CN117166837A - Electric power construction electric pole burying device and method - Google Patents

Abstract

The application relates to the technical field of electric power construction, in particular to an electric power construction electric pole burying device and a method thereof, wherein the electric power construction electric pole burying device comprises a crawler base, a turntable, a connecting seat, an adjusting component, a rotating component and a clamping component; the turntable is fixedly arranged on the crawler base; the connecting seat is fixedly arranged on the turntable and is rotationally connected with the turntable; the adjusting component comprises a first hinging part, a second hinging part, a third hinging part and a hydraulic system, wherein the hydraulic system consists of a first hydraulic rod, a second hydraulic rod and a third hydraulic rod; the rotating component is fixedly arranged at one end of the third hinging part far away from the second hinging part; the clamping assembly comprises a telescopic mechanism and clamping jaws, the telescopic mechanism is fixedly connected with the rotating assembly, and the clamping jaws are fixedly connected with the telescopic mechanism. The automatic wire pole clamping device realizes automation of clamping the wire pole, ensures that the wire pole is vertically butted with the dug pit hole by adjusting the angle and the height of the wire pole, releases manual transportation, reduces labor cost and improves safety and working efficiency.

Description

Electric power construction electric pole burying device and method

Technical Field

The application relates to the technical field of electric power construction, in particular to an electric power construction electric pole burying device and an electric power construction electric pole burying method.

Background

The pole plays the effect of supporting overhead conductor, common pole has wooden pole, cement pole, electric power iron tower etc. along with living standard's improvement and needs, in order to be convenient for cross regional electric power use then need lay the wire pole, erect the circuit on the wire pole and transmit electric power, in current wire pole buries, dig the hole of burying in advance usually by having in advance, bind wire rope on the wire pole, and hang the wire pole through suspension tool and be close to the hole of digging, pull the bottom cooperation suspension tool of wire pole by the manpower and descend the wire pole and make the wire pole insert in the hole of digging.

This in-process needs a large amount of manpowers, buries efficiency lower to the wire pole to in-process wire pole and ground slope that hangs need the manpower to stimulate and correct, the in-process easily takes place the incident.

Disclosure of Invention

To the above problems, the utility model provides an electric power construction pole buries device and method thereof, has solved how simple and convenient quick buried pole's problem through track base, carousel, connecting seat, adjusting part, rotating part and clamping part that set up.

In order to solve the problems in the prior art, the application adopts the following technical scheme:

the utility model provides an electric power construction pole buries device, includes track base, carousel, connecting seat, adjusting part, rotating part and clamping part; the crawler belt base is horizontally arranged on the ground and used for driving the device to run; the turntable is fixedly arranged on the crawler base; the connecting seat is fixedly arranged on the turntable and is rotationally connected with the turntable; the adjusting component comprises a first hinging part, a second hinging part, a third hinging part and a hydraulic system, wherein the hydraulic system consists of a first hydraulic rod, a second hydraulic rod and a third hydraulic rod, two ends of the first hydraulic rod are respectively hinged with the connecting seat and the first hinging part, two ends of the second hydraulic rod are respectively hinged with the first hinging part and the second hinging part, and the third hydraulic rod is respectively hinged with the second hinging part and the third hinging part; the rotating component is fixedly arranged at one end of the third hinging part far away from the second hinging part; the clamping assembly comprises a telescopic mechanism and clamping jaws, the telescopic mechanism is fixedly connected with the rotating assembly, and the clamping jaws are fixedly connected with the telescopic mechanism.

Preferably, the telescopic mechanism comprises a connecting block and a hydraulic telescopic rod; the connecting block is of a T-shaped cylindrical structure, and the bottom end of the connecting block is fixedly connected with the rotating assembly; one end of the hydraulic telescopic rod is inserted into the cylinders at the two ends of the connecting block and is in sliding fit with the cylinders at the two ends of the connecting block.

Preferably, the clamping jaw comprises a mounting seat, a hinging block, a hydraulic driver and a jaw head; the mounting seat is of a frame structure and is fixedly arranged at one end, far away from the connecting block, of the hydraulic telescopic rod, and an opening is formed in the upper end of the mounting seat; the hinge blocks are two and are arranged on two sides of the mounting seat, and are hinged with the mounting seat; the hydraulic driver is fixedly arranged at one end, close to the opening, inside the mounting seat, the output end of the hydraulic driver is hinged with the upper end of one hinging block, and the head end of the hydraulic driver is hinged with the upper end of the other hinging block; the claw head is provided with a plurality of ends which are fixedly arranged on the hinging block and far away from the hydraulic driver.

Preferably, a linkage rod and a supporting piece are arranged in the clamping jaw; the linkage rods are four and are arranged on two sides of the hinging block in a pairwise manner, and the connecting blocks are hinged with the hinging block; the support piece is fixedly arranged at the bottom of the mounting seat, and two ends of the support piece are abutted against the inner wall of the mounting seat.

Preferably, the clamping jaw is provided with a cover plate and a tension spring hasp; the cover plate is arranged at the through hole on the mounting seat, one end of the cover plate is hinged with the mounting seat, and the other end of the cover plate is provided with a hasp seat; one end of the through hole of the mounting seat, which is close to the hasp seat, is provided with a lapping groove, one end of the tension spring hasp is hinged with the hasp seat, and the other end of the tension spring hasp is abutted with the lapping groove.

Preferably, the clamping jaw is provided with a fixing mechanism, and the fixing mechanism comprises an adjusting block and a bolt; the outer side wall of the mounting seat is provided with a fixing groove, the fixing groove is provided with a first through hole, the adjusting block is arranged in the fixing groove and is in sliding fit with the fixing groove, and the adjusting block is provided with a plurality of second through holes which are matched with the through holes; the bolt passes through the first through hole of fixed slot and inserts in the second through hole of establishing on the regulating block.

Preferably, the rotating assembly comprises a fixed seat, a rotating cylinder and a connecting buckle; the fixed seat is fixedly connected with one end, far away from the second hinge part, of the third hinge part; the rotary cylinder is fixedly arranged on the fixed seat; the shape of the connecting buckle is adapted to the shape of the output end of the rotary cylinder, one end of the connecting buckle is fixedly connected with the output end of the rotary cylinder, and the other end of the connecting buckle is fixedly connected with the connecting block.

Preferably, the first hinge part comprises a main shaft, a first connecting rod and a first connecting shaft; the two sides of the connecting seat are provided with first shaft holes, and the main shaft is fixedly arranged on the connecting seat and is coaxially arranged with the first shaft holes; the first connecting rod is provided with two connecting rods, and two ends of the first connecting rod are respectively hinged with two ends of the main shaft; the first connecting shaft is provided with a plurality of inner side walls, two ends of the first connecting shaft are fixedly connected with the inner side walls of the first connecting rods on two sides of the first connecting shaft respectively, the first connecting shaft is hinged with the tail end of the first hydraulic rod, and the first connecting shaft is hinged with the head end of the second hydraulic rod.

Preferably, the second hinge part comprises a second connecting rod and a second connecting shaft, and the third hinge part comprises a bearing block and a third connecting shaft; one end of the second connecting rod is hinged with one end, far away from the connecting seat, of the first connecting rod; the second connecting shafts are provided with a plurality of second connecting rods, the two ends of the second connecting shafts are fixedly connected with the inner side walls of the second connecting rods on the two sides of the second connecting shafts respectively, the second connecting shafts are hinged with the tail ends of the second hydraulic rods, and the second connecting shafts are hinged with the head ends of the third hydraulic rods; the two bearing blocks are cut in a T-shaped structure, one end of each bearing block is hinged with one end, far away from the first connecting rod, of each second connecting rod, and one side wall, far away from the second connecting rod, of each bearing block is fixedly connected with each connecting block; the two ends of the third connecting shaft are fixedly connected with the inner side walls of the bearing blocks on the two sides of the third connecting shaft respectively, and the third connecting shaft is hinged with the tail end of the third hydraulic rod.

The electric power construction pole burying method comprises the following steps:

s1, driving a crawler base to enable the device to run and approach a telegraph pole placed on the ground, and rotating a turntable to adjust the positions of clamping jaws to enable the clamping jaws to face the telegraph pole;

s2, driving the adjusting assembly to descend and adjusting the angle between the clamping jaw and the telegraph pole, wherein the clamping jaw is close to the telegraph pole;

s3, starting a telescopic mechanism to adjust the distance between clamping jaws, lifting the clamping jaws by the adjusting assembly after the clamping jaws clamp the telegraph pole, and enabling the clamping jaws to clamp the telegraph pole to leave the ground;

s4, starting the rotating assembly to match with the rotating clamping jaw, and adjusting the angle and the position of the clamped telegraph pole according to the characteristics of the field or the surrounding environment, so that the crawler belt base is convenient to transport;

s5, the crawler base line-carrying clamping jaw clamping telegraph pole is close to the dug hole, the adjusting assembly is started to adjust the height of the clamping jaw, meanwhile, the rotating assembly is driven to be matched with the angle adjusting telegraph pole, and the telegraph pole is vertically inserted into the dug hole.

Compared with the prior art, the application has the beneficial effects that:

1. according to the application, the automatic effect of clamping the telegraph pole is realized through the telescopic mechanism and the clamping jaw, the manual carrying is released, the labor cost is reduced, and the safety and the working efficiency are improved.

2. The application realizes the effect of adjusting the angle and the height of the telegraph pole through the adjusting component and the rotating component, ensures the normal transportation of the clamped telegraph pole, and simultaneously ensures the vertical butt joint of the telegraph pole and the dug pit.

3. The application realizes the effect of protecting the inner components of the clamping jaw through the cover plate and the tension spring hasp, is convenient for the staff to observe the conditions in the clamping jaw and maintain and overhaul in time, ensures the normal work of the clamping jaw, and improves the safety during use.

Drawings

Fig. 1 is a perspective view schematically showing an electric power construction pole burying device and a method thereof;

fig. 2 is a side view of an electric power construction pole burying device and a method thereof;

fig. 3 is a perspective view of an adjusting assembly of an electric power construction pole burying device and a method thereof;

fig. 4 is a perspective view of a clamping assembly of an electric power construction pole burying device and a method thereof;

fig. 5 is a side view of a telescopic mechanism of an electric power construction pole burying device and a method thereof;

fig. 6 is a perspective view of a jaw of an electric pole burying device and a method thereof;

fig. 7 is a bottom view of the jaws of an electric utility pole burying device and method;

fig. 8 is a top view of a jaw of an electric pole burying device and a method thereof;

FIG. 9 is a cross-sectional view at A-A of FIG. 8;

fig. 10 is a top view of a jaw of an electric pole burying device and a method thereof;

fig. 11 is a perspective view of a fixing mechanism of an electric power construction pole burying device and a method thereof;

fig. 12 is a perspective view of an adjusting block and a latch of an electric power construction pole burying device and a method thereof;

fig. 13 is a perspective view of a rotating assembly of an electric power construction pole burying device and a method thereof;

fig. 14 is a perspective view of a first hinge part of an electric power construction pole burying device and a method thereof;

fig. 15 is a perspective view of a second hinge part of the electric power construction pole burying device and the method thereof;

fig. 16 is a perspective view of a third hinge part of the electric power construction pole burying device and the method thereof.

The reference numerals in the figures are:

1-a crawler belt base;

2-a turntable;

3-connecting seats;

4-an adjustment assembly;

41-a first hinge; 411-spindle; 412-a first connecting rod; 413—a first connection shaft;

42-a second hinge; 421-second connecting rod; 422-a second connecting shaft;

43-a third hinge; 431-a receiving block; 432-a third connecting shaft;

44-a hydraulic system; 441-a first hydraulic lever; 442-a second hydraulic lever; 443-a third hydraulic lever;

a 5-rotation assembly;

51-fixing seats;

52-a rotary cylinder;

53-connecting buckles;

6-a clamping assembly;

61-telescoping mechanism;

611-connecting blocks;

612-hydraulic telescoping rod;

62-clamping jaw; 621-mounting seats; 622-hinge blocks; 623-a hydraulic drive; 624-jaw; 625-linkage rod; 626-a support; 627-cover plate; 628-tension spring catch;

63-a securing mechanism; 631-an adjustment block; 632-pins.

Detailed Description

The application will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the application and the specific objects and functions achieved.

See fig. 1-16:

the utility model provides an electric power construction pole buries device, includes track base 1, carousel 2, connecting seat 3, adjusting part 4, rotating part 5 and clamping part 6;

the crawler base 1 is horizontally arranged on the ground and used for driving the device to run;

the turntable 2 is fixedly arranged on the crawler base 1;

the connecting seat 3 is fixedly arranged on the turntable 2 and is rotationally connected with the turntable 2;

the adjusting component 4 comprises a first hinge part 41, a second hinge part 42, a third hinge part 43 and a hydraulic system 44, wherein the hydraulic system 44 comprises a first hydraulic rod 441, a second hydraulic rod 442 and a third hydraulic rod 443, two ends of the first hydraulic rod 441 are respectively hinged with the connecting seat 3 and the first hinge part 41, two ends of the second hydraulic rod 442 are respectively hinged with the first hinge part 41 and the second hinge part 42, and the third hydraulic rod 443 is respectively hinged with the second hinge part 42 and the third hinge part 43;

the rotating assembly 5 is fixedly mounted on the third hinge part 43 at an end remote from the second hinge part 42;

the clamping assembly 6 comprises a telescopic mechanism 61 and clamping jaws 62, the telescopic mechanism 61 is fixedly connected with the rotating assembly 5, and the clamping jaws 62 are fixedly connected with the telescopic mechanism 61.

When staff needs to bury the wire pole into the hole that has been dug earlier, drive track base 1 makes the device go and be close to the wire pole of placing subaerial, thereby connector 3 can rotate through carousel 2 and conveniently carry out the regulation of position and angle, when reaching the assigned position, with further messenger's clamping jaw 62 being close to the wire pole through drive adjustment assembly 4, telescopic machanism 61 can adjust the distance between clamping jaw 62, clamping jaw 62 is with the wire pole press from both sides tight back adjustment assembly 4 and adjust the height of clamping jaw 62 and make the wire pole by the centre gripping leave ground, make the staff can be according to the characteristics of place or surrounding environment through drive rotation assembly 5 cooperation and adjust angle, the position of the wire pole of centre gripping, make things convenient for track base 1's transportation, thereby when track base 1 centre gripping wire pole is close to the hole that has dug, adjustment assembly 4 reduces clamping jaw 62 and make the wire pole be close to the hole, and thereby insert the angle of wire pole and dig into the hole that has dug, the problem of how conveniently buried the wire pole has realized burying the automation of wire pole, the safety factor of burying the wire pole has been avoided, the safety factor of safety accident has been improved, safety factor of safety has been avoided, the personnel of safety and safety has been involved in the process.

See fig. 4-5:

the telescopic mechanism 61 comprises a connecting block 611 and a hydraulic telescopic rod 612;

the connecting block 611 is of a T-shaped cylindrical structure, and the bottom end of the connecting block is fixedly connected with the rotating assembly 5;

one end of the hydraulic telescopic rod 612 is inserted into the cylinders at the two ends of the connecting block 611 and is in sliding fit with the cylinders at the two ends of the connecting block 611.

Under the drive of adjusting part 4, descend and make clamping jaw 62 be close to the wire pole, hydraulic telescoping rod 612 that connecting block 611 interpolation was established can carry out flexible regulation this moment, changes the distance between the clamping jaw 62 of both sides according to the characteristics of place environment, has solved the problem of how to adjust the distance between clamping jaw 62, has improved the stability of clamping jaw 62 centre gripping wire pole, has reduced the probability of wire pole landing, has improved the flexibility that clamping jaw 62 used, and convenient transportation has liberated the manual work, has reduced labour cost, has improved work efficiency.

See fig. 6-9:

the clamping jaw 62 comprises a mounting seat 621, a hinge block 622, a hydraulic driver 623 and a jaw head 624;

the mounting seat 621 is of a frame structure and is fixedly arranged at one end, far away from the connecting block 611, of the hydraulic telescopic rod 612, and an opening is formed in the upper end of the mounting seat 621;

the hinge block 622 is provided with two hinge blocks and is arranged on two sides of the mounting seat 621, and the hinge block 622 is hinged with the mounting seat 621;

the hydraulic driver 623 is fixedly arranged at one end, close to the opening, inside the mounting seat 621, the output end of the hydraulic driver 623 is hinged with the upper end of one hinging block 622, and the head end of the hydraulic driver 623 is hinged with the upper end of the other hinging block 622;

the jaw 624 has one end fixedly mounted to the hinge block 622 remote from the hydraulic drive 623.

When the clamping jaw 62 is close to a placed telegraph pole, the hydraulic driver 623 drives the hinging block 622 at the output end to move inwards, so that the claw heads 624 on the hinging block 622 move along with the hinging block, the clamping jaws 62 at two sides are continuously close to each other, so that the telegraph pole is clamped, the claw heads 624 are further provided with insections, friction contacted with the surface of the telegraph pole is increased, the problem of clamping the telegraph pole is solved, manual carrying is liberated, automation of embedding the telegraph pole is realized, labor cost is reduced, and work efficiency is improved.

See fig. 7-9:

a linkage rod 625 and a support 626 are arranged in the clamping jaw 62;

the linkage rods 625 are arranged on two sides of the hinging block 622 in pairs, and the connecting blocks 611 are hinged with the hinging block 622;

the support 626 is fixedly installed at the bottom of the mounting seat 621 and both ends thereof are abutted against the inner wall of the mounting seat 621.

When the hydraulic driver 623 drives the hinge blocks 622 at the output end to move inwards and tightly, the linkage rods 625 hinged at the two sides of the connecting block 611 move inwards at the same time when the hinge blocks 622 at one end move inwards, so that the hinge blocks 622 at the two sides move relatively and press the telegraph pole tightly, the support piece 626 arranged at the bottom ensures the fastening degree and stability of the mounting seat 621, the problem of how to drive the hinge blocks 622 at the other side to move is solved, the pressing force of the claw heads 624 is improved, the safety and clamping effect of the claw heads 624 to clamp the telegraph pole are ensured, the stability of the clamping jaw 62 is improved, the probability of safety accidents is reduced, and the working efficiency is improved.

See fig. 10:

the clamping jaw 62 is provided with a cover plate 627 and a tension spring buckle 628;

the cover plate 627 is arranged at the through hole on the mounting seat 621, one end of the cover plate 627 is hinged with the mounting seat 621, and the other end of the cover plate 627 is provided with a hasp seat;

one end of the through hole of the mounting seat 621, which is close to the hasp seat, is provided with a lapping groove, one end of the tension spring hasp 628 is hinged with the hasp seat, and the other end of the tension spring hasp 628 is abutted with the lapping groove.

The cover plate 627 arranged at the through opening of the mounting seat 621 is fastened on the lap groove by the hasp in a working state or at ordinary times, so that the cover plate 627 is tightly closed to protect the parts inside the mounting seat 621 from being interfered by external environment and damaged by the outside, the parts inside the mounting seat 621 can be maintained and overhauled by opening the hasp to turn over the cover plate 627, the problem of how to maintain the clamping jaw 62 is solved, a worker can conveniently observe the conditions inside the clamping jaw 62, normal work of each part inside the clamping jaw 62 is ensured, the occurrence of safety accidents caused by workpiece damage is avoided, and the use safety is improved.

See fig. 11-12:

the clamping jaw 62 is provided with a fixing mechanism 63, and the fixing mechanism 63 comprises an adjusting block 631 and a bolt 632;

the outer side wall of the mounting seat 621 is provided with a fixed groove, the fixed groove is provided with a first through hole, the adjusting block 631 is arranged in the fixed groove and is in sliding fit with the fixed groove, and the adjusting block 631 is provided with a plurality of second through holes which are matched with the through holes;

the latch 632 is inserted into the second through hole of the adjusting block 631 through the first through hole of the fixing groove.

When the hydraulic driver 623 drives the clamping jaw 62 to clamp the telegraph pole, the position of the adjusting block 631 arranged beside the mounting seat 621 can be further adjusted, the bolt 632 is pulled down, the adjusting block 631 slides along the fixing groove at the outer side of the mounting seat 621, the lower end of the adjusting block 631 is abutted against the outer peripheral wall of the telegraph pole, the second through hole on the adjusting block 631 corresponds to the first through hole on the fixing groove, the position of the adjusting block 631 is fixed by inserting the bolt 632, the problem of how to adjust the position of the adjusting block 631 is solved, the clamped stability of the telegraph pole is ensured, the abrasion caused by the clamping jaw 62 during clamping the telegraph pole is reduced, and the safety of clamping the telegraph pole by the clamping jaw 62 is further improved.

See fig. 13:

the rotating assembly 5 comprises a fixed seat 51, a rotating cylinder 52 and a connecting buckle 53;

the fixed seat 51 is fixedly connected with one end, far away from the second hinge part 42, of the third hinge part 43;

the rotary cylinder 52 is fixedly installed on the fixed seat 51;

the shape of the connecting buckle 53 is adapted to the shape of the output end of the rotary cylinder 52, one end of the connecting buckle 53 is fixedly connected with the output end of the rotary cylinder 52, and the other end of the connecting buckle 53 is fixedly connected with the connecting block 611.

When the hydraulic driver 623 drives the clamping jaw 62 to clamp a telegraph pole, the telegraph pole leaves the ground to facilitate carrying when the adjusting component 4 adjusts the position of the clamping jaw 62, in the carrying process, the rotating cylinder 52 is driven to drive the connecting block 611 fixedly connected with the connecting buckle 53, the clamping jaw 62 is rotated to adjust the angle and the position between the clamping jaw 62 and the ground, the telegraph pole can be horizontally clamped when the carrying is performed, the adjusting component 4 is lifted and the clamping jaw 62 is rotated to enable the telegraph pole to incline or vertically when the surrounding environment is relatively narrow, and the clamping jaw 62 is rotated to enable the clamped telegraph pole to be vertical to the hole when the telegraph pole is buried into the hole, so that the burying of the telegraph pole is facilitated, the problem of how to adjust the angle of the telegraph pole is solved, the effective transportation after the telegraph pole is clamped is ensured, the burying flexibility and the usability of the telegraph pole are improved, the butt joint of the telegraph pole and the hole is ensured, the buried up-joint of the telegraph pole is realized, the utilization rate of staff and the working efficiency are improved, and the labor cost is reduced.

See fig. 14:

the first hinge part 41 includes a main shaft 411, a first connecting rod 412 and a first connecting shaft 413;

first shaft holes are formed in two sides of the connecting seat 3, and the main shaft 411 is fixedly arranged on the connecting seat 3 and is coaxially arranged with the first shaft holes;

the first connecting rod 412 has two ends hinged to the two ends of the main shaft 411;

the first connecting shaft 413 is provided with a plurality of inner side walls, two ends of the first connecting shaft 413 are fixedly connected with the inner side walls of the first connecting rods 412 on two sides of the first connecting shaft 413, the first connecting shaft 413 is hinged to the tail end of the first hydraulic rod 441, and the first connecting shaft 413 is hinged to the head end of the second hydraulic rod 442.

When the first hydraulic rod 441 extends outwards, the first connecting rod 412 is lifted upwards, the first hydraulic rod 441 is contracted inwards, the first connecting rod 412 is lowered downwards, the problem of how to adjust the height of the second connecting rod 421 is solved, the clamping jaw 62 is guaranteed to clamp the telegraph pole to leave the ground for normal transportation, the damage to the telegraph pole caused by friction between the telegraph pole and the bottom surface is avoided, the later use is influenced, the manual transportation is liberated, and the labor cost is reduced.

See fig. 15-16:

the second hinge part 42 includes a second connection rod 421 and a second connection shaft 422, and the third hinge part 43 includes a receiving block 431 and a third connection shaft 432;

one end of the second connecting rod 421 is hinged with one end of the first connecting rod 412 away from the connecting seat 3;

the second connecting shaft 422 is provided with a plurality of inner side walls, two ends of the second connecting shaft 422 are fixedly connected with the inner side walls of the second connecting rods 421 on two sides of the second connecting shaft 422 respectively, the second connecting shaft 422 is hinged with the tail ends of the second hydraulic rods 442, and the second connecting shaft 422 is hinged with the head ends of the third hydraulic rods 443;

the two bearing blocks 431 are cut in a T-shaped structure, one end of each bearing block 431 is hinged with one end, far away from the first connecting rod 412, of the second connecting rod 421, and one side wall, far away from the second connecting rod 421, of each bearing block 431 is fixedly connected with the connecting block 611;

both ends of the third connecting shaft 432 are fixedly connected with the inner side walls of the receiving blocks 431 at both sides thereof, respectively, and the third connecting shaft 432 is hinged with the tail end of the third hydraulic rod 443.

When the first connecting rod 412 is driven by the first hydraulic rod 441 to rise and fall, the second hydraulic rod 442 independently drives the second connecting rod 421 to further adjust the height, when the second hydraulic rod 442 stretches outwards, the second connecting rod 421 is lifted upwards, when the second hydraulic rod 442 contracts inwards, the second connecting rod 421 drops downwards, when the second connecting rod 421 is driven by the second hydraulic rod 442 to rise and fall, the third hydraulic rod 443 independently drives the third connecting rod to further adjust the height, when the third hydraulic rod 443 stretches outwards, the receiving block 431 drops downwards, and when the third hydraulic rod 443 contracts inwards, the second connecting rod 421 lifts upwards, so that the problem of how to adjust the heights of the second connecting rod 421 and the receiving block 431 is solved, the use flexibility is improved, the condition that the heights of the electric wires and the electric wires are affected by insufficient digging in the transportation process is avoided, the clamped electric wires and the electric wires can be fully abutted to the electric wires and the embedded in the holes are well, the work and the work pit is improved.

See fig. 1-16:

the electric power construction pole burying method comprises the following steps:

s1, driving a crawler base 1 to enable the device to run and approach a telegraph pole placed on the ground, and rotating a turntable 2 to adjust the positions of clamping jaws 62 to enable the clamping jaws 62 to face the telegraph pole;

s2, driving the adjusting assembly 4 to descend and adjusting the angle between the clamping jaw 62 and the telegraph pole, wherein the clamping jaw 62 is close to the telegraph pole;

s3, starting a telescopic mechanism 61 to adjust the distance between clamping jaws 62, lifting the clamping jaws 62 by the clamping jaws 62 after clamping the telegraph pole, and enabling the clamping jaws 62 to clamp the telegraph pole to leave the ground;

s4, starting the rotating assembly 5 to match with the rotating clamping jaw 62, and adjusting the angle and the position of the clamped telegraph pole according to the characteristics of the field or the surrounding environment, so that the crawler belt base 1 is convenient to transport;

s5, the track base 1 is provided with a carrying clamping jaw 62 for clamping a telegraph pole, the clamping jaw 62 is close to a dug hole, the adjusting assembly 4 is started to adjust the height of the clamping jaw 62, and meanwhile, the rotating assembly 5 is driven to be matched with the angle adjusting telegraph pole, so that the telegraph pole is vertically inserted into the dug hole.

The foregoing examples merely illustrate one or more embodiments of the application, which are described in greater detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (10)

1. The electric pole burying device for the electric power construction is characterized by comprising a crawler base (1), a turntable (2), a connecting seat (3), an adjusting component (4), a rotating component (5) and a clamping component (6);

the crawler base (1) is horizontally arranged on the ground and used for driving the device to run;

the turntable (2) is fixedly arranged on the crawler base (1);

the connecting seat (3) is fixedly arranged on the rotary table (2) and is rotationally connected with the rotary table (2);

the adjusting component (4) comprises a first hinging part (41), a second hinging part (42), a third hinging part (43) and a hydraulic system (44), wherein the hydraulic system (44) consists of a first hydraulic rod (441), a second hydraulic rod (442) and a third hydraulic rod (443), two ends of the first hydraulic rod (441) are respectively hinged with the connecting seat (3) and the first hinging part (41), two ends of the second hydraulic rod (442) are respectively hinged with the first hinging part (41) and the second hinging part (42), and the third hydraulic rod (443) is respectively hinged with the second hinging part (42) and the third hinging part (43);

the rotating component (5) is fixedly arranged at one end of the third hinging part (43) far away from the second hinging part (42);

the clamping assembly (6) comprises a telescopic mechanism (61) and clamping jaws (62), the telescopic mechanism (61) is fixedly connected with the rotating assembly (5), and the clamping jaws (62) are fixedly connected with the telescopic mechanism (61).

2. An electric construction pole burying device, as claimed in claim 1, characterised in that the telescopic mechanism (61) comprises a connecting block (611) and a hydraulic telescopic rod (612);

the connecting block (611) is of a T-shaped cylindrical structure, and the bottom end of the connecting block is fixedly connected with the rotating assembly (5);

one end of the hydraulic telescopic rod (612) is inserted into the cylinders at the two ends of the connecting block (611) and is in sliding fit with the cylinders at the two ends of the connecting block (611).

3. An electric construction pole burying device according to claim 1, characterised in that the clamping jaw (62) comprises a mounting seat (621), a hinge block (622), a hydraulic drive (623) and a jaw head (624);

the mounting seat (621) is of a frame structure and is fixedly arranged at one end, far away from the connecting block (611), of the hydraulic telescopic rod (612), and an opening is formed in the upper end of the mounting seat (621);

the hinge blocks (622) are provided with two blocks and are arranged on two sides of the mounting seat (621), and the hinge blocks (622) are hinged with the mounting seat (621);

the hydraulic driver (623) is fixedly arranged at one end, close to the opening, inside the mounting seat (621), the output end of the hydraulic driver (623) is hinged with the upper end of one hinging block (622), and the head end of the hydraulic driver (623) is hinged with the upper end of the other hinging block (622);

the jaw (624) has a plurality of ends fixedly mounted to the articulation block (622) remote from the hydraulic drive (623).

4. An electric construction pole burying device according to claim 1, characterised in that a linkage rod (625) and a support (626) are provided in the clamping jaw (62);

the linkage rods (625) are provided with four connecting blocks (611) which are arranged on two sides of the hinging block (622) in pairs, and the connecting blocks (611) are hinged with the hinging block (622);

the support piece (626) is fixedly arranged at the bottom of the mounting seat (621) and two ends of the support piece are abutted against the inner wall of the mounting seat (621).

5. An electric pole burying device, as set forth in claim 1, characterized in that the clamping jaw (62) is provided with a cover plate (627) and a tension spring buckle (628);

the cover plate (627) is arranged at the through hole on the mounting seat (621), one end of the cover plate (627) is hinged with the mounting seat (621), and the other end of the cover plate (627) is provided with a hasp seat;

one end of the through hole of the mounting seat (621) close to the hasp seat is provided with a lapping groove, one end of the tension spring hasp (628) is hinged with the hasp seat, and the other end of the tension spring hasp (628) is abutted with the lapping groove.

6. The electric pole burying device as claimed in claim 1, wherein a fixing mechanism (63) is provided on the clamping jaw (62), and the fixing mechanism (63) includes an adjusting block (631) and a bolt (632);

the outer side wall of the mounting seat (621) is provided with a fixed groove, the fixed groove is provided with a first through hole, the adjusting block (631) is arranged in the fixed groove and is in sliding fit with the fixed groove, and the adjusting block (631) is provided with a plurality of second through holes which are matched with the through holes;

the bolt (632) is inserted into the second through hole on the adjusting block (631) through the first through hole of the fixed groove.

7. The electric pole burying device according to claim 1, wherein the rotating assembly (5) comprises a fixing seat (51), a rotating cylinder (52) and a connecting buckle (53);

the fixed seat (51) is fixedly connected with one end, far away from the second hinge part (42), of the third hinge part (43);

the rotary air cylinder (52) is fixedly arranged on the fixed seat (51);

the shape of the connecting buckle (53) is matched with the shape of the output end of the rotary cylinder (52), one end of the connecting buckle (53) is fixedly connected with the output end of the rotary cylinder (52), and the other end of the connecting buckle (53) is fixedly connected with the connecting block (611).

8. An electric construction pole burying device according to claim 1, characterised in that the first hinge part (41) comprises a main shaft (411), a first connecting rod (412) and a first connecting shaft (413);

the two sides of the connecting seat (3) are provided with first shaft holes, and the main shaft (411) is fixedly arranged on the connecting seat (3) and is coaxially arranged with the first shaft holes;

the first connecting rod (412) is provided with two connecting rods, and two ends of the first connecting rod are respectively hinged with two ends of the main shaft (411);

the first connecting shaft (413) is provided with a plurality of inner side walls, two ends of the first connecting shaft are fixedly connected with the inner side walls of the first connecting rods (412) on two sides of the first connecting shaft, the first connecting shaft (413) is hinged with the tail end of the first hydraulic rod (441), and the first connecting shaft (413) is hinged with the head end of the second hydraulic rod (442).

9. An electric construction pole burying device according to claim 1, characterised in that the second hinge part (42) comprises a second connecting rod (421) and a second connecting shaft (422), and the third hinge part (43) comprises a bearing block (431) and a third connecting shaft (432);

one end of the second connecting rod (421) is hinged with one end, far away from the connecting seat (3), of the first connecting rod (412);

the second connecting shaft (422) is provided with a plurality of inner side walls, two ends of the second connecting shaft are fixedly connected with the inner side walls of the second connecting rods (421) on two sides of the second connecting shaft respectively, the second connecting shaft (422) is hinged with the tail end of the second hydraulic rod (442), and the second connecting shaft (422) is hinged with the head end of the third hydraulic rod (443);

the two bearing blocks (431) are of T-shaped structures, one end of each bearing block (431) is hinged with one end, far away from the first connecting rod (412), of each second connecting rod (421), and one side wall, far away from the second connecting rod (421), of each bearing block (431) is fixedly connected with the corresponding connecting block (611);

both ends of the third connecting shaft (432) are fixedly connected with the inner side walls of the bearing blocks (431) on both sides of the third connecting shaft, and the third connecting shaft (432) is hinged with the tail end of the third hydraulic rod (443).

10. An electric power construction pole burying method, adopting an electric power construction pole burying device as claimed in any one of claims 1 to 9, comprising the steps of:

s1, driving a crawler base (1) to enable the device to run and approach a telegraph pole placed on the ground, and rotating a turntable (2) to adjust the position of a clamping jaw (62) to enable the clamping jaw (62) to face the telegraph pole;

s2, driving the adjusting assembly (4) to descend and adjusting the angle between the clamping jaw (62) and the telegraph pole, wherein the clamping jaw (62) is close to the telegraph pole;

s3, starting a telescopic mechanism (61) to adjust the distance between clamping jaws (62), lifting the clamping jaws (62) by the aid of the clamping jaws (62) after the telegraph pole is clamped, and enabling the clamping jaws (62) to clamp the telegraph pole to leave the ground;

s4, starting the rotating assembly (5) to match with the rotating clamping jaw (62), and adjusting the angle and the position of the clamped telegraph pole according to the characteristics of the field or the surrounding environment, so that the crawler belt base (1) is convenient to transport;

s5, clamping jaws (62) are carried on the track base (1) to clamp a telegraph pole to approach a dug hole, an adjusting assembly (4) is started to adjust the height of the clamping jaws (62), and meanwhile, a rotating assembly (5) is driven to be matched with the angle of the telegraph pole to adjust the angle of the telegraph pole, and the telegraph pole is vertically inserted into the dug hole.