CN213869204U

CN213869204U - Telegraph pole erecting device

Info

Publication number: CN213869204U
Application number: CN202022262594.7U
Authority: CN
Inventors: 张龙峰; 屈应良; 李朋; 许国强; 范佳瑛; 许益滔; 梁彩玲; 黄怡品; 谷倩雯; 吴俊红; 张盛军; 秦鑫; 翟英杰
Original assignee: State Grid Henan Electric Power Co Yiyang County Power Supply Co; State Grid Corp of China SGCC
Current assignee: State Grid Henan Electric Power Co Yiyang County Power Supply Co; State Grid Corp of China SGCC
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2021-08-03
Anticipated expiration: 2030-10-13

Abstract

A telegraph pole erecting device relates to the field of telegraph pole installation, a punching mechanism is arranged on a moving mechanism, a rotating mechanism is arranged in the middle of the upper end of the moving mechanism, and a lifting mechanism is arranged on the rotating mechanism; according to the telegraph pole erecting device, the telegraph pole can be kept to be absolutely vertical in the ground-off state through the free rotation of the through-center ball on the spherical plate, the vertical pole is high in quality, not prone to tilt, firm in fixing and high in safety, the clamping shaft can be fixed on the fixing mechanism more conveniently through the rotation of the connecting mechanism on the second rotating arm, meanwhile, the position of the telegraph pole can be adjusted under the action of gravity, the verticality of the telegraph pole and the ground is improved, the vertical pole fixing truss is firm, the gravity of the telegraph pole is amplified and applied to the motor through the connecting rod by utilizing the lever principle, the motor is pressed downwards, energy is saved, the environment is protected, the telegraph pole hole is drilled through the rotation of the drill cylinder driven by the motor, the telegraph pole hole is small in size, energy consumption is low, soil is automatically taken out through the drill cylinder, and labor intensity is low.

Description

Telegraph pole erecting device

Technical Field

The utility model belongs to the technical field of the wire pole installation and specifically relates to a wire pole setting device is related to.

Background

With the continuous development of society, the requirements on construction safety and reliability are higher and higher, the requirements on power supply reliability are higher and higher, so that construction units are required to ensure safe construction and quick and high-quality construction, the conventional telegraph pole vertical rod mainly depends on manual digging of a telegraph pole pit, people need to enter and dig the telegraph pole pit due to the fact that the telegraph pole pit is deeper, the telegraph pole pit is often dug to be large, labor intensity is high, working efficiency is low, the vertical rod of the telegraph pole mainly depends on a rope sleeve to fix the telegraph pole, then the telegraph pole is lifted by a digging machine, people stand around to assist, casualties are easily caused once the rope is broken, the rope is tied in the middle of the telegraph pole, the telegraph pole cannot be kept vertical in the process of lifting the telegraph pole, the telegraph pole cannot be kept in an inclined state all the time after entering the larger telegraph pole pit, the soil filling process is slow, the telegraph pole needs to be always lifted, and cannot be accurately kept vertical, the backfill soil is soft, after construction is completed, the telegraph pole is easy to incline and fall down, casualties are caused, the fixation of the telegraph pole to the electric wire is not firm in the later construction process, the service life of the telegraph pole is short, the danger is high, and the construction efficiency is low. The power consumption is huge, and the montant is with high costs, and later stage rope fixed height is higher, is difficult for taking off, still needs the people to climb the telegraph pole, increases the potential safety hazard.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model discloses a telegraph pole erecting device, the utility model can keep the telegraph pole absolutely vertical in the off-ground state through the free rotation of a through-center ball on a spherical plate, the quality of the vertical rod is high, the vertical rod is not easy to incline, the fixing is firm, the safety is high, the fixing mechanism can move towards one end of the big end of the telegraph pole through a rotating rod and a friction plate, the fixing mechanism can be conveniently taken down after the vertical rod is finished, the operation is convenient, the safety is good, the efficiency is high, the clamping shaft can be more conveniently fixed on the fixing mechanism through the rotation of a connecting mechanism on a second rotating arm, meanwhile, the position of the telegraph pole can be adjusted under the action of gravity, the verticality of the telegraph pole and the ground is improved, a fixing truss of the vertical rod is firm, the gravity of the telegraph pole is amplified and applied to a motor by utilizing the lever principle through a connecting rod, the motor is pressed down, the energy is saved, the environment is protected, the telegraph pole hole is drilled through the rotation of a drill cylinder driven by the motor, the electric wire pole hole is less, and the power consumption is little, and is efficient, and the montant is effectual, takes out earth through the drill pipe is automatic, and intensity of labour is little, and it is efficient to dig the hole.

In order to realize the utility model aims at, the utility model adopts the following technical scheme:

the utility model provides a wire pole setting device, includes moving mechanism and fixed establishment, the last mechanism of holing that is equipped with of moving mechanism, moving mechanism's upper end middle part is equipped with slewing mechanism, the last lifting mechanism that installs of slewing mechanism, the end of lifting mechanism is equipped with coupling mechanism, coupling mechanism is connected with fixed establishment.

The moving mechanism comprises a vehicle body, a hydraulic machine and an internal combustion engine are mounted inside the vehicle body, crawler wheels are mounted at the bottom of the moving mechanism, and a sliding hole is formed in the front end of the moving mechanism and penetrates through the vehicle body.

The rotating mechanism comprises a rotating disc, the rotating disc is rotatably connected to the middle of the upper end of the vehicle body, and a cab is fixed to the middle of the upper surface of the rotating disc.

The mechanism of holing includes first telescopic link, first telescopic link is total two, the lower extreme of two first telescopic links is fixed respectively on the automobile body, the side at the motor is fixed through the otic placode symmetry respectively to the upper end of two first telescopic links, the output of motor is fixed with the drive shaft through the shaft coupling, the lower extreme of drive shaft is fixed with a drill section of thick bamboo, motor and drill section of thick bamboo sliding connection are on the slide tunnel, the lower extreme equidistance of a drill section of thick bamboo is fixed with the mechanism of holing that is no less than twenty, the upper end of motor is fixed with the connecting rod through the round pin axle, the circular slot has been seted up to the upper end of connecting rod, the circular slot is arc.

Lifting mechanism includes first rocking arm, first rocking arm passes through the round pin hub fixation in the side of driver's cabin, the downside middle part of first rocking arm has the second telescopic link through the round pin hub fixation, the other end of second telescopic link is located the side of first rocking arm below at the driver's cabin through the round pin hub fixation, the side middle part of first rocking arm leans on lower rigidity symmetry to be fixed with two compression legs, the side middle part of first rocking arm leans on the position to have the second rocking arm through the round pin hub fixation, the upper end of second rocking arm has the third telescopic link through the round pin hub fixation, the other end of third telescopic link is through the round pin hub fixation in the upper end of first rocking arm.

Coupling mechanism includes the connector, the one end of connector is fixed with the fixed axle, the other end of fixed axle is fixed with the dop, fixed axle and dop rotate to be connected in the terminal downthehole of second rocking arm, the opposite side symmetry of connector is fixed with two connecting rods, the other end of two connecting rods is fixed with the card axle respectively, the diameter of card axle is less than the diameter of connecting rod, there is the nut through threaded connection on the card axle.

The utility model discloses a wire pole, including fixed establishment, wire pole, center of the sphere board, fixed plate, pivot pin, fixed plate and fixed plate are connected through the card axle respectively, the fixed plate is connected through the pivot pin to one side that the sphere board is close to the wire pole microcephaly, the other end of ten bull sticks is fixed with the friction plate through the round pin axle respectively.

The novel electric friction ball is characterized in that one end, close to the friction plate, of the through ball is provided with at least ten mounting grooves, the mounting grooves correspond to the friction plate in position, an electric telescopic rod is connected to the inside of each mounting groove through a pin shaft, the other end of the electric telescopic rod is connected to one end, close to the friction plate, of the rotating rod through a pin shaft, the friction plate is fixed to the middle of the rotating rod, and the inner side of the friction plate is arc-shaped.

The width between the two connecting rods is larger than that of the first rotating arm, the connecting rods are connected with the motor to form a certain pretightening force, and the connecting rods can rotate on the motor under the action of an external force.

The cross section area of the upper end of the drill cylinder is smaller than that of the lower end of the drill cylinder, the radian of one end, close to the spherical surface plate, of the friction plate is larger, and the change degree of the radian on the friction plate is the same as that of a telegraph pole.

Since the technical scheme is used, the utility model discloses following beneficial effect has:

the utility model relates to a telegraph pole erecting device, which can keep the telegraph pole in absolute vertical state under the off-ground state through the free rotation of a through-center ball on a spherical plate, has high quality of the vertical rod, is not easy to incline, firm in fixation and high in safety, the fixing mechanism can move towards one end of the big end of the telegraph pole through a rotating rod and a friction plate, the fixing mechanism can be conveniently taken down after the vertical rod is finished, the operation is convenient, the safety is good, the efficiency is high, the clamping shaft can be more conveniently fixed on the fixing mechanism through the rotation of a connecting mechanism on a second rotating arm, meanwhile, the position of the telegraph pole can be adjusted under the action of gravity, the verticality of the telegraph pole and the ground is improved, a fixing truss of the vertical rod is firm, the gravity of the telegraph pole is amplified and applied to a motor by utilizing the lever principle through a connecting rod, the motor is pressed down, the energy is environment-friendly, the telegraph pole hole is drilled through the rotation of a motor, the telegraph pole hole is smaller, the energy consumption is little, and is efficient, and the montant is effectual, takes out earth through the drill pipe is automatic, and intensity of labour is little, and it is efficient to dig the hole.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a front view of the present invention;

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

FIG. 4 is a front view of the punching mechanism of the present invention;

figure 5 is a perspective view of a utility pole of the present invention;

fig. 6 is a perspective view of the fixing mechanism of the present invention;

FIG. 7 is a schematic view of a half-cut three-dimensional structure of the fixing mechanism of the present invention;

fig. 8 is a perspective view of the connection mechanism of the present invention.

1. A moving mechanism; 101. a vehicle body; 102. a crawler wheel; 103. sliding holes; 2. a rotating mechanism; 201. a turntable; 202. a cab; 3. a hole punching mechanism; 301. a connecting rod; 302. a motor; 303. a drive shaft; 304. a circular groove; 305. an ear plate; 306. a first telescopic rod; 307. drilling a barrel; 308. drilling teeth; 4. a lifting mechanism; 401. a second telescopic rod; 402. pressing the column; 403. a first rotating arm; 404. a third telescopic rod; 405. a second rotating arm; 5. a connecting mechanism; 501. a connector; 502. a fixed shaft; 503. clamping a head; 504. a connecting rod; 505. clamping a shaft; 6. a fixing mechanism; 601. a ball panel; 602. a fixing plate; 603. a nut; 604. a heart-through ball; 605. a rotating rod; 606. a friction plate; 607. a utility pole; 608. a big end of the telegraph pole; 609. a small end of the telegraph pole; 610. an electric telescopic rod; 611. and (4) mounting the groove.

Detailed Description

The invention will be explained in more detail by the following examples, which disclose the invention and are intended to protect all technical improvements within the scope of the invention.

The utility model discloses a wire pole setting device that combines attached figure 1~8, including moving mechanism 1 and fixed establishment 6, the last mechanism 3 that punches a hole that is equipped with of moving mechanism 1, the upper end middle part of moving mechanism 1 is equipped with slewing mechanism 2, installs lifting mechanism 4 on the slewing mechanism 2, and lifting mechanism 4's end is equipped with coupling mechanism 5, and coupling mechanism 5 is connected with fixed establishment 6.

The moving mechanism 1 comprises a vehicle body 101, a hydraulic machine and an internal combustion engine are mounted inside the vehicle body 101, crawler wheels 102 are mounted at the bottom of the moving mechanism 1, a slide hole 103 is formed in the front end of the moving mechanism 1, and the slide hole 103 penetrates through the vehicle body 101. The drill barrel 307 may be made to penetrate the vehicle body 101, boring into the ground.

The rotating mechanism 2 comprises a rotating disc 201, a hydraulic machine in the vehicle body 101 can drive a hydraulic telescopic rod connected to the side face of the rotating disc 201 to control the rotation of the rotating disc 201, the rotating disc 201 is rotatably connected to the middle of the upper end of the vehicle body 101, and a cab 202 is fixed to the middle of the upper surface of the rotating disc 201.

The punching mechanism 3 comprises two first telescopic rods 306, the two first telescopic rods 306 are total, the lower ends of the two first telescopic rods 306 are respectively fixed on the vehicle body 101, the upper ends of the two first telescopic rods 306 are respectively symmetrically fixed on the side surface of the motor 302 through ear plates 305, the output end of the motor 302 is fixed with a driving shaft 303 through a coupling, the lower end of the driving shaft 303 is fixed with a drilling barrel 307, the motor 302 and the drilling barrel 307 are slidably connected on the sliding hole 103, the lower ends of the drilling barrel 307 are equidistantly fixed with at least twenty punching mechanisms 308, the upper end of the motor 302 is fixed with a connecting rod 301 through a pin shaft, the upper end of the connecting rod 301 is provided with a circular groove 304, and the circular groove 304 is in an arc shape.

The lifting mechanism 4 comprises a first rotating arm 403, the first rotating arm 403 is fixed on the side of the cab 202 through a pin shaft, a second telescopic rod 401 is fixed on the middle of the lower side surface of the first rotating arm 403 through a pin shaft, the other end of the second telescopic rod 401 is fixed on the side of the cab 202 below the first rotating arm 403 through a pin shaft, two compression columns 402 are symmetrically fixed on the middle of the side of the first rotating arm 403 close to the lower position, a second rotating arm 405 is fixed on the middle of the side of the first rotating arm 403 close to the upper position through a pin shaft, a third telescopic rod 404 is fixed on the upper end of the second rotating arm 405 through a pin shaft, and the other end of the third telescopic rod 404 is fixed on the upper end of the first rotating arm 403 through a pin shaft.

The connecting mechanism 5 comprises a connecting head 501, a fixed shaft 502 is fixed at one end of the connecting head 501, a clamping head 503 is fixed at the other end of the fixed shaft 502, the fixed shaft 502 and the clamping head 503 are rotatably connected in a hole at the tail end of the second rotating arm 405, two connecting rods 504 are symmetrically fixed at the other side of the connecting head 501, clamping shafts 505 are respectively fixed at the other ends of the two connecting rods 504, the diameter of each clamping shaft 505 is smaller than that of each connecting rod 504, and a nut 603 is connected to each clamping shaft 505 through threads.

The fixing mechanism 6 comprises a telegraph pole 607, a telegraph pole big head 608 and a telegraph pole small head 609 are formed at two ends of the telegraph pole 607 respectively, a through ball 604 is slidably connected to the middle of the telegraph pole 607, two ball panels 601 are slidably connected to the outer ends of the through ball 604, fixing plates 602 are fixed at two ends of the two ball panels 601 respectively, two corresponding fixing plates 602 at two ends of the two ball panels 601 are connected through clamping shafts 505 respectively, one side, close to the telegraph pole small head 609, of each ball panel 601 is connected with at least ten rotating rods 605 through a pin shaft, and friction plates 606 are fixed at the other ends of the ten rotating rods 605 through pin shafts respectively.

At least ten mounting grooves 610 are formed in one end, close to the friction plate 606, of the through ball 604, the mounting grooves 610 correspond to the friction plate 606 in position, an electric telescopic rod 611 is connected to the inside of each mounting groove 610 through a pin shaft, the other end of the electric telescopic rod 611 is connected to one end, close to the friction plate 606, of the rotating rod 605 through a pin shaft, the friction plate 606 is fixed to the middle of the rotating rod 605, the friction plate 606 can automatically rotate when contacting with the telegraph pole 607 and is attached to the telegraph pole 607, and the inner side of the friction plate 606 is arc-shaped.

The width between the two connecting rods 301 is larger than that of the first rotating arm 403, so that the first rotating arm 403 is not in contact with the connecting rod 301, damage is avoided, a certain pretightening force is connected between the connecting rod 301 and the motor 302, and the connecting rod 301 can rotate on the motor 302 under the action of an external force.

The cross sectional area of the upper end of the drill cylinder 307 is smaller than that of the lower end, so that the pressure applied to the upper end of drilled soil is larger, the soil is compressed and fixed inside the drill cylinder 307 and is automatically taken out, the radian of one end, close to the spherical panel 601, of the friction plate 606 is larger, the radian change degree of the friction plate 606 is the same as that of the telegraph pole 607, the contact area between the friction plate 606 and the telegraph pole 607 is larger, the friction force is increased, and the abrasion is reduced.

The output end of a hydraulic machine in the vehicle body 101 is respectively connected with the input ends of the first telescopic rod 306, the second telescopic rod 401 and the third telescopic rod 404, the hydraulic machine in the vehicle body 101 can drive the hydraulic telescopic rods connected to the side face of the turntable 201 to control the rotation of the turntable 201, wheels are arranged in the crawler wheels 102 and meshed with the crawler wheels 102, the wheels are connected with the output end of an internal combustion engine in the vehicle body 101 through rotating shafts, and the internal combustion engine in the vehicle body 101 can drive the wheels and the crawler wheels 102 to rotate through the rotating shafts.

When the telegraph pole erecting device is used, a worker marks the pre-pit digging position of a telegraph pole, a driver sits in a cab 202, a driving moving mechanism 1 moves a sliding hole 103 to be aligned with the pit digging position mark, the telegraph pole 607 is jacked up a little by using a jack, two ball panels 601 and an inner half through ball 604 are buckled in the middle of the telegraph pole 607 through a fixing plate 602, a hydraulic machine driving turntable 201 in a car body 101 rotates on the car body 101 to a proper angle, a hydraulic machine in the car body 101 controls a second telescopic rod 401 to shorten and drive a first rotating arm 403 to rotate downwards on the cab 202, meanwhile, a third telescopic rod 404 extends to drive a second rotating arm 405 to drive a connecting mechanism 5 to move downwards, a connecting head 501 is rotated to a proper position on the second rotating arm 405, a clamping shaft 505 is inserted into inserting holes in the two fixing plates 602, a nut 603 is screwed at the other end, the two fixing plates 602 are fixed together under the action of the connecting rod 504 and the nut 603, the electric telescopic rod 611 installed in the installation groove 610 is shortened, the rotating rod 605 is driven to rotate inwards on the spherical plate 601, the friction plate 606 is driven to move towards the telegraph pole, the pulling force applied to the rotating rod 605 by the electric telescopic rod 611 is amplified under the action of the lever principle of the rotating rod 605, so that the friction plate 606 is pressed on the telegraph pole 607, at the moment, the hydraulic machine in the vehicle body 101 controls the second telescopic rod 401 to extend to lift the first rotating arm 403, the third telescopic rod 404 is shortened to lift the connecting mechanism 5, the connecting mechanism 5 drives the telegraph pole 607 to lift, as one end of the big end 608 of the telegraph pole is heavier, one end of the small end 609 of the telegraph pole is tilted and lifted until the telegraph pole 607 is completely vertical to the ground, the fixing shaft 502 can rotate on the second rotating arm 405 in the lifting process, the position of the telegraph pole 607 is adjusted under the action of gravity, meanwhile, the central sphere 604 can rotate on the spherical plate 601 to adjust the telegraph pole 607 to be in a completely vertical state, ten friction plates 606 on the rotating rod 605 are in contact with the telegraph pole 607 to fix the telegraph pole 607 under the action of friction force, the rotating rod 605 can amplify the friction force between the friction plates 606 and the telegraph pole 607 by using the gravity of the telegraph pole 607 to fix the telegraph pole 607, a hydraulic machine in the vehicle body 101 controls a rotating disc 201 to rotate on the vehicle body 101 to drive a lifting mechanism 4 to rotate right above the punching mechanism 3, the hydraulic machine in the vehicle body 101 controls a second telescopic rod 401 to shorten and drive a first rotating arm 403 to rotate downwards on a cab 202, meanwhile, a third telescopic rod 404 extends to drive a second rotating arm 405 to drive a connecting mechanism 5 to move downwards, two compression columns 402 on two sides of the first rotating arm 403 move downwards to be in contact with a circular groove 304 at the upper end of a connecting rod 301, and the second telescopic rod 401 and the third telescopic rod 404 are powered off, the punching mechanism 3 is pressed downwards under the action of the gravity of a telegraph pole 607 and the lever action of a first rotating arm 403, a connecting rod 301 can rotate on a motor 302 in the process of pressing the motor 302 downwards, the motor 302 is started to control a drill drum 307 to rotate in a sliding hole 103 through a driving shaft 303, a hole is drilled downwards at a pre-pit marking position, internal soil enters the drill drum 307, the upper end of the drill drum 307 is smaller, the soil is fixed in the drill drum 307 under higher pressure, when a wire pole pit reaches a certain depth, a hydraulic machine in the vehicle body 101 provides power for a first telescopic rod 306, the first telescopic rod 306 extends to jack up an ear plate 305, the ear plate 305 drives the motor 302 to move upwards, the motor 302 drives the drill drum 307 to move upwards through the driving shaft and extract from the hole on the ground, simultaneously drives the soil in the drill drum 307 to move upwards, an internal combustion engine in the vehicle body 101 drives wheels on a track wheel 102 to rotate through rotating shafts, the wheels drive the crawler wheels 102 to rotate to drive the vehicle body 101 to move to expose the wire pole hole, the drill cylinder 307 is knocked to enable internal soil to fall out under the action of gravity, the vehicle body 101 is continuously moved to move the big end 608 of the wire pole at the bottom of the vertical wire pole to the position of the hole, the hydraulic machine in the vehicle body 101 controls the second telescopic rod 401 to shorten to drive the first rotating arm 403 to rotate downwards on the cab 202, meanwhile, the third telescopic rod 404 extends to drive the second rotating arm 405 to drive the connecting mechanism 5 to move downwards to enable the wire pole fixed on the connecting mechanism 5 to move downwards to be inserted into the hole, soil is backfilled and compacted, the electric telescopic rod 611 installed in the installation groove 610 extends to drive the rotating rod 605 to rotate outwards on the spherical plate 601 to drive the friction plate 606 to move in the direction away from the wire pole, so that the friction plate 606 is separated from the wire pole 607, the hydraulic machine in the vehicle body 101 controls the second telescopic rod 401 to shorten to drive the first rotating arm 403 to rotate downwards on the cab 202, meanwhile, the third telescopic rod 404 extends to drive the second rotating arm 405 to drive the connecting mechanism 5 to move downwards, drive the fixing mechanism 6 to slide on the telegraph pole 607 towards the big end 608 of the lower telegraph pole, take down the nut 603 at the lower end position, and draw out the clamping shaft 505 to complete the vertical pole.

The present invention is not described in detail in the prior art, and although the present invention has been specifically shown and described in connection with the preferred embodiments, the method and the way of specifically implementing the technical solution are numerous, and only the preferred embodiments of the present invention are described above, but those skilled in the art should understand that the present invention can be variously changed in form and detail without departing from the spirit and scope of the present invention defined by the appended claims, and all of them are the protection scope of the present invention.

Claims

1. The utility model provides a wire pole setting device, includes moving mechanism (1) and fixed establishment (6), characterized by: be equipped with mechanism (3) of holing on moving mechanism (1), the upper end middle part of moving mechanism (1) is equipped with slewing mechanism (2), install lifting mechanism (4) on slewing mechanism (2), the end of lifting mechanism (4) is equipped with coupling mechanism (5), coupling mechanism (5) are connected with fixed establishment (6).

2. The utility pole apparatus of claim 1, wherein: the moving mechanism (1) comprises a vehicle body (101), a hydraulic machine and an internal combustion engine are mounted inside the vehicle body (101), crawler wheels (102) are mounted at the bottom of the moving mechanism (1), a sliding hole (103) is formed in the front end of the moving mechanism (1), and the sliding hole (103) penetrates through the vehicle body (101).

3. The utility pole apparatus of claim 1, wherein: slewing mechanism (2) include carousel (201), carousel (201) rotate to be connected in the upper end middle part of automobile body (101), the upper surface middle part of carousel (201) is fixed with driver's cabin (202).

4. The utility pole apparatus of claim 1, wherein: the mechanism of holing (3) includes first telescopic link (306), first telescopic link (306) is total two, the lower extreme of two first telescopic links (306) is fixed respectively on automobile body (101), the side at motor (302) is fixed through otic placode (305) symmetry respectively to the upper end of two first telescopic links (306), the output of motor (302) is fixed with drive shaft (303) through the shaft coupling, the lower extreme of drive shaft (303) is fixed with a drill section of thick bamboo (307), motor (302) and drill section of thick bamboo (307) sliding connection are on smooth hole (103), the lower extreme equidistance of drill section of thick bamboo (307) is fixed with and is no less than twenty drill teeth (308), the upper end of motor (302) is fixed with connecting rod (301) through the round pin axle, circular slot (304) have been seted up to the upper end of connecting rod (301), circular slot (304) are arc.

5. The utility pole apparatus of claim 1, wherein: lifting mechanism (4) include first rocking arm (403), first rocking arm (403) are fixed in the side of driver's cabin (202) through the round pin axle, the downside middle part of first rocking arm (403) has second telescopic link (401) through the round pin hub fixation, the other end of second telescopic link (401) is fixed on the side that driver's cabin (202) is located first rocking arm (403) below through the round pin axle, the side middle part of first rocking arm (403) leans on lower rigidity symmetry to be fixed with two compression legs (402), the side middle part of first rocking arm (403) leans on the position to have second rocking arm (405) through the round pin hub fixation, the upper end of second rocking arm (405) has third telescopic link (404) through the round pin axle fixation, the other end of third telescopic link (404) is fixed in the upper end of first rocking arm (403) through the round pin axle.

6. The utility pole apparatus of claim 1, wherein: coupling mechanism (5) are including connector (501), the one end of connector (501) is fixed with fixed axle (502), the other end of fixed axle (502) is fixed with dop (503), fixed axle (502) and dop (503) rotate to be connected in the terminal downthehole of second rocking arm (405), the opposite side symmetry of connector (501) is fixed with two connecting rods (504), the other end of two connecting rods (504) is fixed with card axle (505) respectively, the diameter of card axle (505) is less than the diameter of connecting rod (504), there is nut (603) through threaded connection on card axle (505).

7. The utility pole apparatus of claim 1, wherein: the fixing mechanism (6) comprises a telegraph pole (607), a telegraph pole large head (608) and a telegraph pole small head (609) are formed at two ends of the telegraph pole (607) respectively, a center through ball (604) is connected to the middle of the telegraph pole (607) in a sliding mode, two ball panels (601) are connected to the outer ends of the center through ball (604) in a sliding mode, fixing plates (602) are fixed to two ends of the two ball panels (601) respectively, two corresponding fixing plates (602) at two ends of the two ball panels (601) are connected through clamping shafts (505) respectively, one side, close to the telegraph pole small head (609), of each ball panel (601) is connected with at least ten rotating rods (605) through a pin shaft, and friction plates (606) are fixed to the other ends of the ten rotating rods (605) through pin shafts respectively.

8. The utility pole apparatus of claim 7, wherein: one end, close to the friction plate (606), of the through center ball (604) is provided with at least ten mounting grooves (610), the mounting grooves (610) correspond to the friction plate (606), an electric telescopic rod (611) is connected to the inside of the mounting grooves (610) through a pin shaft, the other end of the electric telescopic rod (611) is connected to one end, close to the friction plate (606), of the rotating rod (605) through a pin shaft, the friction plate (606) is fixed to the middle of the rotating rod (605), and the inner side of the friction plate (606) is arc-shaped.

9. The utility pole apparatus of claim 4, wherein: the width between the two connecting rods (301) is larger than that of the first rotating arm (403), a certain pretightening force is connected between the connecting rods (301) and the motor (302), and the connecting rods (301) can rotate on the motor (302) under the action of an external force.

10. The utility pole apparatus of claim 7, wherein: the radian of one end of the friction plate (606) close to the spherical panel (601) is larger, and the radian of the friction plate (606) is changed to the same degree as that of the telegraph pole (607).