CN108049698B - Automatic erecting device and construction method for telegraph poles of power grid - Google Patents

Abstract

The invention provides an automatic erection device and a construction method for a telegraph pole of an electric power grid, which comprises a frame body, a fixed hoop, a sliding hoop, an automatic sliding table and a sliding block, wherein the fixed hoop is fixed on the frame body; the automatic sliding tables are arranged on two sides of the frame body, the sliding blocks are arranged on the automatic sliding tables, the two sliding blocks are respectively hinged to two ends of the fixed hoop, and the fixed hoop is used for tightly holding the tail end of the telegraph pole; two sides of the head end of the frame body are provided with supporting plates, and the upper parts of the two supporting plates are hinged with two ends of the sliding hoop; the height of the axis of the hinge shaft of the sliding hoop relative to the frame body is higher than that of the hinge shaft of the fixed hoop relative to the frame body; the support body is internally provided with a control module which is used for controlling the fixed hoop, the sliding hoop and the automatic sliding table, and the support body is also provided with a control button box which is connected with the control module. The transmission device in the device can automatically erect the telegraph pole only by pressing the control button. The invention has simple structure, simple operation, convenient use, time saving and labor saving.

Description

Automatic erecting device and construction method for telegraph poles of power grid

Technical Field

The invention belongs to the field of telegraph pole erection, and particularly relates to an automatic telegraph pole erection device and a construction method for a power grid.

Background

In the field of electric power such as transmission lines, cement telegraph poles are widely used, at present, most of cement telegraph poles are erected by erecting tripods and then adopting electric hoists or chain blocks to operate, so that time and labor are wasted.

Disclosure of Invention

The invention aims at the problems and provides an automatic erecting device and a construction method for a telegraph pole of a power grid, which can automatically erect the telegraph pole.

The invention provides an automatic erecting device for a telegraph pole of an electric power grid, which comprises a frame body, a fixed hoop, a sliding hoop, an automatic sliding table and a sliding block, wherein the fixed hoop is fixed on the frame body; the automatic sliding tables are arranged on two sides of the frame body, the sliding blocks are arranged on the automatic sliding tables, the two sliding blocks are respectively hinged to two ends of the fixed hoop, and the fixed hoop is used for tightly holding the tail end of the telegraph pole; two sides of the head end of the frame body are provided with supporting plates, the upper parts of the two supporting plates are hinged with two ends of a sliding hoop, and the telegraph pole can extend back and forth in the sliding hoop; the height of the axis of the articulated shaft of the sliding hoop relative to the frame body is higher than that of the axis of the articulated shaft of the fixed hoop relative to the frame body; be equipped with control module in the support body, control module is used for controlling automatic slip table, still is equipped with the control button box on the support body, and the control button box is connected with control module.

As a further optimization of the invention, the automatic sliding table comprises a sliding rail, a screw rod, a rotating shaft and a driving motor; the lower parts of the sliding blocks are clamped on the sliding rails to slide, threaded holes matched with the screw rods are formed in the middle parts of the sliding blocks, and the upper parts of the two sliding blocks are respectively hinged to two ends of the fixed hoop; the pivot is established at the head end middle part of support body, and the tail end of pivot is equipped with two first synchronous pulley, and the head end of two lead screws is equipped with second synchronous pulley, and first synchronous pulley passes through the hold-in range with second synchronous pulley to be connected, and the pivot rotation can drive two lead screws through the hold-in range and rotate, and driving motor establishes the head end at the pivot.

As a further optimization of the invention, lateral grooves are arranged on two sides of the frame body, and the sliding table and the screw rod are arranged in the lateral grooves; the head end of the frame body is provided with a head end groove, and the rotating shaft, the synchronous belt and the driving motor are arranged in the head end groove; a control box is further arranged in the head end groove, a control box module is arranged in the control box, and an openable cover plate is further arranged at an opening of the head end groove.

As a further optimization of the invention, the fixed hoop comprises a horseshoe-shaped fixed upper hoop and a horseshoe-shaped fixed lower hoop, the ends of two linear parts of the fixed lower hoop are respectively hinged with the upper parts of the two sliding blocks, the linear part of the fixed lower hoop is also provided with an air cylinder, the end part of a piston rod of the air cylinder is connected with the linear part of the fixed upper hoop, and the expansion and contraction of the air cylinder enables the fixed hoop to loosen and clamp the telegraph pole; the cylinder is provided with a magnetic switch, and the magnetic switch is connected with the control module.

As a further optimization of the invention, the lower part of the supporting plate is provided with a notch, and when the sliding block slides on the sliding table, the linear part for fixing the lower hoop can be inserted into the notch to enable the telegraph pole to be in a vertical state; the bottom of opening is equipped with first proximity switch, and first proximity switch is connected with control module.

As a further optimization of the invention, the sliding hoop comprises a horseshoe-shaped sliding upper hoop and a horseshoe-shaped sliding lower hoop, the two linear part ends of the sliding lower hoop are respectively hinged with the upper part of the supporting plate, and the linear part of the sliding upper hoop and the linear part of the sliding lower hoop are connected through a bolt to clamp the telegraph pole; the inner wall of the sliding upper hoop and the inner wall of the sliding lower hoop are both provided with spherical balls.

As a further optimization of the invention, the bottom of the frame body is provided with a support frame, the bottom end of the front support frame is provided with a universal wheel with a brake, and the bottom end of the rear support frame is provided with a wheel.

As a further optimization of the invention, the bottom of the frame body is provided with a semi-cylindrical surface-shaped baffle with an opening facing the tail end of the frame body, and when the telegraph pole is in a vertical state, the tail end of the telegraph pole is attached to the inner cambered surface of the baffle; and a second proximity switch is arranged on the baffle and is connected with the control module.

As a further optimization of the invention, the automatic sliding table is a rodless cylinder.

The invention also provides a construction method of the automatic erection device for the telegraph poles of the power grid, which is characterized by comprising the following steps of:

s1: the tail end of the telegraph pole penetrates through the sliding hoop;

s2: pushing the telegraph pole to slide in the sliding hoop until the tail end of the telegraph pole passes through the fixed hoop;

s3: a button for starting the air cylinder is pressed down, so that the air cylinder contracts to clamp the tail end of the telegraph pole;

s4: pushing the frame body to a pre-dug telegraph pole groove pit, and positioning by using a baffle;

s5: when a start button is pressed, a transmission device in the device automatically changes the telegraph pole from the inclined state to the vertical state;

s6: a button for closing the air cylinder is pressed down, so that the air cylinder extends out to loosen the tail end of the telegraph pole, and the tail end of the telegraph pole falls into the groove pit;

s7: performing engineering such as filling and compacting on the groove pit to finish burying the telegraph pole;

s8: and respectively taking down the sliding upper hoop and the fixed upper hoop, moving away the frame body, and finishing construction.

The automatic telegraph pole erecting device of the power grid provided by the invention can automatically erect the telegraph pole by pressing the control button and the transmission device in the device. The invention has simple structure, simple operation, convenient use, time saving and labor saving.

Drawings

Fig. 1 is a schematic structural view of a telegraph pole in a transportation state according to embodiment 1 of the device;

figure 2 is a schematic view of the device of figure 1 without the pole and cover;

figure 3 is a side view of the pole of example 1 of the apparatus in a vertical position;

FIG. 4 is a top view of the device of example 1 with the utility pole and cover removed;

FIG. 5 is a schematic view of the fixing hoop structure of the device;

fig. 6 is a schematic structural view of a pole in a transportation state according to example 2 of the present apparatus;

the frame body 100, the support plate 110, the notch 111, the support frame 120, the wheel 130, the universal wheel 140, the lateral groove 150, the head end groove 160, the cover plate 170, the baffle 180, the fixed hoop 200, the fixed lower hoop 210, the fixed upper hoop 220, the air cylinder 230, the sliding hoop 300, the sliding lower hoop 310, the sliding upper hoop 320, the ball 330, the slide rail 410, the screw rod 420, the second synchronous pulley 421, the rotating shaft 430, the first synchronous pulley 431, the driving motor 440, the synchronous belt 450, the slider 500, the control box 600, the control button box 700, the rodless air cylinder 800 and the telegraph pole 900.

Detailed Description

The present invention will be described in detail with reference to specific examples. It should be noted that the head end and the front end in the present specification refer to the right-hand direction in the drawings, and the tail end and the rear end in the present specification refer to the left-hand direction in the drawings.

Example 1

As shown in fig. 1 to 5, the present embodiment includes a frame body 100, a fixing hoop 200, a sliding hoop 300, an automatic sliding platform, and a sliding block 500.

The automatic sliding table is arranged on two sides of the frame body 100 and specifically comprises a sliding rail 410, a screw rod 420, a rotating shaft 430 and a driving motor 440. The lower part of the sliding block 500 is clamped on the sliding rail 410 to slide, the middle part of the sliding block 500 is provided with a threaded hole matched with the screw rod 420, and the upper parts of the two sliding blocks 500 are respectively hinged at two ends of the fixed hoop 200. The rotating shaft 430 is arranged in the middle of the head end of the frame body 100, the tail end of the rotating shaft 430 is provided with two first synchronous belt wheels 431, the head ends of the two screw rods 420 are provided with a second synchronous belt wheel 421, the first synchronous belt wheels 431 are connected with the second synchronous belt wheel 421 through a synchronous belt 450, the rotating shaft 430 can drive the two screw rods 420 to rotate through the synchronous belt 450, and the driving motor 440 is arranged at the head end of the rotating shaft 430.

The two sliding blocks 500 are respectively hinged to two ends of the fixing hoop 200, and the fixing hoop 200 is used for tightly holding the tail end of the telegraph pole 900.

Two sides of the head end of the frame body 100 are provided with the support plates 110, the upper parts of the two support plates 110 are hinged with two ends of the sliding hoop 300, and the telegraph pole 900 can extend back and forth in the sliding hoop 300.

The height of the axis of the hinge shaft of the sliding hoop 300 relative to the frame body 100 is higher than that of the hinge shaft of the fixed hoop 200 relative to the frame body 100; a control module is arranged in the frame body 100 and used for controlling the driving motor 440, a control button box 700 is further arranged on the frame body 100, and the control button box 700 is connected with the control module.

When the synchronous pulley device is used, the control button on the control button box 700 is pressed, the control module can control the driving motor 440 to rotate, the driving motor 440 rotates to drive the rotating shaft 430 to rotate, the rotating shaft 430 rotates to drive the first synchronous pulley 431 to rotate, the first synchronous pulley 431 drives the two second synchronous pulleys 421 to rotate through the synchronous belt 450, the second synchronous pulleys 421 rotate to drive the lead screw 420 to rotate, and the lead screw 420 rotates to drive the sliding block 500 to slide back and forth on the sliding rail 410.

Because the height of the sliding hoop 300 relative to the frame body 100 is higher than that of the fixed hoop 200 relative to the frame body 100, the utility pole 900 is laid on the frame body 100 with a certain angle from left to right, and then the fixed hoop 200 is hinged with the sliding block 500, the sliding hoop 300 is hinged with the supporting plate 110, and the utility pole 900 can slide back and forth in the sliding hoop 300, so when the sliding block 500 approaches from far to near to the sliding hoop 300, the tail end of the utility pole 900 embraced by the fixed hoop 200 approaches to the sliding hoop 300, and therefore the angle of the utility pole 900 relative to the frame body 100 is larger and larger until the utility pole is erected.

The biggest advantage of this embodiment is simple structure, and convenient operation only needs to press the button can realize wire pole 900 by horizontal to fore-and-aft conversion process, reduces the cost of labor by a wide margin. And two lead screws in this embodiment are controlled by one driving motor 440, which simplifies the driving structure and reduces the manufacturing cost, and on the other hand, the two lead screws can be kept in the same pace, thereby effectively avoiding the occurrence of the stuck phenomenon. Moreover, the invention is a pure mechanical mechanism, is not easy to damage and is durable in use.

Preferably, lateral grooves 150 are formed at both sides of the frame body 100, and the sliding table and the screw rod 420 are disposed in the lateral grooves 150; the head end of the frame body 100 is provided with a head end groove 160, and the rotating shaft 430, the synchronous belt 450 and the driving motor 440 are arranged in the head end groove 160. The head end groove 160 is also provided with a control box 600, the control box 600 module is arranged in the control box 600, and the opening of the head end groove 160 is also provided with an openable cover plate 170.

The transmission parts are arranged in the frame body 100 to protect the transmission member, prevent the transmission member from being damaged by people and prevent the transmission member from harming people around in the transmission process. The control box 600 can collect electronic control or pneumatic control components, so that centralized maintenance is facilitated, and damage to the components caused by a transmission part can be prevented.

Preferably, the fixing hoop 200 comprises a horseshoe-shaped fixing upper hoop 220 and a horseshoe-shaped fixing lower hoop 210, the ends of two straight portions of the fixing lower hoop 210 are hinged to the upper portions of the two sliding blocks 500 respectively, the straight portion of the fixing lower hoop 210 is further provided with an air cylinder 230, the end of a piston rod of the air cylinder 230 is connected to the straight portion of the fixing upper hoop 220, and the expansion and contraction of the air cylinder 230 enable the fixing hoop 200 to loosen and clamp the telegraph pole 900. The cylinder 230 is provided with a magnetic switch, and the magnetic switch is connected with the control module.

The clamping force for clamping the tail end of the telegraph pole 900 is controlled by the air cylinder 230, loosening can be effectively avoided, the fixing hoop 200 can be conveniently loosened on the pre-buried telegraph pole 900, and labor is saved. The magnetic switch is used for detecting the expansion condition of the air cylinder 230, and the driving motor 440 is prevented from being started when the fixed hoop 200 does not clamp the telegraph pole 900, so that safety accidents are avoided or the device is prevented from being damaged.

Preferably, the lower portion of the support plate 110 is provided with a notch 111, and when the slider 500 slides on the slide table, the linear portion for fixing the lower anchor ear 210 can be inserted into the notch 111 to make the utility pole 900 in a vertical state. The bottom of opening 111 is equipped with first proximity switch, and first proximity switch is connected with control module.

The arrangement of the notch 111 has at least two benefits, one is to ensure that the telegraph pole 900 can be erected in a vertical state and ensure the verticality of the telegraph pole 900 embedded; secondly, the bottom of the gap 111 can play a limiting role, and the phenomenon that the inclined angle between the telegraph pole 900 and the frame body 100 is larger than 90 degrees due to the fact that the sliding block 500 slides over the head, so that the gravity center is unstable and the telegraph pole is prevented from tipping is avoided. The first proximity switch is arranged at the bottom of the notch 111 and used for detecting whether the linear part for fixing the lower hoop 210 is attached to the bottom of the notch 111 or not, and if the linear part is attached to the bottom of the notch 111, the driving motor 440 stops rotating. This further prevents the slider 500 from sliding over the head and causing damage to the apparatus or prevents the utility pole 900 from tipping over due to unstable center of gravity at an angle greater than 90 ° to the housing 100.

Preferably, the sliding hoop 300 comprises a horseshoe-shaped sliding upper hoop 320 and a horseshoe-shaped sliding lower hoop 310, two linear ends of the sliding lower hoop 310 are hinged to the upper portion of the support plate 110, and the linear portion of the sliding upper hoop 320 and the linear portion of the sliding lower hoop 310 are connected through bolts to clamp the utility pole 900. The inner wall of the upper sliding hoop 320 and the inner wall of the lower sliding hoop 310 are both provided with spherical balls 330. The contact area between the balls 330 and the utility pole 900 is small, the friction force is small, and the phenomenon of seizing can be avoided in a limited way during the erection of the utility pole 900.

Preferably, the bottom of the frame body 100 is provided with a support frame 120, the bottom of the front support frame is provided with a universal wheel 140 with a brake, and the bottom of the rear support frame is provided with a wheel 130. The support frame structure of the support frame 120 can save materials while ensuring stress, and can easily vacate enough space for the tail end of the utility pole 900 to swing from the transverse direction to the vertical direction, and can be conveniently moved after the utility pole 900 is buried. Suitably, the rear support may be a solid structure that balances the center of gravity and prevents the pole 900 from tipping over due to a shift in the center of gravity during a rollover.

Preferably, the bottom of the rack 100 is provided with a semi-cylindrical surface-shaped baffle 180 with an opening facing the tail end of the rack 100, and when the utility pole 900 is in a vertical state, the tail end of the utility pole 900 is attached to the inner arc surface of the baffle 180. And a second proximity switch is arranged on the baffle 180 and is connected with the control module.

The arrangement of the baffle 180 has at least two benefits, one of which is also a limiting function, and the phenomenon that the center of gravity of the telegraph pole 900 is unstable and is overturned is avoided; and the second function is used as a guide for burying and filling the telegraph pole 900, the baffle 180 is used for accurately aligning the falling position of the telegraph pole 900, the situation that the telegraph pole 900 is adjusted after being erected and the telegraph pole 900 is tilted possibly caused by moving the frame body 100 to adjust the position after being erected is avoided. The second proximity switch is also provided to further prevent the slider 500 from sliding over the first vehicle-building device and being damaged or prevent the pole 900 from tilting over due to unstable gravity center because the included angle between the pole 900 and the frame 100 is larger than 90 °.

The second proximity switch is used for detecting the attaching condition of the telegraph pole 900 and the baffle 180, and after the telegraph pole 900 is attached to the baffle 180, the second proximity switch enables the driving motor 440 to stop rotating through the control module, so that the safety protection effect is achieved.

Example 2

As shown in fig. 6, the present embodiment includes a frame body 100, a fixing hoop 200, a sliding hoop 300, an automatic sliding platform, and a sliding block 500.

The automatic sliding table is arranged on two sides of the frame body 100 and specifically is a rodless cylinder 800, the sliding blocks 500 are arranged on the rodless cylinder 800, the two sliding blocks 500 are respectively hinged to two ends of the fixed hoop 200, and the fixed hoop 200 is used for tightly holding the tail end of the telegraph pole 900.

Two sides of the head end of the frame body 100 are provided with the support plates 110, the upper parts of the two support plates 110 are hinged with two ends of the sliding hoop 300, and the telegraph pole 900 can extend back and forth in the sliding hoop 300.

The height of the axis of the hinge shaft of the sliding hoop 300 relative to the frame body 100 is higher than that of the hinge shaft of the fixed hoop 200 relative to the frame body 100; a control module is arranged in the frame body 100 and used for controlling the rodless cylinder 800, a control button box 700 is further arranged on the frame body 100, and the control button box 700 is connected with the control module.

When the device is used, the control button on the control button box 700 is pressed, and the control module can control the rodless cylinder 800 to work to drive the sliding block 500 to move. When the sliding block 500 moves from far to near to the sliding hoop 300, the utility pole 900 will slowly stand up.

The same preferences as in example 1 apply to this example.

The structure of this embodiment is simpler, and difficult the emergence is damaged, and its control part is also simpler, convenient operation.

On the basis of the structure, the invention also provides an automatic erection construction method of the telegraph pole of the power grid, which comprises the following steps:

s1: the tail end of the telegraph pole 900 is inserted through the sliding hoop 300;

s2: pushing the telegraph pole 900 to slide in the sliding hoop 300 until the tail end of the telegraph pole 900 passes through the fixed hoop 200; the telegraph pole 900 is placed in a sliding mode, so that the telegraph pole is very convenient and labor-saving;

s3: pressing the button of the actuating cylinder 230 causes the cylinder 230 to contract and clamp the tail end of the utility pole 900;

s4: the frame body 100 is pushed to a pre-dug telegraph pole 900 groove pit, and is accurately positioned by using the baffle 180, so that safety accidents caused by readjustment of the position of the telegraph pole 900 after erection are avoided;

s5: pressing the start button, the transmission in the device automatically changes the pole 900 from tilted to vertical;

s6: pressing a button for closing the air cylinder 230 to extend the air cylinder 230 to loosen the tail end of the telegraph pole 900, and enabling the tail end of the telegraph pole 900 to fall into the groove pit;

s7: the groove pit is subjected to engineering such as filling and compacting, and the embedding of the telegraph pole 900 is completed;

s8: the sliding upper hoop 320 and the fixed upper hoop 220 are respectively removed, the frame body 100 is moved away, and the construction is finished.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. An automatic erection device for telegraph poles of an electric power grid is characterized by comprising a frame body, a fixed hoop, a sliding hoop, an automatic sliding table and a sliding block;

the automatic sliding tables are arranged on two sides of the frame body, the sliding blocks are arranged on the automatic sliding tables, the two sliding blocks are respectively hinged to two ends of the fixed hoop, and the fixed hoop is used for tightly holding the tail end of the telegraph pole;

two sides of the head end of the frame body are provided with supporting plates, the upper parts of the two supporting plates are hinged with two ends of a sliding hoop, and the telegraph pole can extend back and forth in the sliding hoop;

the height of the axis of the articulated shaft of the sliding hoop relative to the frame body is higher than that of the axis of the articulated shaft of the fixed hoop relative to the frame body;

a control module is arranged in the frame body and used for controlling the automatic sliding table, and a control button box is also arranged on the frame body and connected with the control module;

the fixed hoop comprises a horseshoe-shaped fixed upper hoop and a horseshoe-shaped fixed lower hoop, the ends of two linear parts of the fixed lower hoop are respectively hinged with the upper parts of the two sliding blocks, the linear part of the fixed lower hoop is also provided with an air cylinder, the end part of a piston rod of the air cylinder is connected with the linear part of the fixed upper hoop, and the expansion of the air cylinder enables the fixed hoop to loosen and clamp the telegraph pole; the cylinder is provided with a magnetic switch, and the magnetic switch is connected with the control module.

2. The automatic erecting device for the telegraph poles of the power grid as claimed in claim 1, wherein the automatic sliding table comprises sliding rails, a screw rod, a rotating shaft and a driving motor;

the lower parts of the sliding blocks are clamped on the sliding rails to slide, threaded holes matched with the screw rods are formed in the middle parts of the sliding blocks, and the upper parts of the two sliding blocks are respectively hinged to two ends of the fixed hoop;

the pivot is established at the head end middle part of support body, and the tail end of pivot is equipped with two first synchronous pulley, and the head end of two lead screws is equipped with second synchronous pulley, and first synchronous pulley passes through the hold-in range with second synchronous pulley to be connected, and the pivot rotation can drive two lead screws through the hold-in range and rotate, and driving motor establishes the head end at the pivot.

3. The automatic erecting device for the telegraph poles of the power grid as claimed in claim 2, wherein lateral grooves are formed in two sides of the frame body, and the sliding table and the lead screw are arranged in the lateral grooves; the head end of the frame body is provided with a head end groove, and the rotating shaft, the synchronous belt and the driving motor are arranged in the head end groove; a control box is further arranged in the head end groove, a control box module is arranged in the control box, and an openable cover plate is further arranged at an opening of the head end groove.

4. The automatic erecting device for the telegraph poles of the electric power grid as claimed in claim 2, wherein the lower portion of the supporting plate is provided with a notch, and when the sliding block slides on the sliding table, the linear portion for fixing the lower anchor ear can be inserted into the notch to enable the telegraph poles to be in a vertical state; the bottom of opening is equipped with first proximity switch, and first proximity switch is connected with control module.

5. The automatic erecting device for the telegraph pole of the electric power grid as claimed in claim 1, wherein the sliding hoop comprises a horseshoe-shaped sliding upper hoop and a horseshoe-shaped sliding lower hoop, two linear end heads of the sliding lower hoop are respectively hinged with the upper part of the supporting plate, and the linear part of the sliding upper hoop and the linear part of the sliding lower hoop are connected through a bolt to clamp the telegraph pole; the inner wall of the sliding upper hoop and the inner wall of the sliding lower hoop are both provided with spherical balls.

6. The automatic erecting device for the electric power grid telegraph pole of claim 1, wherein the bottom of the frame body is provided with a support frame, the bottom end of the front support frame is provided with a universal wheel with a brake, and the bottom end of the rear support frame is provided with a wheel.

7. The automatic erecting device for the telegraph pole of the electric power grid as claimed in claim 6, wherein the bottom of the frame body is provided with a semi-cylindrical surface-shaped baffle plate with an opening facing the tail end of the frame body, and when the telegraph pole is in a vertical state, the tail end of the telegraph pole is attached to the inner cambered surface of the baffle plate; and a second proximity switch is arranged on the baffle and is connected with the control module.

8. The automatic erection device of an electric power grid telegraph pole of claim 1, characterized in that the automatic sliding table is a rodless cylinder.

9. An automatic erecting device for electric power grid poles according to claim 7, characterized in that it comprises the following construction steps:

s1: the tail end of the telegraph pole penetrates through the sliding hoop;

s2: pushing the telegraph pole to slide in the sliding hoop until the tail end of the telegraph pole passes through the fixed hoop;

s3: a button for starting the air cylinder is pressed down, so that the air cylinder contracts to clamp the tail end of the telegraph pole;

s4: pushing the frame body to a pre-dug telegraph pole groove pit, and positioning by using a baffle;

s5: when a start button is pressed, a transmission device in the device automatically changes the telegraph pole from the inclined state to the vertical state;

s6: a button for closing the air cylinder is pressed down, so that the air cylinder extends out to loosen the tail end of the telegraph pole, and the tail end of the telegraph pole falls into the groove pit;

s7: filling soil and compacting engineering are carried out on the groove pit, and the embedding of the telegraph pole is completed;

s8: and respectively taking down the sliding upper hoop and the fixed upper hoop, moving away the frame body, and finishing construction.

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