CN117722047A - Quick correction and reinforcement method for inclination of transmission line pole - Google Patents

Abstract

The invention discloses a quick correction and reinforcement method for inclination of a power transmission pole, and belongs to the technical field of correction and reinforcement of inclination of power transmission poles. The invention solves the problem of poor feasibility of the existing method, the counterweight bottom plate is fixed on the ground at the bottom end of the power transmission line pole, the steel wire lifting rope is hung at the upper end of the power transmission line pole through the crane, and the inclination angle of the power transmission line pole is balanced by the counterweight; then the clamping block is arranged in the middle of the power transmission line rod through the crane, and the electric traction equipment is started to drive the steel wire traction rope to pull the clamping block and the power transmission line rod to the inclined back side end; observing the numerical value of the inclination monitoring sensor, cutting off the power supply of the electric traction equipment after the numerical value accords with the normal vertical angle of the power transmission line pole, and filling and leveling soil around the power transmission line pole, thereby completing the inclination correction and reinforcement process of the power transmission line pole; therefore, the efficiency of the existing power transmission pole inclination correction and reinforcement is improved, the dangers of manual stay wire correction are avoided, and the feasibility of the existing power transmission pole inclination rapid correction and reinforcement method is optimized.

Description

Quick correction and reinforcement method for inclination of transmission line pole

Technical Field

The invention relates to the technical field of inclination correction and reinforcement of power transmission poles, in particular to a rapid inclination correction and reinforcement method of power transmission poles.

Background

The telegraph pole is an important component of the power transmission line, and in order to ensure the normal operation of the power transmission line, the telegraph pole must be kept vertical and stable; however, the inclination of the electric pole is a common problem in the construction process, and the electric pole is often required to be treated in time so as to ensure the construction progress and safety; pole tilting may be caused by a number of factors, such as: the quality of the rod body is unstable, the foundation is unstable or the surrounding environment is changed, so that the force is changed; the safety operation of the transmission line is threatened, and serious threats are caused to lives and properties of surrounding residents; therefore, when the problem of the inclination of the electric pole is solved, various factors need to be considered, and corresponding measures are taken to ensure the smooth progress of the construction process.

However, most of the existing transmission line pole inclination correction strengthening methods are straightened by manual stay wires, so that more labor force is needed, manual operation is slow, and other workers are very easy to injure if one of the workers slides by hand, so that the feasibility of the existing transmission line pole inclination correction strengthening method is reduced.

Therefore, the existing requirements are not met, and a method for quickly correcting and reinforcing the inclination of the transmission line pole is provided.

Disclosure of Invention

The invention aims to provide a quick correction and reinforcement method for the inclination of a power transmission line pole, wherein a steel wire lifting rope is hung at the upper end of the power transmission line pole through a crane, and the inclination angle of the power transmission line pole is balanced by a balancing weight; then the clamping block is arranged in the middle of the power transmission line rod through the crane, and the electric traction equipment is started to drive the steel wire traction rope to pull the clamping block and the power transmission line rod to the inclined back side end; observing the numerical value of the inclination monitoring sensor, cutting off the power supply of the electric traction equipment after the numerical value accords with the normal vertical angle of the power transmission line pole, and filling and leveling soil around the power transmission line pole, thereby completing the inclination correction and reinforcement process of the power transmission line pole; therefore, the efficiency of the existing power transmission pole inclination correction reinforcement is improved, the dangers of manual stay wire correction are avoided, the feasibility of the existing power transmission pole inclination quick correction reinforcement method is optimized, and the problems in the background technology are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: a quick correction and reinforcement method for inclination of a transmission line pole comprises the following steps:

s1, before correction, firstly, carrying out power failure and grounding on a power transmission pole, and dismantling a lead and a lightning conductor on the power transmission pole;

s2, before correction, respectively placing the two counterweight bottom plates on two sides of the bottom end of the power transmission line pole, locking and fastening the two counterweight bottom plates on the bottom end of the power transmission line pole through a first bolt assembly on the side edge, and fixing the counterweight bottom plates on the ground through a first screw;

s3, when correcting the deviation, placing the balancing weight on the ground on the inclined back surface of the power transmission pole, and hanging a steel wire lifting rope connected with the balancing weight on a hook at the upper end of the power transmission pole through an external crane to balance the inclination angle of the power transmission pole;

s4, when correcting deviation, installing two clamping blocks at the middle part of the power transmission line rod through an external crane, placing electric traction equipment on the ground, and starting the electric traction equipment to drive a steel wire traction rope connected with the electric traction equipment to pull the clamping blocks and the power transmission line rod at the middle part of the clamping blocks to the inclined back side end;

s5, when correcting the deviation, the inclination monitoring sensor arranged below the power transmission line pole is observed until the numerical value given by the inclination monitoring sensor accords with the normal vertical angle of the power transmission line pole, the power supply of the electric traction equipment is cut off, and the soil around the power transmission line pole is filled and leveled, so that the inclination of the power transmission line pole is rapidly corrected and reinforced.

Further, the method further comprises the following steps:

s6, after correction, firstly taking down the counterweight bottom plate, the steel wire lifting rope and the clamping block which are arranged on the power transmission line pole in sequence, canceling power failure and grounding of the power transmission line pole, and recovering the lead and the lightning conductor on the power transmission line pole.

Further, after the two counterweight bottom plates in the step S2 are respectively arranged at two sides of the bottom end of the power transmission line pole through the first bolt assemblies at the side edges, if the two counterweight bottom plates need to be disassembled, a worker firstly removes the first bolt assemblies from the side edges of the two counterweight bottom plates, so that the two counterweight bottom plates lose connection; the workman rethread external electric drill takes out first screw from two counter weight bottom plates in proper order, makes two counter weight bottom plates and ground lose the connection from this to accomplish counter weight bottom plate dismantlement flow.

Further, in the step S4, two clamping blocks are installed in the middle of the power transmission line pole through an external crane, specifically:

two clamping blocks are hung to the middle of the power transmission line pole through an external crane, and workers ascend to the clamping blocks through external lifting equipment and lock the second bolt assemblies on the side edges, so that the two clamping blocks are fixed to the middle of the power transmission line pole.

Further, in the step S4, when two clamping blocks are hung to the middle part of the power transmission line pole by the external crane, one clamping block loaded with the traction rope connector is required to be placed at the inclined back surface of the power transmission line pole, so that the power transmission line pole is pulled to be in a vertical normal state by pulling the steel wire traction rope by the electric traction equipment connected with the clamping block.

Further, when two fixture blocks are hung to the middle part of the transmission line pole through an external crane in the S4, two auxiliary shafts below the fixture blocks are also required to be fastened on the ground, and the method specifically comprises the following steps:

the hinges connected below the two auxiliary shafts are respectively placed on the ground on two sides of the power transmission line pole, and the two hinges are fixed on the ground through the second screws.

Further, in the step S4, when the electric traction device is placed on the ground, the electric traction device is required to be placed at the inclined back of the power transmission pole, so that the electric traction device and the balancing weight are located at the same side.

Further, after installing two fixture blocks in the middle part of the power transmission line pole through external loop wheel machine, if need dismantle the time, the workman rises to fixture block department through external jacking equipment to take out the side of second bolt assembly follow fixture block, take off two fixture blocks from the middle part of power transmission line pole from this, will dismantle the fixture block fortune of being dismantled by external loop wheel machine again and put subaerial, thereby accomplish the fixture block and dismantle the flow.

Further, the installation position of the traction rope connector is required to be on the same side as the position of the electric traction device.

Further, after fastening two auxiliary shafts below the clamping blocks on the ground, if the auxiliary shafts are required to be detached, a worker sequentially takes out the second screws from the two hinges through an external electric drill, so that the two hinges are separated from the ground, the clamping blocks above the two hinges are taken down from the middle of the transmission line pole, and the auxiliary shaft detaching process is completed.

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

according to the invention, the two counterweight bottom plates are fixed at the bottom end of the power transmission line pole by the first bolt assemblies at the locking side edges by arranging the counterweight bottom plates at two sides of the bottom end of the power transmission line pole, and the counterweight bottom plates are fixed on the ground by the first bolts; hanging a steel wire lifting rope at the upper end of the power transmission pole through a crane, and balancing the inclination angle of the power transmission pole by using a balancing weight; then two clamping blocks are arranged in the middle of the power transmission line pole through the crane, and the electric traction equipment is started to drive the steel wire traction rope to pull the clamping blocks and the power transmission line pole to the inclined back side end; after observing the inclination monitoring sensor until the given value accords with the normal vertical angle of the power transmission line pole, cutting off the power supply of the electric traction equipment, and filling and leveling soil around the power transmission line pole, thereby completing the quick correction and reinforcement flow of the inclination of the power transmission line pole; therefore, the efficiency of the existing power transmission pole inclination correction reinforcement is effectively improved, the dangers of manual stay wire correction are avoided, and the feasibility of the existing power transmission pole inclination rapid correction reinforcement method is optimized.

Drawings

Fig. 1 is a structural diagram of a method for rapidly correcting and reinforcing inclination of a transmission line pole according to the present invention;

fig. 2 is a flowchart of a method for rapidly correcting and reinforcing the inclination of a transmission line pole according to the present invention.

In the figure: 1. a power transmission line pole; 2. a counterweight bottom plate; 3. a first bolt assembly; 4. a first screw; 5. ground surface; 6. balancing weight; 7. a steel wire lifting rope; 8. a clamping block; 9. an electric traction device; 10. a steel wire traction rope; 11. a tilt monitoring sensor; 12. a second bolt assembly; 13. a traction rope connector; 14. an auxiliary shaft; 15. a hinge; 16. and a second screw.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problems that the existing inclination correction strengthening method for the transmission line pole 1 is mostly straightened by manual stay wires, more labor force is needed, manual operation is slow, and other workers are very easy to hurt if one of the workers slides by hands, so that the feasibility of the existing inclination correction strengthening method for the transmission line pole 1 is reduced, and referring to fig. 1-2, the following technical scheme is provided:

a quick correction and reinforcement method for inclination of a transmission line pole comprises the following steps:

s1, before correction, firstly, carrying out power failure and grounding on a power transmission pole 1, and dismantling a lead and a lightning conductor on the power transmission pole 1; so as to ensure the safety of workers when the workers perform inclination correction and reinforcement on the power transmission pole 1 and prevent the power transmission pole 1 from causing electric leakage to cause life threat to the workers.

In this embodiment, the inclination of the power transmission line pole 1 needs to be quickly corrected and reinforced by setting a correction and reinforcement device, the correction and reinforcement device consists of two counterweight bottom plates 2, a counterweight 6, a correction assembly and an inclination monitoring sensor 11, wherein the correction assembly consists of a clamping block 8, a traction rope connector 13, a steel wire traction rope 10, an electric traction device 9 and an auxiliary shaft 14, one side of the clamping block 8 is provided with the traction rope connector 13, the steel wire traction rope 10 is wound on the traction rope connector 13, the other end of the steel wire traction rope 10 is connected with the electric traction device 9, the bottom of each clamping block 8 is connected with an auxiliary shaft 14 through a hinge 15, and the other end of the auxiliary shaft 14 is still connected with the same hinge 15 and is connected with the ground 5 through the end hinge 15; the counter weight bottom plate 2 and the fixture block 8 are semicircular, semicircular holes are formed in the middle, the first bolt component 3 and the second bolt component 12 are respectively arranged on two sides of the counter weight bottom plate 2 and the fixture block 8, the first bolt component 3 and the second bolt component 12 comprise plug sleeves, threaded rods and nuts, the plug sleeves are respectively arranged on two sides of the two counter weight bottom plates 2 and the two fixture blocks 8, the threaded rods sequentially penetrate through the interiors of the two adjacent plug sleeves and are locked through the nuts, and therefore the two counter weight bottom plates 2 and the two fixture blocks 8 are locked into a whole.

S2, before correction, respectively placing the two counterweight bottom plates 2 on two sides of the bottom end of the power transmission pole 1, locking and fixing the two counterweight bottom plates 2 on the bottom end of the power transmission pole 1 through a first bolt assembly 3 on the side, and fixing the counterweight bottom plates 2 on the ground 5 through a first screw 4; specifically, the grabbing force of the bottom end of the power transmission line pole 1 is increased through the counterweight bottom plate 2, and then the connectivity between the bottom end of the power transmission line pole 1 and the ground 5 is increased, so that the power transmission line pole 1 is effectively balanced to continue to incline.

S3, when correcting deviation, placing the balancing weight 6 on the ground 5 on the inclined back surface of the power transmission pole 1, and hanging a steel wire lifting rope 7 connected with the balancing weight 6 on a hook at the upper end of the power transmission pole 1 through an external crane to balance the inclination angle of the power transmission pole 1; specifically, through the mutual matching of the balancing weight 6 and the steel wire lifting rope 7, the inclined back surface of the power transmission pole 1 is supported, and the power transmission pole 1 is further balanced to continue to incline; the balancing weight 6 is made of iron blocks, and the weight of the balancing weight is not lower than 1000KG; one end of the steel wire lifting rope 7 is fixedly sleeved in a draw hook at the top end of the balancing weight 6, and the other end of the steel wire lifting rope 7 is in a hook shape and is used for being hooked at a hook position at the upper end of the power transmission pole 1.

S4, when correcting deviation, placing the electric traction device 9 on the ground 5 on the inclined back surface of the power transmission rod 1, enabling the electric traction device 9 and the balancing weight 6 to be on the same side, installing two clamping blocks 8 on the middle part of the power transmission rod 1 through an external crane, placing one clamping block 8 loaded with a traction rope connector 13 on the inclined back surface of the power transmission rod 1, enabling the installation position of the traction rope connector 13 to be on the same side as the position of the electric traction device 9, and starting the electric traction device 9 to drive a steel wire traction rope 10 connected with the clamping blocks 8 to pull the power transmission rod 1 on the inclined back surface end and the middle part of the clamping block to pull the steel wire traction rope 10 through the electric traction device 9 connected with the clamping blocks to pull the power transmission rod 1 back to a vertical normal state; specifically, the clamping block 8 is fixed at the middle part of the power transmission pole 1 by using an external crane, one end loaded with the traction rope connector 13 is positioned at the inclined back surface of the power transmission pole 1, and then the electric traction equipment 9 is placed on the ground 5 at the inclined back surface of the power transmission pole 1; the electric traction equipment 9 is connected with an external power supply, a motor of the electric traction equipment 9 is started to provide driving force, and a reel of the electric traction equipment 9 is driven by the motor to rotate, so that the steel wire traction rope 10 is pulled to tighten, and the inclined angle of the transmission line pole 1 is gradually pulled back to a normal angle; the risk of manual wire drawing correction is effectively avoided, and the feasibility of the existing quick correction and reinforcement method for the inclination of the power transmission pole 1 is optimized.

S5, when correcting the deviation, the inclination monitoring sensor 11 arranged below the power transmission line pole 1 is observed until the numerical value given by the inclination monitoring sensor 11 accords with the normal vertical angle of the power transmission line pole 1, the power supply of the electric traction equipment 9 is cut off, and the soil around the power transmission line pole 1 is filled and leveled, so that the inclination of the power transmission line pole 1 is quickly corrected and reinforced; specifically, the inclination angle of the power transmission line pole 1 is monitored by the inclination monitoring sensor 11, so that inclination data of the power transmission line pole 1 is obtained and displayed on a display screen of the inclination monitoring sensor 11 for a worker to check; the embodiments described above are followed: the normal inclination angle of the existing power transmission pole 1 is as follows: when the power transmission rod 1 is gradually pulled back along with the electric traction device 9, the inclination angle data of the power transmission rod 1 is changed along with the power transmission rod, a worker can observe the numerical value on the display screen of the inclination monitoring sensor 11, when the numerical value of the display screen of the inclination monitoring sensor 11 is between 0.2 degrees and 0.5 degrees, the current electric traction device 9 is indicated to pull the power transmission rod 1 back to a normal vertical state, the pulling force of the electric traction device 9 can be suspended at the moment, and the supporting force is taken as the supporting force by combining the balancing weight 6 and the auxiliary shaft 14 below the clamping block 8 of the balancing weight, so that the vertical state of the power transmission rod 1 can not be continuously inclined at the moment; the workers can fill and tamp the soil around the power transmission pole 1 by means of external tools, cement concrete can be used for pouring if necessary, the connection tightness between the power transmission pole 1 and the ground 5 is sequentially improved, and further the power transmission pole 1 is prevented from being inclined continuously; after the soil is leveled and compacted or the poured cement concrete is solidified, the correction strengthening device can be gradually taken down, so that the inclination correction strengthening process of the power transmission pole 1 can be rapidly completed.

S6, after correction, firstly taking down the counterweight bottom plate 2, the steel wire lifting rope 7 and the clamping block 8 which are arranged on the power transmission pole 1 in sequence, canceling power failure and grounding of the power transmission pole 1, and restoring the lead and the lightning conductor on the power transmission pole 1; if the correction reinforcing device is required to be disassembled, a worker can ascend to the clamping block 8 through external lifting equipment, and sequentially take down nuts of the second bolt assembly 12, so that the screw is taken out of the plug bush, the connection between the two clamping blocks 8 is lost, the clamping blocks 8 are taken down from the side edge of the power transmission line pole 1, and then the disassembled two clamping blocks 8 are conveyed to the ground 5 through an external crane; the worker sequentially takes out the second screws 16 from the two hinges 15 through an external electric drill, so that the two hinges 15 are separated from the ground 5, and the process of disassembling the clamping block 8 is completed; and then reversely starting the motor of the electric traction equipment 9 to recover the steel wire traction rope 10, and rotating the two auxiliary shafts 14 along the hinge 15 at the upper end, so that the two auxiliary shafts 14 are respectively recovered to the bottom end of each clamping block 8, and then sequentially putting the clamping blocks 8 and the electric traction equipment 9 back into an external storage box.

After two counter weight bottom plates 2 in S2 are arranged in the both sides of power transmission pole 1 bottom respectively through the first bolt subassembly 3 of side, if need dismantle the time, the workman takes off the nut of first bolt subassembly 3 in proper order at first, take out the screw rod from the plug bush from this, thereby make and lose the connection between two counter weight bottom plates 2, workman' S rethread external electric drill takes out first screw 4 from two counter weight bottom plates 2 in proper order, thereby make two counter weight bottom plates 2 lose the connection with ground 5, thereby take off two counter weight bottom plates 2 from the ground 5 of power transmission pole 1 both sides, thereby accomplish counter weight bottom plate 2 and dismantle the flow.

In S4, two clamping blocks 8 are installed in the middle of the power transmission pole 1 through an external crane, specifically:

two clamping blocks 8 are hung in the middle of the power transmission line pole 1 through an external crane, two auxiliary shafts 14 below the clamping blocks 8 are fastened on the ground 5, hinges 15 connected below the two auxiliary shafts 14 are respectively placed on the ground 5 on two sides of the power transmission line pole 1, and the two hinges 15 are fixed on the ground 5 through second screws 16; the worker ascends to the clamping blocks 8 through the external lifting equipment and locks the second bolt assemblies 12 on the side edges, so that the two clamping blocks 8 are fixed in the middle of the transmission line pole 1.

The above embodiments are followed, for example: after the clamping block 8 is fixed in the middle of the power transmission rod 1, the two auxiliary shafts 14 at the bottom end of the clamping block can be folded along the hinges 15 with the two ends connected with the clamping block, so that the inclination angles of the auxiliary shafts 14 are changed, and supporting force is provided for the two sides of the power transmission rod 1, so that when the power transmission rod 1 is pulled back to the original position through the electric traction equipment 9, the inclination angles of the auxiliary shafts 14 at the two ends of the power transmission rod are changed along with the change of the inclination angles of the power transmission rod 1, and the balance is achieved on the inclination of the power transmission rod 1.

The working principle of the above matters is as follows: the counterweight bottom plate 2 is fixed on the ground 5 at the bottom end of the power transmission pole 1, the steel wire lifting rope 7 is hung at the upper end of the power transmission pole 1 through the crane, and the inclination angle of the power transmission pole 1 is balanced by the counterweight 6; then two clamping blocks 8 are arranged in the middle of the power transmission pole 1 through a crane, and an electric traction device 9 is started to drive a steel wire traction rope 10 to pull the clamping blocks 8 and the power transmission pole 1 to the inclined back side end; after observing the inclination monitoring sensor 11 until the given value accords with the normal vertical angle of the power transmission pole 1, cutting off the power supply of the electric traction equipment 9, and filling and leveling soil around the power transmission pole 1, thereby completing the quick correction and reinforcement flow of the inclination of the power transmission pole 1; therefore, the efficiency of the existing power transmission pole 1 inclination correction reinforcement is effectively improved, the dangers of manual stay wire correction are avoided, and the feasibility of the existing power transmission pole 1 inclination quick correction reinforcement method is optimized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The quick correction and reinforcement method for the inclination of the transmission line pole is characterized by comprising the following steps of:

s1, before correction, firstly, carrying out power failure and grounding on a power transmission pole (1), and dismantling a lead and a lightning conductor on the power transmission pole (1);

s2, before correction, respectively arranging the two counterweight bottom plates (2) on two sides of the bottom end of the power transmission pole (1), locking and fixing the two counterweight bottom plates (2) on the bottom end of the power transmission pole (1) through a first bolt assembly (3) on the side edge, and fixing the counterweight bottom plates (2) on the ground (5) by using a first screw (4);

s3, when correcting deviation, placing the balancing weight (6) on the ground (5) on the inclined back surface of the power transmission pole (1), and hanging a steel wire lifting rope (7) connected with the balancing weight (6) at a hook position at the upper end of the power transmission pole (1) through an external crane to balance the inclination angle of the power transmission pole (1);

s4, when correcting deviation, installing two clamping blocks (8) at the middle part of the transmission line pole (1) through an external crane, placing electric traction equipment (9) on the ground (5), and starting the electric traction equipment (9) to drive a steel wire traction rope (10) connected with the electric traction equipment to pull the clamping blocks (8) and the transmission line pole (1) at the middle part of the clamping blocks to the inclined back side end;

s5, when correcting the deviation, the inclination monitoring sensor (11) arranged below the power transmission line pole (1) is observed until the numerical value given by the inclination monitoring sensor (11) accords with the normal vertical angle of the power transmission line pole (1), the power supply of the electric traction equipment (9) is cut off, and the soil around the power transmission line pole (1) is filled and leveled, so that the inclination of the power transmission line pole (1) is corrected and reinforced rapidly.

2. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 1, wherein the method comprises the following steps: further comprises:

s6, after correction, firstly taking down the counterweight bottom plate (2), the steel wire lifting rope (7) and the clamping block (8) which are arranged on the power transmission line pole (1) in sequence, canceling power failure and grounding of the power transmission line pole (1), and recovering the lead and the lightning conductor on the power transmission line pole (1).

3. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 1, wherein the method comprises the following steps: after the two counterweight bottom plates (2) in the S2 are respectively arranged at the two sides of the bottom end of the power transmission pole (1) through the first bolt assemblies (3) at the side edges, if the two counterweight bottom plates are required to be disassembled, a worker firstly removes the first bolt assemblies (3) from the side edges of the two counterweight bottom plates (2) so that the two counterweight bottom plates (2) are disconnected; the worker sequentially takes out the first screws (4) from the two counterweight bottom plates (2) through the external electric drill, so that the two counterweight bottom plates (2) are disconnected with the ground (5), and the counterweight bottom plates (2) are detached.

4. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 1, wherein the method comprises the following steps: in S4, install two fixture blocks (8) in the middle part of power transmission pole (1) through external loop wheel machine, specifically do:

two clamping blocks (8) are hung to the middle of the power transmission line pole (1) through an external crane, workers ascend to the clamping blocks (8) through external lifting equipment and lock the second bolt assemblies (12) on the side edges, and therefore the two clamping blocks (8) are fixed to the middle of the power transmission line pole (1).

5. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 1, wherein the method comprises the following steps: when two clamping blocks (8) are hung to the middle of the power transmission pole (1) through an external crane in the S4, one clamping block (8) loaded with a traction rope connector (13) is placed at the inclined back of the power transmission pole (1), so that the power transmission pole (1) is pulled to be in a vertical normal state by pulling a steel wire traction rope (10) through an electric traction device (9) connected with the clamping blocks.

6. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 1, wherein the method comprises the following steps: when two clamping blocks (8) are hung to the middle of the power transmission line pole (1) through an external crane in the S4, two auxiliary shafts (14) below the clamping blocks (8) are fastened on the ground (5), and the method specifically comprises the following steps:

the hinges (15) connected below the two auxiliary shafts (14) are respectively arranged on the ground (5) at two sides of the power transmission pole (1), and the two hinges (15) are fixed on the ground (5) through the second screws (16).

7. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 1, wherein the method comprises the following steps: when the electric traction equipment (9) is placed on the ground (5) in the S4, the electric traction equipment (9) is placed on the inclined back surface of the power transmission pole (1), so that the electric traction equipment (9) and the balancing weight (6) are positioned on the same side.

8. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 4, wherein the method comprises the following steps: after installing two fixture blocks (8) in the middle part of power transmission line pole (1) through external loop wheel machine, if need dismantle the time, the workman rises to fixture block (8) department through external jacking equipment to take out second bolt assembly (12) from the side of fixture block (8), take off two fixture blocks (8) from the middle part of power transmission line pole (1) from this, put on ground (5) with the fixture block (8) fortune of dismantling by external loop wheel machine again, thereby accomplish fixture block (8) and dismantle the flow.

9. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 5, wherein the method comprises the following steps: the installation position of the traction rope connector (13) is on the same side as the position of the electric traction equipment (9).

10. The method for quickly correcting and reinforcing the inclination of the transmission pole according to claim 6, wherein the method comprises the following steps: after the two auxiliary shafts (14) below the clamping blocks (8) are fastened on the ground (5), if the auxiliary shafts are required to be disassembled, a worker sequentially takes out the second screws (16) from the two hinges (15) through an external electric drill, so that the two hinges (15) are separated from the ground (5), the clamping blocks (8) above are taken down from the middle of the power transmission line pole (1), and the disassembling process of the auxiliary shafts (14) is completed.