 606, the power cavity 605, the power rotating shaft 604, the meshing gear 602, the side convex plate 601, the inner groove 208, the rack 207 and the sliding cylinder 114 are designed to have the advantages that the sliding plate 209 can move in a large range, the fixed column 112 can swing in a large range, the related structure of the equipment can be adjusted in a large range, and the flexibility of the equipment is improved.

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 inner cavity 101, the inclined plate 102, the roller 103, the through cavity 104, the shielding plate 105, the rotating box 106, the vertical plate 107, the support 108, the fixed frame 109, the rotating plate 110, the connecting shaft 111, the fixed column 112, the side rod 113, the sliding cylinder 114, the side rotating block 201, the lower bevel gear 202, the side bevel gear 203, the top block 204, the power shaft 205, the power motor 206, the rack 207, the inner groove 208, the sliding plate 209, the outer rotating plate 210, the mounting box 403, the driving motor 404, the clamping groove 405, the connecting block 501, the rotating plate 502, the receiving cavity 503, the connecting fixed shaft 504, the round bar 506, the side plate 507, the fixed cylinder 508, the side convex plate 601, the engaging gear 602, the side driving motor 603, the power rotating shaft 604, the power cavity 605, the side driving box 606, the bevel gear 607, the side bevel gear 608, the roller 701, the connecting vertical plate 702, the rotating motor 703, the soil pushing device 950, the swing angle, but does not exclude the possibility of using other terms. 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.