CN112952719A - Hammer, shovel, sweep integration high-voltage line defroster - Google Patents

Abstract

The invention relates to a hammer, shovel and sweeping integrated high-voltage line deicing device, and belongs to the technical field of high-voltage line deicing device structures. The ice removing device comprises a travelling mechanism for driving the ice removing device to travel along the length direction of a high-voltage wire, a knocking connecting rod mechanism for knocking ice coated on the top of the high-voltage wire, pendulum mechanisms for knocking and crushing the ice coated on the left side, the right side and the bottom of the high-voltage wire, and a snow removing mechanism for removing ice residues on the high-voltage wire. The ice removing device is ingenious in structural design, low in energy consumption, suitable for ice coating of various ice types and ice thickness, capable of removing ice by combining side hammering and upper shoveling, capable of effectively removing ice coating of high-voltage lines, high in snow removing efficiency and high in safety coefficient.

Description

Hammer, shovel, sweep integration high-voltage line defroster

Technical Field

The invention relates to a hammer, shovel and sweeping integrated high-voltage line deicing device, and belongs to the technical field of high-voltage line deicing device structures.

Background

The mechanical deicing is the method with the best application prospect at present, and physical deicing methods such as knocking, pricking and the like are mostly adopted. At present, the popular mechanical deicing method is that a person pulls a traction rope downwards on a wire and removes ice coated on the wire through a movable pulley, and the defect is that the operation is required by the person and the efficiency is low. There are also some reasons for the devices that are not widely used, including generally the need for a person to install them high above the ground in snow, difficulty and risk of installation, and difficulty in introducing wires. The implementation structure of the high-voltage wire deicing equipment disclosed in patent number CN108306239A is complex to install and difficult to wire. The high-voltage line deicing equipment disclosed in patent number CN110011261A only performs left-right deicing, but does not perform up-down deicing, which may cause that the up-down ice cannot be effectively removed, and the deicing mode is single and the deicing is incomplete. Even some broken ice slag sticks to the line and then becomes ice, which results in low deicing efficiency. The high-voltage wire deicing equipment disclosed in patent No. CN108306239A can only remove the ice covering around the high-voltage wire, and if the high-voltage wire meets the ice type with ice cone, the deicing mechanism cannot put in the ice, so that the high-voltage wire cannot deice, and cannot remove the ice type and the ice thickness, so that the use situation is single.

In addition, the device is based on modes such as shock waves and vibration, but the impact on the stability of current is large, and in addition, some devices for deicing by vibration need daily maintenance and are difficult to maintain at high altitude, so that the device which is widely used, economical, efficient, rapid to install and convenient to maintain does not exist at present.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides the high-voltage line deicing device which is ingenious in structural design, low in energy consumption, suitable for icing of various ice types and ice thicknesses, capable of effectively removing the icing of the high-voltage line by adopting a mode of combining side hammering with upper shoveling, high in snow removing efficiency and high in safety factor.

In order to achieve the purpose, the invention provides the following technical scheme:

a hammer, shovel and sweeping integrated high-voltage wire deicing device is characterized by comprising a traveling mechanism, a knocking connecting rod mechanism, a pendulum mechanism and a snow sweeping mechanism, wherein the traveling mechanism is used for driving the deicing device to travel along the length direction of a high-voltage wire;

preferably, the traveling mechanism comprises a motor arranged in the box body, the motor is powered by a battery, the motor drives the driving wheel to move along the length direction of the high-voltage wire through a driving wheel assembly, a driven wheel is further erected on the high-voltage wire and arranged on a driven wheel shaft, and two ends of the driven wheel shaft are respectively arranged on the box body through a first bearing and a second bearing;

preferably, the driving wheel assembly comprises a first driving belt connected with an output shaft of the motor, one end of the first driving belt is sleeved on the first belt wheel so as to drive the first belt wheel to rotate, the first belt wheel is mounted on a first shaft, a third bearing is sleeved on the first shaft and mounted on the box body through the third bearing, a first bevel gear and a first gear are mounted on the first shaft, the first bevel gear is connected with a second bevel gear, the second bevel gear is mounted on a second shaft, two ends of the second shaft are mounted on the box body through a fourth bearing and a fifth bearing respectively, and the driving wheel is mounted on the second shaft;

preferably, the snow sweeping mechanism comprises a left support and a right support which are arranged on the left side and the right side of the high-voltage wire, the tops of the left support and the right support are respectively installed on the top of the box body through a sixth bearing and a seventh bearing, a left snow sweeping brush and a right snow sweeping brush are respectively installed on the bottoms of the left support and the right support, and the left snow sweeping brush and the right snow sweeping brush are arranged on the left side and the right side of the high-voltage wire

Preferably, the pendulum mechanism comprises a left pendulum mechanism and a right pendulum mechanism which are arranged on the left side and the right side of the high-voltage wire, and the left pendulum mechanism and the right pendulum mechanism are driven by the hammering driving mechanism to knock the ice coating on the left side, the right side and the bottom of the high-voltage wire;

preferably, the hammering driving mechanism comprises a second gear meshed with the first gear, the second gear is mounted on a third shaft, two ends of the third shaft are respectively mounted on the U-shaped supporting plate through an eighth bearing and a ninth bearing, the second gear is meshed with a third gear, the third gear is mounted on a fourth shaft, the fourth shaft is mounted on the supporting plate through a tenth bearing and an eleventh bearing, one end of the fourth shaft penetrates through the side wall of the supporting plate and horizontally extends to the outside and provides power for the hammering connecting rod mechanism, the third gear is meshed with the fourth gear, the fourth gear is mounted on the fifth shaft, two ends of the fifth shaft are mounted on the supporting plate through a twelfth bearing and a thirteenth bearing, the fourth gear is meshed with a fifth gear, the fifth gear is mounted on a sixth shaft, a first ratchet wheel is mounted on the sixth shaft and is in line contact with the left pendulum, the left pendulum is sleeved on the sixth shaft and can rotate around the sixth shaft, a left spring is connected below the intersection of the left pendulum bob and the sixth shaft, and one end of the left spring is arranged on the seventh shaft; the fifth gear is meshed with the sixth gear, the sixth gear is installed on a twelfth shaft, a second ratchet wheel is installed on the twelfth shaft, a right pendulum bob is in line contact with the second ratchet wheel, the right pendulum bob is sleeved on the eighth shaft and can rotate around the eighth shaft, a right spring is connected below the intersection of the right pendulum bob and the eighth shaft, and one end of the right spring is connected to the ninth shaft;

preferably, the sixth shaft is installed on the first hanging plate, the top of the first hanging plate is installed on the box body, the twelfth shaft is installed on the second hanging plate, and the top of the second hanging plate is installed on the box body;

preferably, the left pendulum and the right pendulum have the same structure and respectively comprise a hammer handle and a spherical hammer head fixed at the bottom of the hammer handle, one side of the spherical hammer head, facing the high-voltage wire, is provided with a square knocking block for knocking the ice coated on the side surface of the high-voltage wire, and the bottom of the spherical hammer head is provided with a thorn-shaped body for knocking the ice coated on the bottom of the high-voltage wire;

preferably, the knocking connecting rod mechanism comprises a third bevel gear arranged on a fourth shaft, the third bevel gear is connected with a right fourth bevel gear through a connecting rod, the fourth bevel gear is arranged on a tenth shaft, one end of the tenth shaft is arranged on the box body through a fourteenth bearing, the other end of the tenth shaft is fixedly connected with a first connecting rod, one end of the first connecting rod is hinged with a second connecting rod, one end of the second connecting rod is hinged with the third connecting rod, one end of the third connecting rod is arranged on the eleventh shaft through a fifteenth bearing, and a shovel block for shoveling ice coated on the top of the high-voltage line is arranged on the lower surface of the second connecting rod;

preferably, the box includes left case groove, right case groove, and motor, battery are installed respectively in left case groove, right case inslot, and left case groove, right case inslot are installed and are used for making the balancing weight that the two weight is the same.

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

1. the travelling mechanism has stable structure and can ensure that the whole device stably travels along a high-voltage line.

2. Through the snow sweeping mechanism, the left snow sweeping brush, the right snow sweeping brush and the high-voltage wire are rubbed in the walking process to remove ice residues on the high-voltage wire, so that the ice residues are prevented from being stuck on the wire and subsequently condensed into ice, and the deicing efficiency is improved.

4. The pendulum mechanism continuously strikes the ice coating on the left side, the right side and the bottom of the high-voltage wire, and the high-voltage wire ice coating machine is suitable for various ice types and ice thicknesses.

5. The high-voltage wire is continuously and repeatedly knocked through the knocking connecting rod mechanism, and ice coated on the top of the high-voltage wire is removed through the shovel block, so that all-dimensional deicing is realized.

Drawings

FIG. 1 is a schematic structural diagram of an appearance of a hammer, shovel and sweeping integrated high-voltage line deicing device according to the present invention;

FIG. 2 is a schematic diagram 1 of the internal structure of the hammer, shovel and sweeping integrated high-voltage line deicing device with the thickness of the box body removed;

FIG. 3 is a schematic diagram 2 of the internal structure of the hammer, shovel and broom integrated high-voltage line deicing device with the box removed;

FIG. 4 is a schematic diagram of the internal structure of the hammer, shovel and broom integrated high-voltage line deicing device with the box removed, according to the present invention, shown in FIG. 3;

FIG. 5 is a schematic view of the structure of the pendulum;

FIG. 6 is a schematic structural view of the snow sweeping mechanism;

fig. 7 is a schematic structural view of the hammer driving mechanism;

FIG. 8 is a schematic structural view of the knocking link mechanism 1;

FIG. 9 is a schematic structural view of the knocking link mechanism 2;

FIG. 10 is a schematic structural view of the knocking link mechanism 3;

FIG. 11 is a schematic view of the structure of the right pendulum cooperating with the second ratchet.

In the figure: 1. a battery; 2. a motor; 3. a first drive belt; 4. a first pulley; 5. a first shaft; 6. a third bearing; 7. a first gear; 8. a first bevel gear; 9. a second bevel gear; 10. a second shaft; 11. a fourth bearing; 12. a fifth bearing; 13. a driving wheel; 14. a left snow sweeping brush; 15. a right snow sweeping brush; 16. a left strut; 17. a right strut; 18. a sixth bearing; 19. a seventh bearing; 20. a second gear; 21. a third axis; 22. an eighth bearing; 23. a ninth bearing; 24. a third gear; 25. a fourth axis; 26. a tenth bearing; 27. an eleventh bearing; 28. a fourth gear; 29. a fifth shaft; 30. a twelfth bearing; 31. a thirteenth bearing; 32. a fifth gear; 33. a sixth axis; 34. a first ratchet wheel; 35. a left pendulum bob; 36. a sixth axis; 37. a left spring; 38. a seventh axis; 39. a sixth gear; 40. a twelfth axis; 41. a second ratchet wheel; 42. a right pendulum bob; 43. an eighth axis; 44. a right spring; 45. a support plate; 46. a third bevel gear; 47. a fourth bevel gear; 48. a tenth axis; 49. a fourteenth bearing; 50. a first link; 51. a second link; 52. a third link; 53. a tenth axis; 54. a fifteenth bearing; 55. a driven axle; 56. a first bearing; 57. a second bearing; 58. a driven wheel; 59. a box body; 60. a high-voltage line; 61. a first hanger plate; 62. a second hanger plate; 63. a square knock block; 64. a thorn-shaped body; 65. a right tank trough; 66. a hammer handle; 67. a spherical hammer head; 68. a left tank trough; 69. and (5) shoveling blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-11, the hammer, shovel, and sweeping integrated high-voltage wire deicing device of the present embodiment includes a traveling mechanism for driving the deicing device to travel along the length direction of the high-voltage wire 60, a knocking link mechanism for knocking the ice coating on the top of the high-voltage wire 60, a pendulum mechanism for knocking and crushing the ice coating on the left and right sides and the bottom of the high-voltage wire 60, and a snow sweeping mechanism for removing ice residues on the high-voltage wire 60.

The specific structure of the running mechanism is as follows: the traveling mechanism comprises a motor 2 arranged in a box 59, the motor 2 is powered by a battery 1, the motor 2 drives a driving wheel 13 to move along the length direction of a high-voltage wire 60 through a driving wheel assembly, a driven wheel 58 is further erected on the high-voltage wire 60, the driven wheel 58 is arranged on a driven wheel shaft 55, and two ends of the driven wheel shaft 55 are respectively arranged on the box 59 through a first bearing 56 and a second bearing 57; the driving wheel assembly comprises a first driving belt 3 connected with an output shaft of the motor 2, one end of the first driving belt 3 is sleeved on the first belt pulley 4 so as to drive the first belt pulley 4 to rotate, the first belt pulley 4 is installed on a first shaft 5, a third bearing 6 is sleeved on the first shaft 5 and is installed on the box body 59 through the third bearing 6, a first bevel gear 8 and a first gear 7 are installed on the first shaft 5, the first bevel gear 8 is connected with a second bevel gear 9, the second bevel gear 9 is installed on a second shaft 10, two ends of the second shaft 10 are installed on the box body 59 through a fourth bearing 11 and a fifth bearing 12 respectively, and a driving wheel 13 is installed on the second shaft 10; through the work of motor 2 drive wheel subassembly to drive action wheel 13 is walked along high-voltage line length direction, can further improve the stability of walking through from driving wheel 58, guarantees that the whole walking of following high-voltage line 60 of edge of device is stabilized.

The snow sweeping mechanism has the specific structure that: the snow sweeping mechanism comprises a left support column 16 and a right support column 17 which are arranged on the left side and the right side of a high-voltage wire 60, the tops of the left support column 16 and the right support column 17 are respectively installed on the top of a box body 59 through a sixth bearing 18 and a seventh bearing 19, a left snow sweeping brush 14 and a right snow sweeping brush 15 are respectively installed at the bottoms of the left support column 16 and the right support column 17, and the left snow sweeping brush 14 and the right snow sweeping brush 15 are arranged on the left side and the right side of the high-voltage wire 60. When the ice removing device is used, ice residues are swept away through friction force between the left snow brush 14, the right snow brush 15 and the high-voltage wire 60, the broken ice residues are prevented from being stuck on the wire and then being condensed into ice, and the ice removing efficiency is improved.

The pendulum mechanism has the specific structure that: the pendulum mechanism comprises a left pendulum mechanism and a right pendulum mechanism which are arranged on the left side and the right side of the high-voltage wire 60, and the left pendulum mechanism and the right pendulum mechanism are driven by the hammering driving mechanism to strike ice coated on the left side, the right side and the bottom of the high-voltage wire 60; the hammering driving mechanism comprises a second gear 20 meshed with a first gear 7, the second gear 20 is arranged on a third shaft 21, two ends of the third shaft 21 are respectively arranged on a U-shaped supporting plate 45 through an eighth bearing 22 and a ninth bearing 23, the second gear 20 is meshed with a third gear 24, the third gear 24 is arranged on a fourth shaft 25, the fourth shaft 25 is arranged on the supporting plate 45 through a tenth bearing 26 and an eleventh bearing 27, one end of the fourth shaft 25 horizontally extends to the outside through the side wall of the supporting plate 45 and provides power for a hammering connecting rod mechanism, the third gear 24 is meshed with a fourth gear 28, the fourth gear 28 is arranged on a fifth shaft 29, two ends of the fifth shaft 29 are arranged on the supporting plate 45 through a twelfth bearing 30 and a thirteenth bearing 31, the fourth gear 28 is meshed with a fifth gear 32, the fifth gear 32 is arranged on a sixth shaft 33, a first ratchet wheel 34 is arranged on the sixth shaft 33, the first ratchet wheel 34 is in line contact with the left pendulum bob 35, the left pendulum bob 35 is sleeved on the sixth shaft 36 and can rotate around the sixth shaft 36, a left spring 37 is connected below the intersection of the left pendulum bob 35 and the sixth shaft 36, and one end of the left spring 37 is mounted on the seventh shaft 38; the fifth gear 32 is meshed with the sixth gear 39, the sixth gear 39 is mounted on a twelfth shaft 40, a second ratchet wheel 41 is mounted on the twelfth shaft 40, a right pendulum 42 is in line contact with the second ratchet wheel 41, the right pendulum 42 is sleeved on an eighth shaft 43 and can rotate around the eighth shaft 43, a right spring 44 is connected below the intersection of the right pendulum 42 and the eighth shaft 43, and one end of the right spring 44 is connected to the ninth shaft 38; the sixth shaft 33 is mounted on the first hanger plate 61, the top of the first hanger plate 61 is mounted on the box 59, the twelfth shaft 40 is mounted on the second hanger plate 62, and the top of the second hanger plate 62 is mounted on the box 59; the left pendulum bob 35 and the right pendulum bob 42 have the same structure and respectively comprise a hammer handle 66 and a spherical hammer head 67 fixed at the bottom of the hammer handle 66, one side of the spherical hammer head 67 facing the high-voltage wire 60 is provided with a square knocking block 63 for knocking the ice coated on the side surface of the high-voltage wire 60, and the bottom of the spherical hammer head 67 is provided with a thorn-shaped body 64 for knocking and stinging the ice coated on the bottom of the high-voltage wire 60. The ice coating on the left side and the right side of the high-voltage wire 60 is knocked by the square knocking blocks 63 on the left pendulum bob 35 and the right pendulum bob 42, and the ice coating at the bottom of the high-voltage wire 60 is knocked by the thorn-shaped bodies 64, so that the ice coating crusher is suitable for various ice types and ice thicknesses, and has a good deicing effect.

Knocking the concrete structure of the connecting rod mechanism: the knocking connecting rod mechanism comprises a third bevel gear 46 arranged on a fourth shaft 25, the third bevel gear 46 is connected with a right fourth bevel gear 47, the fourth bevel gear 47 is arranged on a tenth shaft 48, one end of the tenth shaft 48 is arranged on a box 59 through a fourteenth bearing 49, the other end of the tenth shaft 48 is fixedly connected with a first connecting rod 50, one end of the first connecting rod 50 is hinged with a second connecting rod 51, one end of the second connecting rod 51 is hinged with a third connecting rod 52, one end of the third connecting rod 52 is arranged on an eleventh shaft 53, the eleventh shaft 53 is arranged on the box 59 through a fifteenth bearing 54, and a shovel block 69 used for shoveling ice coated on the top of the high-voltage wire 60 is arranged on the lower surface of the second connecting rod 51; the ice coating above the high-voltage wire 60 can be effectively removed by continuously and reciprocally knocking the ice coating above the high-voltage wire 60 by knocking the link mechanism.

In order to keep the stability of the box 59, the box 59 comprises a left box groove 68 and a right box groove 65, the motor 2 and the battery 1 are respectively arranged in the left box groove 68 and the right box groove 65, the gravity center is positioned below the high-voltage wire, if the mass of one side of the device is smaller than that of the other side of the device, corresponding balance weights can be added in the left box groove 68 or the right box groove 65 with lower mass until the masses of the left side and the right side are equal, so the gravity center is distributed below the high-voltage wire, and the gravity of the two sides is equal, so that the device can stably work on the high-voltage wire.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 utility model provides a hammer, shovel, sweep integration high-voltage line defroster which characterized in that is used for driving running gear that defroster walked along high-voltage line length direction, is used for strikeing the link mechanism that strikes that the high-voltage line top covered ice, is used for strikeing kibbling pendulum mechanism, the snow sweeping mechanism that is used for cleaing away the ice sediment on the high-voltage line to the high-voltage line left and right sides and bottom cover ice.

2. The integrated high-voltage wire deicing device as claimed in claim 1, wherein the traveling mechanism comprises a motor mounted in the box body, the motor is powered by a battery, the motor drives the driving wheel to move along the length direction of the high-voltage wire through a driving wheel assembly, a driven wheel is further mounted on the high-voltage wire, the driven wheel is mounted on a driven wheel shaft, and two ends of the driven wheel shaft are mounted on the box body through a first bearing and a second bearing respectively.

3. The integrated high-voltage wire deicing device of claim 2, wherein the transmission wheel assembly comprises a first transmission belt connected to an output shaft of the motor, one end of the first transmission belt is sleeved on the first belt wheel to drive the first belt wheel to rotate, the first belt wheel is mounted on the first shaft, the first shaft is sleeved with a third bearing and is mounted on the box body through the third bearing, the first shaft is provided with a first bevel gear and a first gear, the first bevel gear is connected with a second bevel gear, the second bevel gear is mounted on the second shaft, two ends of the second shaft are respectively mounted on the box body through a fourth bearing and a fifth bearing, and the driving wheel is mounted on the second shaft.

4. The integrated high voltage line deicer according to claim 1, wherein the snow sweeping mechanism comprises a left pillar and a right pillar disposed on the left and right sides of the high voltage line, the top parts of the left pillar and the right pillar are respectively mounted on the top of the box body through a sixth bearing and a seventh bearing, the bottom parts of the left pillar and the right pillar are respectively mounted with a left snow sweeping brush and a right snow sweeping brush, and the left snow sweeping brush and the right snow sweeping brush are disposed on the left and right sides of the high voltage line.

5. The integrated high-voltage wire deicing device as claimed in claim 3, wherein the pendulum mechanisms comprise a left pendulum mechanism and a right pendulum mechanism disposed on the left and right sides of the high-voltage wire, and the left pendulum mechanism and the right pendulum mechanism are driven by the hammer driving mechanism to strike the ice coating on the left and right sides and the bottom of the high-voltage wire.

6. The integrated hammer, shovel and broom high voltage wire ice removing device as claimed in claim 5, wherein the hammering driving mechanism comprises a second gear engaged with the first gear, the second gear is installed on a third shaft, both ends of the third shaft are installed on the U-shaped supporting plate through an eighth bearing and a ninth bearing, respectively, the second gear is engaged with a third gear installed on a fourth shaft, the fourth shaft is installed on the supporting plate through a tenth bearing and an eleventh bearing, one end of the fourth shaft horizontally extends to the outside through the side wall of the supporting plate, the end supplies power to the hammering link mechanism, the third gear is engaged with a fourth gear installed on a fifth shaft, both ends of the fifth shaft are installed on the supporting plate through a twelfth bearing and a thirteenth bearing, the fourth gear is engaged with a fifth gear, the fifth gear is installed on a sixth shaft, a first ratchet wheel is mounted on the sixth shaft and in line contact with the left pendulum bob, the left pendulum bob is sleeved on the sixth shaft and can rotate around the sixth shaft, a left spring is connected below the intersection of the left pendulum bob and the sixth shaft, and one end of the left spring is mounted on the seventh shaft; the fifth gear is meshed with the sixth gear, the sixth gear is mounted on a twelfth shaft, a second ratchet wheel is mounted on the twelfth shaft, a right pendulum bob is in line contact with the second ratchet wheel, the right pendulum bob is sleeved on the eighth shaft and can rotate around the eighth shaft, a right spring is connected below the intersection of the right pendulum bob and the eighth shaft, and one end of the right spring is connected to the ninth shaft.

7. The integrated hammer, shovel and broom high voltage line ice detachment apparatus of claim 6, wherein the sixth shaft is mounted to a first hanger plate, the top of the first hanger plate is mounted to the tank, the twelfth shaft is mounted to a second hanger plate, and the top of the second hanger plate is mounted to the tank.

8. The integrated high-voltage wire deicing device of claim 6, wherein the left pendulum mass and the right pendulum mass have the same structure and each comprise a hammer handle and a spherical hammer head fixed at the bottom of the hammer handle, a square knocking block for knocking the ice on the side surface of the high-voltage wire is installed on one side of the spherical hammer head facing the high-voltage wire, and a thorn-shaped body for knocking the ice on the bottom of the high-voltage wire is installed at the bottom of the spherical hammer head.

9. The integrated hammer, shovel and broom high-voltage wire deicing device according to claim 6, wherein the knocking connecting rod mechanism comprises a third bevel gear mounted on a fourth shaft, the third bevel gear is connected with a right fourth bevel gear, the fourth bevel gear is mounted on a tenth shaft, one end of the tenth shaft is mounted on the box body through a fourteenth bearing, the other end of the tenth shaft is fixedly connected with a first connecting rod, one end of the first connecting rod is hinged with a second connecting rod, one end of the second connecting rod is hinged with the third connecting rod, one end of the third connecting rod is mounted on the tenth shaft, the eleventh shaft is mounted on the box body through a fifteenth bearing, and a shovel block for shoveling ice coated on the top of the high-voltage wire is mounted on the lower surface of the second connecting rod.

10. The integrated high voltage line deicing device of claim 1, wherein the box body comprises a left box groove and a right box groove, the motor and the battery are respectively installed in the left box groove and the right box groove, and the left box groove and the right box groove are internally provided with balancing weights for keeping the weight of the left box groove and the weight of the right box groove the same.

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